Post on 28-Apr-2015
CHAPTER -1
INTRODUCTION
1.1 RESEARCH OVERVIEW
1.2 INTRODUCTION INTO THE RESEARCH CONCEPT
1.3 INDUSTRY PROFILE
1.4 COMPANY PROFILE
1.1 RESEARCH OVERVIEW
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1.1.1 Research Background
Air traffic controllers are widely recognized as an occupational group which has to cope with a
highly demanding job that involves a complex series of tasks, requiring high levels of knowledge and
expertise, combined with high levels of responsibility, not only with regard to risking lives, but also the
high economic costs of aeronautical activities.
1.1.2 Research problem
Conduct a study on the stress levels experienced by Air Traffic Controllers and suggest remedies
to mitigate the same.
1.1.3 Significance of the study
To gain insight into…
causes of stress among the ATCs
identify the gap between the demand and supply
segregate the causes into specific areas
1.1.4 Objective of the study
• To study the job stress of ATCs
• Find out factors affecting the stress
• To find out the relationship between stress and
Work load
Operational procedures
Equipments
Working environment
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Working organization
To suggest the remedies and measures to reduce job stress
1.1.5 Data collection
The Study is descriptive based on survey method. All the data will be collected directly from the
respondents through the questionnaire, i.e. primary data.
Secondary data will be collected from documents, reports, manuals and records of the company.
For the purpose of analysis both primary as well as secondary data will be collected.
The Primary data will be collected by using the following tools
• Questionnaire
• Structured and Unstructured Interview
Primary data will be collected from the workers by way of questionnaire and unstructured interview
of the sample. Information can also be gathered by way of unstructured interview of duration 5-10
minutes. Questionnaire will be administered to employees followed by detailed discussion regarding
various aspects mentioned in the questionnaire.
1.1.6 Sampling Plan
All the 30 employees of the Air Traffic Control (sampling unit) were part of the study. As all the
30 respondents were available to be part of the research, all the employees were chosen and census
was the adopted Sampling Procedure
1.1.7 Limitations of the Study
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The ATC being a zone of high security and requiring high level of clearance at all times, it is not
easy to gain access to the Air Traffic Controllers for interviewing them.
Moreover, the group subject to this study is only 30 in number. A larger group at a larger airport
would be helpful to gain an in-depth understanding of the various stress levels that could have been
possibly left out in this study.
1.1.8 Scheme of the Report
The Report has been divided into seven chapters. The first chapter deals with Introduction
which gives idea about the Theoretical perspective, Research problem, Industry profile,
Organization Profile, Objectives of the study, limitations and last the Scheme of the Report.
The Second chapter gives explanation about various concepts and brief review of previous
studies in the form of Review of Literature.
The third chapter gives the percentage analysis and illustrations of the collected data
The fourth chapter deals with the testing of various hypotheses using the Fisher exact test and
Relative Risk
The fifth chapter summarizes the findings, suggestions and the conclusion.
1.2 INTRODUCTION INTO THE RESEARCH CONCEPT
1.2.1 INTRODUCTION
Healthy and safe workplaces are a measure of successful employment relationships that exhibit
mutual trust and confidence, and promote sustainable and productive relationships. Creating a healthy
and safe workplace requires employers and employees to work together systematically to identify
hazards and manage them. It also requires a workplace with ongoing and effective communications
between the employer and employees.
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A part of creating a healthy and safe workplace is managing stress in the workplace. Stress
arising from workplace factors can result from unmanaged hazards that have the potential to cause both
harm and poor business outcomes.
Some employers and employees will be approaching theissue of stress in the workplace for the
first time. Others will find that this booklet reflects the good practice they already follow in their
workplace.
Working systematically to identify workplace hazards means you should not wait until an
employee has a physical or mental health problem before taking steps to deal with stressors in the
workplace.
The concept of hazard identification and management also means that there is only a requirement
to manage work stressors or the individual’s stressed situation where you can be reasonably expected to
know about the stress. Even then the obligation is only to do what is reasonably practicable in the
circumstances.
1.2.2 What is stress?
There are many definitions of stress, and many theories about what causes it. Key definitions and
concepts adopted by the Occupational Safety and Health Service (OSH) when it considers workplace
stress are:
Stress – Workplace stress is the result of the interaction between a person and their work environment.
For the person it is the awareness of not being able to cope with the demands of their work environment,
with an associated negative emotional response.
Stressors – These are events or circumstances that lead to someone feeling that physical or
psychological demands are about to exceed his or her ability to cope. Stressors can be of several types.
Stressors can:
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• Be inherent in the job because of factors that make that occupation what it is – for example, the
mixture of pressures in police work, with shift work, the threat of violence and sometimes
dealing with emotionally repugnant material.
• Arise because of the way the job is organised. This may include physical factors (excess heat,
noise, cold etc) as well as physiological factors that affect the body’s balance (such as shift work,
inadequate recuperative time etc).
• Arise out of excessive work demands such as unrealistic deadlines.
• Arise out of personal factors such as health status, relationships, ability to cope with difficult
situations etc.
1.2.3 How (and why) does stress affect us?
Stress is a complex issue and no two individuals will be affected in the same way by either work
requirements or the work environment. Employers should be alert to signs of stress in their employees.
But employers can only manage stress or fatigue situations they can reasonably be aware of. So
employees experiencing workplace stress should tell their employers about the stress they are
experiencing. There should be systems in place that give employees confidence that if they report their
situation to their employer, manager, or supervisor everything possible will be done to deal with their
problem. In practice, it can be helpful to think of stress in terms of a simple ‘bucket’ model:
The bucket model
suggests that
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stress and fatigue result when a person’s reservoir of personal resilience is drained faster than it is
replenished. Things like interesting work, supportive relationships, good health and rest fill the bucket.
Difficult working conditions, conflict at work, emotionally draining work, excess (or not enough) work
and difficulties at home can drain the bucket. You are coping when you maintain the balance between
these factors.
As the bucket model shows, there’s no point in ‘filling the bucket’ if stressors keep draining it quickly.
Control of stressors is frequently needed – to ‘plug the holes’, or at least reduce their size – in order to
prevent stress building up.
1.2.4 What are the effects of stress?
Short-term stress may make a person aware of being challenged and motivated. This is the ’some stress
is good for you’ effect. Prolonged awareness of not coping, however, can lead to harm both for the
person and the organisation.
Prolonged unrelieved awareness of not coping, or of significant fatigue arising from stress can result in:
immediate safety problems (such as “I was so ‘stressed out’ that I didn’t see the warning light
flashing”)
long-term health problems such as depression, ‘burnout’, heart disease and self-abusive
behaviours (such as overuse of alcohol).
A stressed individual may:
• become ‘down’, anxious, irritable or clinically depressed
• lose confidence, talk about sleeping badly, have slow reactions,or behave oddly
• have deteriorating relationships with colleagues
• be irritable or indecisive, or perform poorly or be more error-prone
• drink more alcohol than usual or turn to other recreational drugs
• complain about their health and, for example, get frequent headaches.
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An organization where workplace stress is prevalent may demonstrate:
• numbers of staff with low morale
• high absenteeism and staff turnover
• poor employment relations
• low quality work and low productivity
• high (or rising) accident and illness rates
• high (or rising) numbers of customer complaints, or customers taking their business elsewhere
• increasing use of Employee Assistance Programme services, and grievance procedures.
(Although the provision of an Employee Assistance Programme will tend to indicate an
organisation that has recognised the necessity of dealing with employee stress, it will not
necessarily help to tackle the causes of stress at work)
• increasing numbers of employees saying they are under stress.
1.2.5 Causes of unnecessary workplace stress
At times work can be expected to be tiring and stressful to some extent, and a degree of
legitimate tiredness can be expected at the end of the working day. But where stress or tiredness are
excessive or gets worse each day – particularly when people don’t have enough time off to make a full
recovery – then, if work demands are involved, these will need to be examined.
Causes of workplace stress may be job content and how the work is organised. In such cases
simply providing an employee, or employees, with ‘stress management advice’ may not be an adequate
response. Improved work design can free up employees’ resources to concentrate on getting the job
done, to do the tasks better, or to look further ahead to find out how to meet new challenges.
Employee participation in health and safety issues can be a good way of getting both informed
comment and employee buy-in to proposed solutions or prevention methods.
Unnecessary work-related stress can emerge from two types of factors:
• job context (how the workplace is organized)
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• job content (what the job involves)
The following table summarises some of these factors, which can place unreasonable
demands on people at work:
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1.3 INDUSTRY PROFILE
INDIAN AVIATION INDUSTRY
Industry Evolution Year Major Milestones
< 1953 Nine Airlines existed including Indian Airlines & Air India
1953
Nationalization of all private airlines through Air Corporations
Act;
1986 Private players permitted to operate as air taxi operators
1994
Air Corporation act repealed; Private players can operate
schedule services
1995
Jet, Sahara, Modiluft, Damania, East West granted scheduled
carrier status
1997 4 out of 6 operators shut down; Jet & Sahara continue
2001 Aviation Turbine Fuel (ATF) prices decontrolled
2003 Air Deccan starts operations as India’s first LCC
2005
Kingfisher, SpiceJet, Indigo, Go Air, Paramount start
operations
2007
Industry consolidates; Jet acquired Sahara; Kingfisher acquired
Air Deccan
2010 SpiceJet starts international operations
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2011
Indigo starts international operations, Kingfisher exits LCC
segment
2012
Government allows direct ATF imports, FDI proposal for
allowing foreign carriers to pick up to 49% stake under
consideration
The Indian Aviation Industry has been going through a turbulent phase over the past several
years facing multiple headwinds – high oil prices and limited pricing power contributed by industry
wide over capacity and periods of subdued demand growth. Over the near term the challenges facing the
airline operators are related to high debt burden and liquidity constraints - most operators need
significant equity infusion to effect a meaningful improvement in balance sheet. Improved financial
profile would also allow these players to focus on steps to improve long term viability and brand
building through differentiated customer service. Over the long term the operators need to focus on
improving cost structure, through rationalization at all levels including mix of fleet and routes, aimed at
cost efficiency. At the industry level, long term viability also requires return of pricing power through
better alignment of capacity to the underlying demand growth.
While in the beginning of 2008-09, the sector was impacted by sharp rise in crude oil prices, it
was the decline in passenger traffic growth which led to severe underperformance during H2, 2008-09 to
H1 2009-10. The operating environment improved for a brief period in 2010-11 on back of recovery in
passenger traffic, industry-wide capacity discipline and relatively stable fuel prices. However, elevated
fuel prices over the last three quarters coupled with intense competition and unfavorable foreign
exchange environment has again deteriorated the financial performance of airlines. During this period,
while the passenger traffic growth has been steady (averaging 14% in 9m 2011-12), intense competition
has impacted yields and forced airlines back into losses in an inflated cost base scenario. To address the
concerns surrounding the operating viability of Indian carriers, the Government on its part has recently
initiated a series of measures including (a) proposal to allow foreign carriers to make strategic
investments (up to 49% stake) in Indian Carriers (b) proposal to allow airlines to directly import ATF
(c) lifting the freeze on international expansions of private airlines and (d) financial assistance to the
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national carrier. However, these steps alone may not be adequate to address the fundamental problems
affecting the industry.
While the domestic airlines have not been able to attract foreign investors (up to 49% FDI is
allowed, though foreign airlines are currently not allowed any stake), foreign airlines may be interested
in taking strategic stakes due to their deeper business understanding, longer investment horizons and
overall longer term commitment towards the global aviation industry. Healthy passenger traffic growth
on account of favorable demographics, rising disposable incomes and low air travel penetration could
attract long-term strategic investments in the sector. However, in our opinion, there are two key
challenges: i) aviation economics is currently not favorable in India resulting in weak financial
performance of airlines and ii) Internationally, too airlines are going through period of stress which
could possibly dissuade their investment plans in newer markets. Besides, foreign carriers already enjoy
significant market share of profitable international routes and have wide access to Indian market through
code-sharing arrangements with domestic players. Given these considerations, we believe, foreign
airlines are likely to be more cautious in their investment decisions and strategies are likely to be long
drawn rather than focused on short-term valuations. On the proposal to allow import of ATF, we feel
that the duty differential between sales tax (averaging around 22-26% for domestic fuel uplifts) being
currently paid by airlines on domestic routes and import duty (8.5%-10.0%) is an attractive proposition
for airlines. However the challenges in importing, storing and transporting jet fuel will be a considerable
roadblock for airlines due to OMCs monopoly on infrastructure at most Indian airports. From the
working capital standpoint too, airlines will need to deploy significant amount of resources in sourcing
fuel which may not be easy given the stretched balance sheets and tight liquidity profile of most airlines.
Historically, the Indian aviation sector has been a laggard relative to its growth potential due to
excessive regulations and taxations, government ownership of airlines and resulting high cost of air
travel. However, this has changed rapidly over the last decade with the sector showing explosive growth
supported by structural reforms, airport modernizations, entry of private airlines, adoption of low fare -
no frills models and improvement in service standards. Like elsewhere in the world, air travel is been
transformed into a mode of mass transportation and is gradually shedding its elitist image.
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Strong passenger traffic growth aided by buoyant economy, favorable demographics, rising
disposable incomes and low penetration levels
India aviation industry promises huge growth potential due to large and growing middle class
population, favorable demographics, rapid economic growth, higher disposable incomes, rising
aspirations of the middle class, and overall low penetration levels (less than 3%). The industry has
grown at a 16% CAGR in passenger traffic terms over the past decade. With advent of LCCs and
resultant decline in yields, passenger traffic growth which averaged 13% in the first half has increased
substantially to 19% CAGR during 2006-2011. Despite strong growth, air travel penetration in India
remains among the lowest in the world. In fact, air travel penetration in India is less than half of that in
China where people take 0.2 trips per person per year; indicating strong long term growth potential. A
comparative statistic in United States, the world’s largest domestic aviation market stands at 2 trips per
person per year. We expect passenger demand to remain stable and grow between 12-15% in the
medium term, assuming a no major weakness in GDP growth going forward.
However domestic airlines operate under high cost environment; intense competition has
constrained yields; aggressive fleet expansions have impacted profitability and capital structures
Despite reforms, the domestic aviation sector continues to operate under high cost environment
due to high taxes on Aviation Turbine Fuel (ATF), high airport charges, significant congestion at major
airports, dearth of experienced commercial pilots, inflexible labor laws and overall higher cost of
capital. While most of these factors are not under direct control of airline operators, the problems have
compounded due to industry-wide capacity additions, much in excess of actual demand. Intense
competitive pressure from Low cost carriers (focusing on maximizing load factors) and national carrier
(looking to regain lost market share) have constrained yields from rising in-sync with the elevated cost
base. Besides, aggressive fleet expansions (LCCs have added aircrafts mainly on long-term operating
leases; FSC’s have purchased aircrafts – debt financed, most often backed by guarantees from the US
EXIM Bank or Europe’s ECA) to leverage upon the anticipated robust growth and to support
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international operations have significantly impacted the capital structure and weakened the credit profile
of most domestic airlines.
Low-cost model now dominating the skies; viability remains to be seen
Internationally the LCC model came into existence when the US Congress passed the Airline
Deregulation Act in 1978 easing the entry of new companies into the business and giving them freedom
to set their own fares and choose routes (Prior to this routes and fares were fixed by a Government
Agency). This was followed by entry of carriers like Southwest, which pioneered the LCC concept.
Majority (~60-65%) of an airline cost are dependent on external factors, which can’t be managed by an
LCC. This includes the fuel cost (~40%), maintenance cost (~12%) and ownership cost (~12-15%).
LCCs try to achieve a cost advantage in other ways by avoiding the in-flight services, operating from
secondary airports, selling tickets through the internet, higher number of seats in the aircraft, inventory
reduction through use of similar aircraft and lower employees per aircraft.
The Indian aviation sector was exposed to intense competition with the advent of a low-cost
airline - Air Deccan back in 2003. The success of Air Deccan spurred the entry of other LCCs like
SpiceJet, Indigo, Go Air and subsequently low fare offerings from Jet airways and Kingfisher airlines.
As a result, the sector which was completely dominated by full-service airlines till a decade ago is now
dominated by low-cost airlines. However, longer term viability of LCCs models in India remains to be
seen (Kingfisher exited the segment recently) as airport charges are same for FSCs and LCCs in India.
Besides, the fuel costs forms a larger proportion of overall costs as compared to international standards
due to higher central and state government levies (viability of direct ATF imports remains to be seen
due to lack of supporting infrastructure) and high congestion at major airports (half an hour hovering at
major airport could increase fuel costs by Rs.60,000 to Rs. 115,000 depending on aircraft, besides
impacting aircraft utilizations). These constraint can be resolved only if theresignificant improvement in
infrastructure such that LCCs could operate on secondary airports.
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Fig :Growing LCC Market Share
Fig :ATF Price Trends (Mumbai, Rs/KLitre)
Fig :Rupee Depreciation (INR/USD)
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Fig: Domestic Airlines - Gross Sales Growth (%, YoY)
Fig: Domestic Airlines – Fuel Costs (% of Gross Sales)
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Fig: Domestic Airlines – Reported PAT (% of Gross Sales)
LCC Strategies Categories Remarks
Single model of aircraft Reduces maintenance and inventory cost.
Operate on secondary airport Lower charges, lower turnaround time due to
less congestion.
Point to Point Model Improves aircraft utilization by reducing
waiting time at airports.
Single class configuration More seats per flight so spread costs over a
larger base.
No In-flight services Helps to keep the costs and hence the fares
low.
Fewer employees per aircraft Reduces employee cost and leads to higher
employee productivity.
E-Ticketing The traditional method of ticketing costs
around US$ 4.5 per passenger whereas the
cost of an e-ticket comes to US$ 1 which
helps reduce selling expenses.
Ancillary Revenues Primarily on-board sales. Provides
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The domestic airlines industry is facing significant operating (slowing growth, rising fuel costs)
and non-operating (interest costs, rupee depreciation) challenges as evident in the quarterly performance
trends of listed airline companies.
Sales Growth: After a strong rebound in 2010, the pax growth has been moderating over the last few
quarters due to moderating economic growth and weak industrial activity. Besides, severe competitive
pressure from domestic LCC players (rapidly gaining market share) and Air India (trying to maintain
market share) have resulted in price wars (at times below cost pricing), lowered yields and moderated
sales growth for the airlines. Even on international routes, the yields have remained weak due to weaker
economic conditions and severe competition from global airlines.
Rising ATF Prices & Steep Rupee Depreciation: The airlines industry had been severely impacted by
the significant increase in ATF prices (up 57% in last 18 months) as Indian Carriers do not hedge fuel
prices and have exhibited limited ability to charge fuel surcharges due to irrational and undisciplined
pricing dictated by competition rather than costs / demand. Besides, the steep rupee depreciation
(~18.7% depreciation in CY11, although partly reversed through 7.3% YTD appreciation in CY12) acts
double whammy as apart from fuel costs, substantial portion of other operating costs like lease rentals,
maintenance, expat salaries and a portion of sales commissions are USD-linked or USD-denominated.
Profit Margins: With combined impact of 1) moderating pax growth 2) lower yields due to excessive
competitive 3) rising ATF prices 4) steep rupee depreciation and 5) rising debt levels and interest costs,
the profitability margins of the airlines industry have been severely impacted. As per Centre for Asia
Pacific Aviation (CAPA), Indian carriers could be posting staggering losses of $2.5 billion (~Rs 12,500
crore) in 2011-12, worse than the losses of 2008-09 when traffic was declining and crude oil prices
spiked to $150 per barrel.
Overall, the industry has been marred by cost inefficiencies and is bearing the brunt of aggressive price
cuts, rising costs, expensive jet fuel, a weaker rupee, high interest payments and hence mounting losses.
The government support required to bailout the loss making Air India has increased substantially; while
the leading private players like Kingfisher Airlines, Jet Airways and SpiceJet are making significant
losses. With Banks unwilling to enhance their exposure to the industry, recast their loans or pick up
equity stakes without viable business plans, industry needs to come out with strong equity infusion
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plans. Hence, the government is mulling allowing foreign carriers to pick strategic stakes in domestic
airlines to help them stay afloat in these difficult times, besides bringing global expertise and best
industry practices over the medium term.
FDI in Aviation: Feasibility and Impact Analysis for various stakeholders
FDI Proposal: The Civil Aviation Ministry is expected to soon circulate a proposal before the union
cabinet to consider allowing up to 49% equity investment by foreign carriers in domestic airlines. In
case of listed airlines, if the proposal does not get a waiver from SEBI’s Takeover Code, foreign carriers
may have to first make an open offer of 26% stake to public shareholders and later acquire up to 23%
stake (from promoters or fresh equity), such that their stake remains within the 49 % cap.
Indian Carriers: The FDI proposal, if approved, would certainly be an important milestone in the
aviation sector and may provide much-needed relief to the domestic aviation industry reeling under the
pressure of mounting losses and rising debt burden. Besides, the move will help bring global expertise
and best industry practices over the medium term.
Foreign Carriers: It will not just provide entry into one of the fastest growing aviation market globally
but also an opportunity to establish India as their hub for connections between US/Europe and South-
East Asian countries. While full-service airlines could help them further consolidate their market
position on international routes (and improve connectivity within India), acquisition of low-cost airlines
could help them compete in a market where travelers are highly price sensitive.
Consumers: New players could enter the market as they could now have a strategic foreign player with
deep pockets to support the airline in difficult times. Besides, it would provide more flexibility in
international travels when one travels through the same airline domestically as well as internationally.
Overall, this could increase competition, offer more alternatives, reduce tariffs and improve customer
service standards over the medium term.
However, the Global Airline industry is itself currently going through a tough phase (Bloomberg World
Airline index down 22%, Asia-Pacific Airline index down 25% in last one year), due to below trend
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economic growth across advanced economies and high crude oil prices ($100-125/Barrel). Besides,
aviation economics currently remain unfavorable in India due to intense competition, mandatory route
dispersal guidelines, higher taxes on ATF, airport related charges and inadequate airport infrastructure.
For example, airlines like Air Asia (citing high infrastructure costs) & American Airlines (parent facing
financial stress) have recently withdrawn from India. Lastly, foreign carriers already enjoy significant
market share of profitable international routes and have wide domestic access through code sharing
agreements.
Factors that support investments in Indian Aviation Sector…
Strong growth prospects
Passenger traffic growth has grown at a CAGR of 16% in India over the past 10 years
Relative underpenetrated market
Penetration of air travel at <3% is significantly below benchmarks in other markets
An opportunity to create India as an hub
An opportunity for foreign airlines to create India as their hub for international traffic
between Europe and South East Asia; Additionally offer better connectivity within India
with international destinations
An opportunity to create India as an MRO centre
Foreign airlines could also look at leveraging on India’s low-cost arbitrage by setting up
MRO facilities in India
Low Valuations
Market valuation of listed airlines in India has suffered due to poor performance
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Direct ATF Imports: Benefits and near term feasibility remain misty
In addition to the proposal on FDI, the empowered group of Minister has also recently approved
the proposal for airlines to import Aviation Turbine Fuel (ATF) directly, a demand that the airlines have
been lobbying for quite some time now. While the cabinet approval is yet come by, in our opinion, the
impact of this development is likely to be a mixed bag. Although the taxation differential (between
currently applicable sales tax rates and likely import duty) certainly suggest a large potential saving for
airlines, the availability of infrastructure is likely to be a considerable roadblock. Given the monopoly of
OMCs at major airports, airlines would have to resort to a fee-based structure for utilizing their
infrastructure for fueling, storing and transporting ATF. At the same time, airlines will also have to
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Factors that are not in favor of investments…
Aviation economics are not favorable in India
Higher taxes on ATF and airport charges continue to be key headwinds for the
sector; besides higher cost base, airlines in India are also mandatorily required
to fly on certain unviable routes
Inadequate Infrastructure
Development of airport infrastructure has not kept pace with demand, thereby
resulting in delays and higher costs for airlines
Poor financial health of most airlines
Intense competition, sharp fluctuation in ATF prices and high debt burden
continue to weigh on the financial performance of Indian airlines; foreign
exchange fluctuation and lack of adequate hedging mechanism (for fuel) have
added to the woes
Highly competitive & Price Sensitive traveler base
engage a fair bit of working capital in sourcing imported ATF as against credit period available from
OMCs. Given the current liquidity constraints, managing additional credit lines from banks is also likely
to be a challenge for airlines and overall would reduce the potential savings being envisaged.
At present, airlines buy ATF from OMCs which is priced on an import parity formula and is also subject
to sales tax varying from 4%-30% depending upon states. Given the higher tax rates at major airports,
airlines pay on an average 22-26% sales tax on ATF for domestic operations. With the option to import
directly, the effective taxes on ATF would prima facie reduce as airlines will pay import duties and will
be exempted from paying sales tax thus resulting in large savings for airlines. While the savings appear
to be significant, there are various practical issues that airlines will have to sort out before they could
start importing ATF directly. At most airports (barring the private ones), state-run OMCs own and
operate the infrastructure for sourcing, fueling and storing aviation fuel. For sourcing fuel directly,
airlines will have no other option but to utilize the existing infrastructure possibly on a fee-based
structure with OMCs. In addition, airlines will also lose out on volume discounts (ranging between 4-
5%) and credit period offered by OMCs and would need to pay in cash for direct imports, implying
incremental funding requirement. There is also an additional worry that the states may implement an
entry tax (as applicable on crude oil in some states) to offset the revenue loss from sales tax. Given these
hurdles, the effective savings could be much lower than what is reflected from tax differential. In
absolute terms, the impact will be higher on airlines with higher share of domestic operations like Indigo
or SpiceJet.
International Routes: Freeze on international permissions to private carrier removed
In another major boost to private airlines (especially IndiGo and SpiceJet), the Civil Aviation
Ministry has lifted the freeze on their overseas expansions. The government had imposed the freeze in
Mar-2011 with the objective of protecting the financially strained Air India from more competition on
foreign routes. However, lower utilizations of maximum permissible limits under the bilateral Air
Service Agreements (ASAs) have prompted the move to allow eligible domestic airlines (with more
than 5 years experience) expand their international operations. The move will benefit the private carriers
(although may increase competition and losses for the national carrier) as international flights provide
better margins owing to the availability of fuel at international rates, higher auxiliary revenue through
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in-flight sales and higher fleet utilization, as international operations could happen during the otherwise
idle night hours.
Financial guarantees to the debt-ridden national carrier in securing funding at competitive rates
As per media reports, Group of ministers (GoM), headed by finance minister cleared the
financial restructuring plan for Air India under which the national carrier will be allowed to raise Rs
7,400 crore through government- guaranteed bonds bearing a coupon rate of 8.5-9%. According to
official data, Air India has outstanding loans and dues worth Rs 67,520 crore. Of this, Rs 21,200 crore
represents working capital loans, Rs 22,000 crore long -term loans taken for fleet acquisition, Rs 4,600
crore dues to vendors and it carries an accumulated loss of Rs 20,320 crore. The ministerial group also
decided to restructure the carrier’s Rs 21,200 crore working capital loans - Rs 7,400 crore shall be come
from the bond issue, Rs 9,800 crore will be converted into long-term debt of 10 to 15 years and the
balance Rs 4,000 crore will remain outside the restructuring exercise. While the financial guarantees
may help it overcome near term headwinds, operation turnaround at ailing national carrier remains
critical for overall health of the industry.
1.4 COMPANY PROFILE
1.4.1 Organization
Airports Authority of India (AAI) was constituted by an Act of Parliament and came into being on 1st
April 1995 by merging erstwhile National Airports Authority and International Airports Authority of
India. The merger brought into existence a single Organization entrusted with the responsibility of
creating, upgrading, maintaining and managing civil aviation infrastructure both on the ground and air
space in the country.
AAI manages 125 airports, which include 11 International Airport, 08 Customs Airports, 81 Domestic
Airports and 27 Civil Enclaves at Defense airfields. AAI provides air navigation services over 2.8
million square nautical miles of air space. During the year 2008- 09, AAI handled aircraft movement of
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1306532 Nos. [International 270345 & Domestic 1036187], Passengers handled 44262137 Nos.
[International 1047614 & Domestic 33785990] and the cargo handled 499418 tons [International
318242 & Domestic 181176].
Vision : ''To be a world-class organization providing leadership in air traffic services and airport
management & making India a major hub in Asia Pacific region by 2016”.
Mission : ''To achieve highest standards of safety and quality in air traffic services and airport
management by providing state-of-the-art infrastructure for total customer satisfaction, contributing to
economic growth and prosperity of the nation.''
1. Passenger Facilities
The main functions of AAI inter-alia include construction, modification & management of passenger
terminals, development & management of cargo terminals, development & maintenance of apron
infrastructure including runways, parallel taxiways, apron etc., Provision of Communication,
Navigation and Surveillance which includes provision of DVOR / DME, ILS, ATC radars, visual
aids etc., provision of air traffic services, provision of passenger facilities and related amenities at its
terminals thereby ensuring safe and secure operations of aircraft, passenger and cargo in the country.
2. Air Navigation Services
In tune with global approach to modernization of Air Navigation infrastructure for seamless
navigation across state and regional boundaries, AAI has been going ahead with its plans for
transition to satellite based Communication, Navigation, Surveillance and Air Traffic Management.
A number of co-operation agreements and memoranda of co-operation have been signed with US
Federal Aviation Administration, US Trade & Development Agency, European Union, Air Services
Australia and the French Government Co-operative Projects and Studies initiated to gain from their
experience. Through these activities more and more executives of AAI are being exposed to the
latest technology, modern practices & procedures being adopted to improve the overall performance
25
of Airports and Air Navigation Services.
Induction of latest state-of-the-art equipment, both as replacement and old equipments and also as
new facilities to improve standards of safety of airports in the air is a continuous process. Adoptions
of new and improved procedure go hand in hand with induction of new equipment. Some of the
major initiatives in this direction are introduction of Reduced Vertical Separation Minima (RVSM)
in India air space to increase airspace capacity and reduce congestion in the air; implementation of
GPS And Geo Augmented Navigation (GAGAN) jointly with ISRO which when put to operation
would be one of the four such systems in the world.
3. Security
The continuing security environment has brought into focus the need for strengthening security of
vital installations. There was thus an urgent need to revamp the security at airports not only to thwart
any misadventure but also to restore confidence of traveling public in the security of air travel as a
whole, which was shaken after 9/11 tragedy. With this in view, a number of steps were taken
including deployment of CISF for airport security, CCTV surveillance system at sensitive airports,
latest and state-of-the-art X-ray baggage inspection systems, premier security & surveillance
systems. Smart Cards for access control to vital installations at airports are also being considered to
supplement the efforts of security personnel at sensitive airports.
4. Aerodrome Facilities
In Airports Authority of India, the basic approach to planning of airport facilities has been adopted to
create capacity ahead of demand in our efforts. Towards implementation of this strategy, a number of
projects for extension and strengthening of runway, taxi track and aprons at different airports has
been taken up. Extension of runway to 7500 ft. has been taken up to support operation for Airbus-
320/Boeing 737-800 category of aircrafts at all airports.
5. HRD Training
A large pool of trained and highly skilled manpower is one of the major assets of Airports Authority
of India. Development and Technological enhancements and consequent refinement of operating
standards and procedures, new standards of safety and security and improvements in management
techniques call for continuing training to update the knowledge and skill of officers and staff. For
26
this purpose AAI has a number of training establishments, viz. NIAMAR in Delhi, CATC in
Allahabad, Fire Training Centres at Delhi & Kolkata for in-house training of its engineers, Air
Traffic Controllers, Rescue & Fire Fighting personnel etc. NIAMAR & CATC are members of
ICAO TRAINER programme under which they share Standard Training Packages (STP) from a
central pool for imparting training on various subjects. Both CATC & NIAMAR have also
contributed a number of STPs to the Central pool under ICAO TRAINER programme. Foreign
students have also been participating in the training programme being conducted by these institution
6. IT Implementation
Information Technology holds the key to operational and managerial efficiency, transparency and
employee productivity. AAI initiated a programme to indoctrinate IT culture among its employees
and this is most powerful tool to enhance efficiency in the organization. AAI website with domain
name www.airportsindia.org.in or www.aai.aero is a popular website giving a host of information
about the organization besides domestic and international flight information of interest to the public
in general and passengers in particular.
1.4.2 Board Members of AAI
Shri V.P. Agrawal Chairman
Whole -Time Members
Shri K.K. Jha, IRS Member ((Human Resource)
Shri S. Raheja Member (Planning)
Shri V. Somasundaram Member (ANS) & Addl.Charge-Member (Finance)
Shri G. K. Chaukiyal Member (Operations)
27
Part-Time Members
Shri E.K. Bharat Bhushan, IAS Additional Secretary and Financial Advisor Ministry
of Civil Aviation (Official) & Director General of
Civil Aviation
Shri Alok Sinha, IAS Joint Secretary, Ministry of Civil Aviation (Official)
Shri Deepak Parekh Non-Official
Shri Arun L. Bongirwar Non-Official
Shri Sajjan Jindal Non-Official
1.4.3 Functions of AAI
The functions of AAI are as follows:
1. Design, Development, Operation and Maintenance of international and domestic airports
and civil enclaves.
2. Control and Management of the Indian airspace extending beyond the territorial limits of
the country, as accepted by ICAO.
3. Construction, Modification and Management of passenger terminals.
4. Development and Management of cargo terminals at international and domestic airports.
5. Provision of passenger facilities and information system at the passenger terminals at
airports.
6. Expansion and strengthening of operation area, viz. Runways, Aprons, Taxiway etc.
7. Provision of visual aids.
8. Provision of Communication and Navigation aids, viz. ILS, DVOR, DME, Radar etc.
28
1.4.4 AAI TODAY
Airports Authority of India (AAI) manages a total of 125 Airports, which include 11 International
Airports, 08 Customs Airports, 81 Domestic Airports and 25 Civil Enclaves at Defence Airfields. AAI
also provides Air Traffic Management Services (ATMS) over entire Indian Air Space and adjoining
oceanic areas with ground installations at all Airports and 25 other locations to ensure safety of Aircraft
operations.
The Airports at Ahmedabad, Amritsar, Calicut, Guwahati, Jaipur, Trivandrum, Kolkata & Chennai,
which today are established as International Airports, are open to operations even by Foreign
International Airlines. Besides, the International flights, National Flag Carriers operate from
Coimbatore, Tiruchirappalli, Varanasi, and Gaya Airports. Not only this but also the Tourist Charters
now touch Agra, Coimbatore, Jaipur, Lucknow, Patna Airports etc.
AAI has entered into a Joint Venture at Mumbai, Delhi, Hyderabad, Bangalore and Nagpur Airports to
upgrade these Airports and emulate the world standards.
All major air-routes over Indian landmass are Radar covered (29 Radar installations at 11 locations)
along with VOR/DVOR coverage (89 installations) co-located with Distance Measuring Equipment (90
installations). 52 runways are provided with ILS installations with Night Landing Facilities at most of
these Airports and Automatic Message Switching System at 15 Airports.
AAI's successful implementation of Automatic Dependence Surveillance System (ADSS), using
indigenous technology, at Calcutta and Chennai Air Traffic Control Centres, gave India the distinction
of being the first country to use this advanced technology in the South East Asian region thus enabling
effective Air Traffic Control over oceanic areas using satellite mode of communication. Use of remote
controlled VHF coverage, along with satellite communication links, has given added strength to our
ATMS. Linking of 80 locations by V-Sat installations shall vastly enhance Air Traffic Management and
in turn safety of aircraft operations besides enabling administrative and operational control over our
extensive Airport network. Performance Based Navigation (PBN) procedures have already been
29
implemented at Mumbai, Delhi and Ahmedabad Airports and are likely to be implemented at other
Airports in phased manner.
AAI has undertaken GAGAN project in technological collaboration with Indian Space and Research
Organization (ISRO), where the satellite based system will be used for navigation. The navigation
signals thus received from the GPS will be augmented to achieve the navigational requirement of
aircrafts. First Phase of technology demonstration system has already been successfully completed in
February 2008. Development team has been geared up to upgrade the system in operational phase.
AAI has also planned to provide Ground Based Augmentation System (GBAS) at Delhi and Mumbai
Airports. This GBAS equipment will be capable of providing Category-II (curved approach) landing
signals to the aircrafts thus replacing the existing instrument landing system in the long run, which is
required at each end of the runway.
The Advanced Surface Movement Guidance and Control System (ASMGCS), installed at Delhi, has
upgraded operation to runway 28 from CAT-IIIA level to CAT-IIIB level. CAT-IIIA system permits
landing of aircrafts up to visibility of 200mtrs. However, CAT-IIIB will permit safe landing at the
Airports at a visibility below 200mtrs but above 50mtrs.
AAI's endeavour, in enhanced focus on 'customer's expectations', has evinced enthusiastic response to
independent agency, which has organised customer satisfaction surveys at 30 busy Airports. These
surveys have enabled us to undertake improvements on aspects recommended by the Airport users. The
receptacles for our 'Business Reply Letters' at Airports have gained popularity; these responses enable
us to understand the changing aspirations of Airport users. During the first year of the millennium, AAI
endeavours to make its operations more transparent and also make available the instantaneous
information to customers by deploying state-of-art Information Technology.
The specific training, focus on improving the employee response and the professional skill up-gradation,
has been manifested. AAI's four training establishments viz. Civil Aviation Training College (CATC) -
Allahabad, National Institute of Aviation Management and Research (NIAMAR) - Delhi and Fire
Training Centres (FTCs) at Delhi & Kolkata are expected to be busier than ever before.
30
AAI has also undertaken initiatives to upgrade training facilities at CATC Allahabad and Hyderabad
Airport. Aerodrome Visual Simulator (AVS) has been provided at CATC recently and non-radar
procedural ATC simulator equipment is being supplied to CATC Allahabad and Hyderabad Airport.
AAI is having a dedicated Flight Inspection Unit (FIU) and it has fleet of three aircrafts fitted with latest
state-of-art fully automatic flight inspection system capable of inspecting.
1. ILS up to Cat-III
2. VOR (CVOR/DVOR)
3. DME
4. NDB
5. VGSI (PAPI, VASI)
6. RADAR (ASR/MSSR)
In addition to in house flight calibration of nav aids, AAI also undertakes flight calibration of nav aids
for Air force, Navy, Coast Guard and other private Airfields in India.
31
1.4.5 AIR TRAFFIC MANAGEMENT
AAI has drawn plans to upgrade ATM infrastructure in the country both in terms of
conditional provision of automation systems and upgradation of technology which also
involves shifting from ground based navigation to satellite based navigation.
32
Functions of Department of Air Traffic Management
1. Provision of Air Traffic Services (ATS) to all arriving, departing & enroute aircraft
over flying Indian airspace.
2. Establishment of ATS routes, realignment of existing air routes in consultation with
user airlines and international bodies such as IATA and ICAO.
3. Establishment of control zones and control areas and changes to existing control
zones and areas.
4. Establishment of Danger/Prohibited and Restricted areas and changes to mentioned
areas in coordination with Military Authorities.
5. Providing Search and Rescue co-ordination for aircraft in distress.
6. Providing Aeronautical Information Services (AIS) as prescribed by ICAO to all
domestic and international airlines and AIS of other countries.
7. Survey of airports, publication of aeronautical maps and charts.
8. Development of Instrument Approach to Land (IAL) procedures & IAL charts.
9. Monitor and control of obstructions/constructions around airport to ensure
compliance with the SARPs of ICAO.
10. Co-ordination with International Civil Aviation Organization, Regional office
Bangkok and Headquarters Montreal, Canada on matters relating to airspace
management and aviation rules and regulation.
11. Manpower planning, training and award of ratings to Air Traffic Controllers in
confirmity with ICAO rules and regulations as stated in Annex-I (Personnel
Licensing).
12. Monitoring of standards and procedures in the provision of Air Traffic Services.
13. Investigation of Air Traffic incidents in co-ordination with DGCA and corrective
actions thereupon.
14. Matters related to aviation security.
33
15. Monitoring of environmental hazards at airports.
Modernization of Air Traffic Services
a) At Mumbai and Delhi
Upgradation of automation systems to (Auto Track-Ill) with new Air Traffic Controller
assistance features such as Arrival Manager, Departure Manager, is almost complete and
is at various levels of testing prior to declaring operational.
Advanced Surface Movement Ground Control Systems (ASMGCS) added to improve
efficient handling of Aerodrome Traffic.
Automatic dependent surveillance I CPDLC has enhanced the surveillance of suitably
equipped aircraft over the entire Flight Information Region.
b) At Hyderabad and Bangalore
Advanced integrated automation systems, that integrates state of the art Radars, flight
data processors, air situation display Advanced Surface Movement Ground Radars, have
been installed by SELEX Integreti for providing effective Air Traffic Management.
c) At Chennai / Kolkata
ATS modernization project is underway for replacing old Radars, surveillance systems
by the latest state of the art technology one par with Mumbai I Delhi to provide a
common platform for integration of the entire systems over Indian Airspace, which will
effectively increase Air Traffic capacity and bring synergy in ATS operations.
d) At Other Area Control Centres (Nagpur/ Varanasi/ Ahmedabad/ Trivandrum/
Mangalore)
Integration of Radar with flight data processors has been completed by ECIL in
34
collaboration with AAI for providing indigenous automation solutions for effective Air
Traffic Management within the designated airspace.
e) Initiatives to Enhance the Standards of ATS
Performance Based Navigation: (PBN), Standard· Instrument Departures (SIDs) and
STARs (Standard Terminal Arrival Routes) have been introduced at Delhi, Mumbai,
Ahmedabad and Chennai order to reduce delays to aircraft.
Established a number of ATS Connector routes in Mumbai and Chennai airspace to
facilitate PBN operations.
AAI has drawn the concept of future India Air Navigation (FIAN), and is on the threshold of
introducing Air Traffic Flow Management over busy routes, dedicated helicopter routes,
providing automation systems at 35 non metro control towers, and the use of space based
augmentation system (GAGAN).
35
CHAPTER -2
LITERATURE REVIEW
1. Introduction to Stress in Air traffic Control
1.1 What is stress?
It is not easy to properly define what stress is, although it is quite a common experience for
36
everyone.
Stress is a part of everyday life and not necessarily a negative phenomenon, being a
physiological stimulus usually connected with human-environment interactions.
However, it can become a harmful risk factor for health when it is perceived as an
imbalance between an excess of demands and the individual ability to meet them. This causes a
perturbation of the psycho-physical equilibrium, taxing physical, psychic and behavioural
responses aimed at coping with it. If this coping fails, stress can have harmful consequences on physical,
mental and social well-being, with high costs both for the individual and society.
Stress at work can be generated by job demands, environmental conditions, work
organization and human relations; its impact on job satisfaction, performance efficiencyand health can
vary widely depending on the psycho-physical characteristics and coping resources of individuals,
as well as on the social support received.
1.2 The sources of stress in air traffic control
Air traffic controllers (ATCs) are generally considered one of the working groups having to deal
with a highly demanding job.
In fact, it entails a complex set of tasks requiring very high levels of knowledge and
expertise, as well as the practical application of specific skills pertaining to cognitive domains (e.g.
spatial perception, information processing, logic reasoning, decision making), communicative aspects
and human relations.
To have an idea of its complexity, it is sufficient to mention that, according to a job
analysis of en-route controllers carried out by a group of American researchers,1 six main activities can
be identified (i.e. situation monitoring, resolving aircraft conflicts, managing air traffic sequences,
routing or planning flights, assessing weather impact, managing sector/position resources), which
1 H.L.Ammerman, L.J.Bergen, D.K.Davies, C.M.Hostetler, E.E. Inman and G.W. Jones: FAAair traffic controloperations concepts, Vol.VI.ARTCC/HOSTEn route controllers, report number DOT/FAA/AP/86-01 (Washington,Federal Aviation Administration, 1987).
37
include 46 sub-activities and 348 distinct tasks. For example, the relevant cognitive/sensory attributes
required for high performance levels at radar workstations are spatial scanning, movement detection,
image and pattern recognition, prioritizing, visual and verbal filtering, coding and decoding, inductive
and deductive reasoning, short- and long-term memory, and mathematic and probabilistic reasoning.
It is evident that the cognitive and operational processes of an ATC vary not only
according to the number of aircraft under control, but also with the number and complexity of problems
to be solved.2
The ATC must constantly reorganize his or her system of processing flight information by
changing operating methods (in particular, cognitive processes, conversation, coordinating with
assistants, anticipation and solving problems) as they arise and interact with each other.3 This is carried
out by means of the precise and effective application of rules and procedures that, however, need
flexible adjustments according to differing circumstances, often under time pressure.
At the same time, the job includes high levels of responsibility, not only with regard to risking
lives, but also for the high economic costs of aeronautical activities.
According to several surveys4, the main sources of stress reported by air traffic controllers are
connected both to operative aspects and to organizational structures (Table 1). For the former, the most
important are peaks of traffic load, time pressure, having to bend the rules, limitations and the reliability
of equipment. The latter are mainly concerned with shift schedules (night work in particular), role
conflicts, unfavourable working conditions and the lack of control over work.
These stress factors can affect not only job satisfaction, but the well-being and safety of ATCs.
In fact, as the workload increases the ATC tends to employ more procedures which are less time
2 S. Ratcliffe and H. Gent: "The quantitative description of a traffic control process", in Journal of Navigation,Vol. 27, 1974, pp. 317-322.3 J.C. Sperandio: "The regulation of working methods as a function of work-load among air traffic controllers",in Ergonomics, Vol. 21, No. 3, 1978, pp. 195-202.4 R.C. Smith: Stress, anxiety and the air traffic control specialist, Federal Aviation Administration Report No.FAA-AM-80-14 (Washington, 1980); E.W. Farmer, A.J. Belyavin, A. Berry, A.J. Tattersall and G.R.J. Hockey:Stress in air traffic control. I. Survey of NATS controllers, RAF Institute of Aviation Medicine Report No. 689(Farnborough, 1990).
38
consuming, together with a progressive reduction to the minimum of flight information and the
relaxation of certain self-imposed qualitative criteria. It is evident that the number of decisions to be
made becomes a stressful condition when the controller's decision-making capacity is stretched to the
maximum; this can lead, in case of overload, to a very risky situation defined as "loss of picture".
On the other hand, it is frequently reported that, paradoxically, many errors often occur during
periods of light or non-complex traffic. This points to the great effort required to regulate the psycho-
physical reactions, maintaining high level of arousal and vigilance even in conditions of "underload".
39
40
Demand:
number of aircraft under control peak traffic hours extraneous traffic unforeseeable events
Operating procedures:
time pressure having to bend the rules feeling of loss of control fear of consequences of errors
Working times:
unbroken duty periods shift and night work
Working tools:
limitations and reliability of equipment
VDT, R/T and telephone quality equipment layout
Work environment:
lighting, optical reflections noise/distracters microclimate bad posture rest and canteen facilities
Work organization:
role ambiguity relations with supervisors and colleagues lack of control over work process salary public opinion
Table 1. Main sources of stress for ATCs
Another important stressful factor is shift work, connected with the requirement of an optimum
use of all mental faculties at all hours of the day and night, sometimes irrespective of the workload. It
has to be taken into account that an ATC's work performance can be impaired at certain hours of the day
by an excessive workload, but it can also be lowered during the night by a decline in mental and
physical functions, in spite of a reduced external load. In fact, a lack of stimulation from a low workload
can further increase the normal drop in physical and mental efficiency during the night hours, connected
to perturbation of sleeping habits and circadian rhythms of body functions. This can be particularly
harmful in emergency situations.5
Furthermore, air traffic controllers are among the groups of workers more exposed to "critical
accidents", these being situations which cause unusuallystrong emotional reactions, such as in the case
of air accidents with loss of life or serious injury, near collisions or loss of control due to overload. The
psychic (anger, guilt, grief, anxiety) and physical (tachycardia, hypertension, headache, sweating,
heartburn, insomnia) reactions cannot only hamper work performance (poor attention and concentration,
impaired thinking and memory), but can also give rise to long-term post-traumatic disorders.
1.3 The consequences on health and well-being
If we consider stress as the external demands upon an individual, it is clear that stress for air
traffic controllers is connected, on the one hand, with the intrinsic characteristics of the job and, on the
other hand, with the work organization and conditions in the workplace. It is important to bear in mind
that the psycho-physical responses of individuals also depend on their resources, defined both in terms
of personal characteristics and coping strategies.
According to the "demand/control/support" model on stress at work6, high stress levels and
consequent troubles and illnesses are more likely to develop in work activities where there is high
5 S. Folkard and T.H. Monk (eds.): Hours of work: Temporal factors in work scheduling (Chichester, John Wiley,1985); and G. Costa: "Shiftwork and circadian variations of vigilance and performance", in J.A. Wise, V.D. Hopkinand M.L. Smith (eds.): Automation and systems issues in air traffic control, NATO ASI Series, Vol. F73 (Berlin,Springer-Verlag, 1991), pp. 267-2806 R. Karasek: "Job demands, job decision latitude, and mental strain", in Administrative Science Quarterly, Vol.24, 1979, pp. 285-308; and J.V. Johnson and E.M. Hall: "Job strain, work place social support, and cardiovasculardisease: A cross-sectional study of a random sample of the Swedish working population", in American Journal ofPublic Health, Vol. 78, No. 10, 1988, pp. 1336-1342.
41
psychological demand, but low decision latitude and inadequate social support at the workplace ("high
strain job"). On the other hand, jobs having not only high psychological demands, but also a high
decision latitude and adequate social support, are likely to determine an active behaviour that stimulates
learning, motivation and labour productivity.
As far as air traffic control is concerned, it is evident that the job entails, on the whole, high
psychological demands while being subjected to a considerable degree of external control.
This feeling of lack of personal influence that ATCs often complain of can be a powerful stressor, also
taking into account that the job requires high levels of responsibility.
However, both "demand" and "control", as well as "social support", can vary widely
according to several factors dealing with different working situations, e.g. work environment,
equipment, work planning and procedures, workload distribution, team composition, working hours, rest
pauses, shift schedules and human relations.7
Furthermore, the consequences on an ATC's performance and well-being may differ widely
among individuals in relation to many factors dealing with age, life styles, life events, work experience,
personality traits (introversion, anxiety, type A), behavioural characteristics (mood, sleeping habits,
morningness), attitudes, motivation, and physical and mental health. Moreover,many other factors
related to social conditions can play an important role in this respect, e.g. socio-economic status,
housing conditions, commuting, family attitudes, social support and integration. 8
Therefore, all these aspects can have more or less influence on an ATC's job satisfaction, health
and well-being according to different circumstances (Figure 1). They can interact and interfere with
each other, giving rise to not only possible additive or multiplicative, but also subtractive effects, so that
7 V.D. Hopkin: "The measurement of the air traffic controller", in Human Factors, Vol. 22, No. 5, 1980, pp. 547-560; C.E. Melton, R.C. Smith and J.M. McKenzie: "Stress in air traffic personnel: Low density towers and flightservice stations", in Aviation, Space and Environment Medicine, Vol. 49, No. 10, 1978, pp. 724-728; andR.B. Stammers: "Human factors in airfield air traffic control", in Ergonomics, Vol. 21, No. 6, 1978, pp. 483-488.8 M.W. Hurst and R.M. Rose: "Objective workload and behavioural response in airport radar control rooms",in Ergonomics, Vol. 21, No. 7, 1978, pp. 559-565; J.W.H. Kalsbeek: Some aspects of stress measurements in airtraffic control officers at Schipol Airport, working paper presented to the Symposium on Stresses of the Air TrafficControl Officers, University of Manchester, Department of Postgraduate Medical Studies, 1976, pp.39-42; S. Karson:"Some relations between personality factors and job performance rating in radar controllers", in Aerospace Medicine,Vol. 40, 1969, pp. 823-826; and J.H. Crump: "Review of stress in air traffic control: Its measurement and effects",in Aviation, Space and Environment Medicine, Vol. 50, No. 3, 1979, pp. 243-248.
42
it is often very difficult to evaluate and compare the effective stress and strain in different groups and
individuals. This is the reason why many studies on the stress of air traffic controllers reported
apparently contradictory findings.
43
44
Figure 1. Main consequences of stress for air traffic controllers
SOURCES OF STRESS
Work demands Operating procedures
Working times Working tools
Work environment
Work organization SHORT-TERM
EFFECTS ON:
Brain and cardiac activity
Hormonal excretion
Performance efficiency
Mental processes Operative
behaviour
LONG-TERM EFFECTS ON
HEALTH:
Hypertension Ischaemic heart disease
Diabetes Peptic ulcers
Psychoneurotic disorders
INFLUENCED
BY:
Personality traits
Skill Aptitude
Motivation Experience
Operating behaviour
Coping strategies
Social support
With regard to the short-term effects, an ATC's responses can be documented in terms of
changes in hormonal secretion (e.g. adrenaline, non-adrenaline, cortisol), heart rate, blood pressure,
muscular activity, cerebral waves, work performance (errors) and behaviour (sleeping, smoking, eating
and drinking habits). These can indicate a normal, physiological adaptation of the individual to external
stimulation, as well as an excessive strain due to an imbalance between demands and resources.
Most research indicates that these responses are in some way related to the workload, which can
be evaluated in terms of the number of aircraft under control or expected to come under control, peak
traffic counts, duration and type of communications, tight work schedules, and number and complexity
of problems to be solved. However, big differences among air control centres can be recorded, mainly in
relation to air traffic density.
On the other hand, they appear to be greatly influenced by subjective factors, such as personality
traits (anxiety, introversion), aptitude, skill, ability, motivation, experience and operating
behaviour. 9
In the long term, some studies indicate that this demanding occupational activity may be a risk
factor for stress-related symptoms, such as headaches, chronic fatigue, heartburn, indigestion and
chest pain, as well as for serious illnesses, such as hypertension, coronary heart disease, diabetes, peptic
ulcers and psychoneurotic disorders.10
It is quite easy to foresee the high costs from both the existential and the economic point of view
that these negative consequences of stress can have, not only for the single person, but also for
companies and society.
9 Karson, op. cit.; R.C. Smith: "Comparison of the job attitudes of personnel in three air traffic control specialties",Aerospace Medicine, Vol. 44, 1973, pp. 918-927; G. Costa: "Evaluation of work load in a group of air trafficcontrollers", in Ergonomics, Vol. 36, No. 9, 1993, pp. 1111-1120.10 C.F. Booze: The morbidity experience of air traffic control personnel, Federal Aviation Administration ReportNo. FAA-AM-78-21 (Washington, 1978); S. Cobb and R.M. Rose: "Hypertension, peptic ulcer and diabetes in airtraffic controllers", in Journal of the American Medical Association, No. 224, 1973, pp. 489-492; J.D. Dougherty,D.K. Trites and J.R. Dille: "Self-reported stress-related symptoms among air traffic control specialists (ATCS) andnon-ACTS personnel", in Aerospace Medicine, Vol. 36, 1965, pp. 956-960; M.G.P. Fisher: Stress and illness inair traffic controllers, Report to the Committee on Regulation of Air Traffic Controllers’ Hours (London, CivilAviation Authority, 1989); R.M. Rose, C.D. Jenkins and M.W. Hurst: Air traffic controller health change study,Federal Aviation Administration Report No. FAA-AM-78-39 (Washington, 1978); and M. Singal, M.J. Smith, J.J.Hurell, J. Bender, R.S. Kramkowski and S.A. Salisbury: Hazard evaluation and technical assistance report: O’HareInternational Airport, National Institute for Occupational Safety and Health Report No. TA 77-67 (Cincinnati, 1977).
45
Therefore, prevention and control of stress becomes a compulsory target for employees, in order
to safeguard their physical, mental and social health; for companies, in order to improve the efficiency
and reliability of the service; as well as for society as a whole, in order to guarantee the highest levels of
safety and comfort for all included and affected by this very important work activity.
2. How to prevent stress at work
An effective strategy aimed at reducing stress should address both the causes and the
consequences of stress, thus acting upon all factors involved concerning work organization, as well as
the personal resources and social conditions of the controllers.
The possibility of making changes and improvements in job demands is determined mainly by
technical factors related to the development of scientific knowledge with regard to air flight and control
systems. Implementing new methods of automation in air traffic control activities, for example, could
profoundly change job demands and characteristics. One result of such changes could be a modification
in conditions which are known to cause stress.
On the other hand, specific arrangements of work organization and careful attention to the
psycho-physiological conditions of ATCs are just as important tools capable of reducing stress and
improving the comfort and well-being of operators.
In order to have an understanding of the possible practical interventions for stress
prevention and attenuation, we can refer to the model of the stress development process reported in
Figure 2.11
11 R. Karasek: "Stress prevention through work reorganization: A summary of 19 international case studies", inILO: Conditions of Work Digest Preventing stress at work, Vol. 11, No. 2, 1992, pp. 23-41.
46
With respect to the particular aspects of an ATC's job, we will examine the possibilities at the
different levels according to the following scheme, also giving some examples of programmes or
interventions carried out by some ATC companies, agencies or institutions.
Intervention on the external socio-economic environment
Legislation, international and national directives Social support
Intervention on technology and work organization
Improving job planning and reliability of the work systems Reduction of working times and arrangement of working teams and
rest pauses in relation to the workloadArrangement of shift schedules according to psycho-physiological
and social criteria Participation in decision making
Intervention in working place and task structure
Improving the work environment Lighting Noise Microclimatic conditions and indoor air quality
Arranging workplaces according to ergonomic criteria Workstation design Working with visual displays units Sitting postures
Intervention to improve individual responses and behaviour
Individual ways of coping with stress Selection and training Counselling and other supporting measures at company level
Specific intervention for health protection and promotion
Appropriate medical surveillance
3. Intervention on the external socio-economic environment
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3.1 Legislation, international and national directives
The Air Navigation Commission of the International Civil Aviation Organization (ICAO) has
formulated the following objective for the task: "To improve safety in aviation by making States more
aware and responsive to the importance of human factors in civil aviation operations through the
provision of practical human factors material and measures developed on the basis of experience in
States".
It is, therefore, necessary that states, organizations, companies and agencies involved in air
traffic control make constant efforts for a more and more widespread exchange of know-how, expertise
and guidelines to make possible a standardization and an effective integration of information
services, flight data and air traffic management.
This is the main goal of the ICAO project on the Future Air Navigation System (FANS), that
deals with a combination of satellite technology and the best of line-of-sight systems to provide an air
navigational system which will overcome many of today's deficiencies on a global scale.
In Western Europe, for example, air traffic control is managed by 22 independent systems run
autonomously by governments and agencies on a national basis. The EUROCONTROL International
Convention defines, among the most prominent tasks, those concerning the promotion of common
policies for ground and airborne navigational systems, and training of air traffic services staff.
In this perspective, the European ATC Harmonization and Implementation Programme
(EATCHIP) is an important tool aimed at properly harmonizing the traffic services among
member States in terms of airspace management, working rules and operational procedures, systems
and human resources.
In the United States, the Federal Aviation Administration (FAA) has developed — with the
collaboration of NASA and the Department of Defense — a national plan for integration, coordination
and research in the area of human factors support, also providing a relational database system
48
concerning the impact of automation, human performance, selection, training and safety monitoring of
ATC activities.
3.2 Social support
Social support is a crucial point in stress management. According to the Karasek and Johnson
model, this is one of the three factors that concur in determining stress conditions.
It can be seen in two main aspects:
the availability of social services aimed at satisfying ATCs' needs. They concern,
for example, transport facilities for reducing commuting times, canteen and sleep
facilities, and housing conditions;
the recognition at a social level of the importance of ATCs' activities and,
consequently, its appreciation by the general population.
ATCs complain that the general public do not fully understand the complexity and
importance of their job, which is often considered "second class".
Michel,12 after an enquiry on job satisfaction within a group of Swiss controllers, pointed out that
"the controllers' descriptions of their own profession are veryemphatic: ultra specialized, honourable,
indispensable, irreplaceable, unique ... There is a shortage of descriptions to prove that this profession is
unlike the others, and that it is one to be carried out with pride. This internal acknowledgement makes
up for a lack of external image: the profession is little known among the general public, and is even
often blamed for causing continuous traffic delays. The self- assessment is therefore indispensable for
maintaining the will to work, and to work well".
This is probably determined by a scarcity of information and, therefore, the ATC
companies should increase their activities in the field of public relations in order to give people adequate
information about the ATCs' activities and, more generally, about the complexity of such activities, so
that people can better appreciate the ATCs' job and role in modern society.
12 S. Michel: "The impact of ICWS on the ‘job satisfaction’ of controllers", in SWISSCONTROL, November 1993.
49
4.1 Improving job planing and reliability of the work systems
The passage from the old procedural methods to modern assistance, under total radar coverage of
air space, is the main factor which enables a "jump in quality", not only in terms of work efficiency,
but also in terms of stress levels, by reducing cognitive, memory and communicative loads as
well as uncertainty and unforeseeability of the situations (that are, in most cases, the main sources of
strain).
The further technological passage to operating under "multi-radar" assistance permits a further
increase in levels of reliability and safety as well as a decrease in stress levels.
The improvement in coordinating the information flow among the centres in order to assure an
increasingly safe, regular and expeditious air traffic flow is the other milestone which allows ATCs to
operate safely and quietly.
This is made possible bymodernizing the telecommunication and radio assistance systems and
improving the efficiency and reliability of equipment, as well as by the progressive automation
of the aeronautical information service, flight data processing and air traffic management.
These improvements allow for better planning of air traffic and, consequently, a more balanced
workload among centres, sectors and individual ATCs. These improvements may also subsequently
reduce the possibility or the seriousness of many unforeseen situations, by allowing for more reliable
information and more time for solving problems and making decisions, while eliminating many stressful
and risky traffic peaks.
It is clear that the introduction of advanced automated systems in air traffic control
activities can profoundly change job demands and content; therefore, it has to be carried out very
carefully.13
13 J.A. Wise, V.D. Hopkin and M.L. Smith (eds.): Automation and systems issues in air traffic control, NATOASI Series, Vol. F73 (Berlin, Springer-Verlag, 1991).
50
4. Intervention on technology and work organization
The goal of progressive automation is to maximize system safety and efficiency by
reducing human workload and error. However, it can also increase some problems related to both
cognitive processes and operative procedures. There is a justifiable concern for increased human
boredom, decreased motivation, loss of situational awareness, over-reliance on and misuse of automated
systems, and deterioration of skill.
Michel, after discussing with a group of Swiss controllers the impact that the new
automated workstations may have on motivation and job satisfaction, pointed out some problems and
the related risks that can arise.
Regarding information processing, it has to be taken into account that the cognitive
competence of controllers consists of simultaneously mastering part of the procedure by
application and/or adaptation type. For the moment, it is the controllers themselves who "decide" about
this division according to their personality and cognitive structure. With automated workstations,
this division will be taken over by the machine, and the controller will then only need to apply or adapt.
Some may suffer from
this and gain the impression that they can no longer pursue their own logic independently, that they are
losing landmarks in their reasoning and that they can no longer think in a reliable manner
Automated systems are now able to provide aids for preventing conflicts. They will
provide a "pre-processing" of situations of potential conflicts by showing the areas in which they exist
(identification), the degree of urgency (classification) and even the type of solutions that can be
considered. This processing carried out by the machine greatly diminishes the individual's decision
power. This is certainly indispensable and unavoidable in terms of the reliability of the system, but it is
also risky, having a notable effect on decision making. Indeed, what is the limit beyond which the
controller will have the impression that his powers of decision are being "stolen" from him? How
far can one go in letting him control the process of deciding and not simply "speaking the right
information into the microphone"? The answer to the question is not an easy one, since it is difficult to
find the balance between the stress alleviation by increasing the security of the an/machine system, and
the reduced involvement which reduces security through a drop of vigilance.
51
Another example in this field comes from the utilization of the automated Traffic Alert and
Collision Avoidance System (TCAS). The level of acceptance of TCAS, after more than 20 million
hours of operation worldwide, has been clearly divided between pilots and controllers. From the line
pilot's perspective, TCAS provides an "extra set of eyes in the cockpit" and increases overall
situational awareness, especially in terminal area airspace. Overall, TCAS has been highly regarded by
the pilot community, despite the operational shortcomings that have been identified during the TCAS
Transition Programme in the United States.
Air traffic controllers, however, have complained about TCAS operation because of its
incompatibilities with existing ATC procedures alerts, and that aircraft are leaving assigned
clearances without ATC authorization and knowledge. These deviations are disruptive to a
controller's plans, they increase workload and are often the cause of a great deal of unnecessary anxiety
on the part of the ATCs involved.
4.2 Reduction of working times and arrangement of working teams and rest pauses in relation to
the workload
The mental effort, required to maintain the highest level of attention and vigilance, as well as to
safely and effectively face the task in terms of cognitive and memory load, can vary widely in relation to
air traffic density and connected problems.
Therefore, to guarantee the best level of performance efficiency avoiding excessive mental stress
and fatigue, particular attention has to be paid to arranging duty periods.
In relation to the peculiarity of the job and the characteristics of the demands, it is worth
stressing that one of the most important aspects in this domain is flexibility, which should be used
should be used in scheduling duty periods and arranging working teams and sectors according to the air
traffic density.
For example, the Committee on the Regulation of Air Traffic Controllers' Hours in the United
Kingdom, after a wide survey on workloads, hours of duty, sleep, performance and fatigue, concluded
52
that the regulation of working hours should be aimed at ensuring, as far as reasonably possible, that
controllers' fatigue does not endanger aircraft, and thereby to assist controllers in providing a service
safely and effectively.
(a) Duty periods:
the length of the duty period should not exceed ten hours (extendable to 12 hours in special
circumstances), and should be adjusted according to the workload;
an interval of no less than 12 hours should be scheduled between the conclusion of one period of
duty and the commencement of the next period of duty;
within a 30-day cycle (720 consecutive hours), the aggregate of periods of duty should not
exceed 200 hours, and not fewer than three intervals of a minimum of 60 hours each should be
allowed between the conclusion of one period of duty and the commencement of the next period
of duty;
consecutive periods of duty should not exceed 50 hours in a seven-day cycle. After that, an
interval of a minimum of 60 hours should be allowed before the commencement of the next
period of duty;
overtime should be an exception.
(b) Breaks during operational duty:
no operational duty shall exceed a period of two hours without there being taken, during or at the
end of that period, a break or breaks totalling no less than 30 minutes;
during periods of high traffic density, the possibility of having more frequent short breaks (ten
minutes) should be provided;
a sufficiently long break for meals should be allowed, providing adequate canteen facilities to
assure hot and good quality meals.
(c) Holidays:
during any consecutive period of 365 days, no fewer than ten days of total holiday
53
entitlement shall be taken in periods of no less than five consecutive days.
4.3 Arrangement of shift schedules according to psycho-physiological
and social criteria
Shift work, in particular night work, is a further stress factor for the ATCs due to its
negative effects on various aspects of their lives, in particular as concerns:
disturbances of the normal biological rhythms, beginning with the sleep/wake cycle;
changes in work performance and efficiency over the 24-hour period, with consequent errors and
accidents as potential outcomes;
negative effects on health and well-being, including troubles with the digestive function
(disturbances of appetite, gastro duodenitis, colitis, peptic ulcers), nervous system (sleep deficit,
anxiety, depression) and cardiovascular systems (ischemic heart diseases);
social problems, resulting from difficulties in maintaining the usual relationships both at the
family and social levels, with consequent negative influences on marital relations, children's
education and social contacts.
Recent studies and research have resulted in some recommendations for the design of shift- work
systems aimed at avoiding or reducing dangerous effects on health, well-being and efficiency of
shiftworkers.14 They can be summarized in the following points:
1. Adopting a rapidly-rotating shift system, changing work shifts every one or two days instead of
every week (or longer), in order to cause less disturbance to the normal circadian rhythm
of body functions, including performance.
2. Reducing the number of consecutive night shifts as much as possible (one or two at most), and
having a day's rest after the night-shift period. This prevents accumulation of sleep deficit and
14 A. Wedderburn: Guidelines for shiftworkers, Bulletin of European Shiftwork Topics (BEST) No. 3 (Dublin,European Foundation for the Improvement of Living and Working Conditions, 1991); and P. Knauth: "The designof shift systems", in Ergonomics, Vol. 36, Nos. 1/3, 1993, pp. 15-28.
54
fatigue, and allows a quicker recovery.
3. Delaying the beginning of the morning shift (e.g. at 07:00 or later) to allow a normal amount of
sleep and to ensure the "REM sleep".
4. Preferring the forward rotation (e.g. morning-afternoon-night) to the backward one (e.g.
afternoon-morning-night) to allow a longer period of rest between shifts. The forward rotation
also parallels the "natural" tendency of body functions to lengthen the circadian rhythm over 24
hours when in "free-running" conditions (without external synchronizers).
5. Adjusting the length of shifts according to the physical and mental workload: day shifts should
be shorter, whereas night shifts could be longer if the workload is reduced and there are sleeping
facilities.
6. Giving the possibilityof a short sleep or naps during the night shift, arranging proper sleep
facilities. This has been found to have favourable effects on performance, physiological
adjustment and tolerance of night work.
7. Keeping the shift rotation as regular as possible, so that the shift cycle will not be too long and
will include some free weekends. This allows a better organization of personal, family and social
life.
8. Arranging a sufficiently long pause (45 to 60 minutes) for meals during the work shift, and
providing hot meals.
Individuals should also adopt some personal strategies, in particular as concerns their sleeping and
eating habits, such as:
1. Keeping to a tight sleeping schedule while on shift and night work and, as much as
possible, avoiding disturbances (e.g. arranging the bedroom so that it is as silent and dark as
possible; using ear plugs; making some arrangements with family members and
neighbours).
2. Avoiding the use of sleeping pills, save in exceptional cases, and only under medical control.
3. Trying to adhere to the usual meal times, which can act as a good synchronizer of body
functions.
4. Eating light meals no later than two hours before going to sleep; avoiding caffeinated drinks and
alcohol; relaxing before going to sleep (light exercise, reading, watching television,
55
listening to music).
5. During the night shift, having the main meal preferably before 01:00; thereafter,
consuming only light snacks with a high carbohydrate level and soft drinks (fruit juices, milk).
According to these guidelines, the Italian ATC company, ANAV, has adopted for many years a
fast-rotating shift schedule on a six-day cycle, as follows: first day: afternoon (13:00- 20:00); second
day: morning (07:00-13:00); third day: night (20:00-07:00); fourth day: rest after the end of the night
shift; fifth day: off; sixth day: off.
The length of the work shifts is inversely associated with the traffic load, the morning and
afternoon shifts being shortened to seven hours, in relation to higher air traffic loads, and the night shift
being longer (11 hours) in relation to lower air traffic loads. Moreover, during the night shift, controllers
are allowed to have long rest pauses alternatively, during which they can take naps in properly arranged
rooms.
This has been found to be very helpful in overcoming sleepiness and maintaining alertness and
performance efficiency. In fact, in a study concerning their psycho-physical reactions, the examined
controllers were shown to be maintaining a normal circadian synchronization of body rhythms, and high
levels of awakeness and alertness (documented by mood and physical fitness rating scales, as well as by
tests of performance and hormonal excretion) also during the night, in spite of the external
understimulation. 15
Furthermore, the Committee on the Regulation of Air Traffic Controllers' Hours in the United
Kingdom, has recently proposed that:
no more than two night shifts may be worked in immediate succession;
upon the conclusion of two night shifts in immediate succession, there shall be an interval of a
minimum of 54 hours before the commencement of the next period of duty;
delaying shift systems should be preferred to advancing systems.
4.4 Participation in decision making
15 Costa, 1993, op. cit.
56
Participation of the controllers in decision making appears to be necessary to increase perceived
influence, motivation, job satisfaction and performance efficiency, as well as to decrease stress and
relative negative consequences, not onlyfor the individual, but also for the organization (role conflicts
and role ambiguity, job-related communications, exasperated criticisms, strikes, etc.).
This aspect is becoming more and more important as long as automated and expert systems are
being introduced. The effect of automation can be very complex: some tasks are eliminated, others
modified, and still others created. The adaptation of the controllers to such changes depends greatly on
their involvement in the process, particularlyas concerns the man-machine cooperation and the
utilization of skill and creativity in an apparently more normal and passive role, that otherwise can give
rise to frustration and alienation.
Increased participation in decision making is one of the four main suggestions given by Farmer
after a survey on British ATCs.16 Responses to job satisfaction items indicated that, although the
controllers were satisfied with the intrinsic content of their work, they were rather dissatisfied with other
aspects of the job, such as organizational design and structure, the value placed upon their efforts,
internal processes within the organization, and personal relationships. The focus of such responses,
together with numerous criticisms of management styles, suggest that more attempts should be made to
foster more "democratic" decision making.
5. Intervention in working place and task structure
5.1 Improving the work environment
Particular attention has to be given to ensuring that environmental conditions in the control
centres are suitable and comfortable as concerns, in particular, lighting, noise and microclimatic
conditions.
5.1.1 Lighting
Taking into consideration that the ATC's task is performed almost exclusively in front of a visual
16 Farmer et al., op. cit.
57
display unit, particular attention should be paid to providing lighting conditions which favour an optimal
visual performance.
Lighting conditions are completely different inside the regional centres and the towers.
In the radar centres, dim light (under 200 lux) is usually used to favour the visual contrast on the
screen. It has to be considered that the introduction of modern screens are brighter and in colour, allows
an increase of the illumination levels in the control room (up to 500 lux), thus avoiding excessive (and
troublesome) luminance contrasts between central and lateral visual fields, making the environment
more stimulating, thus increasing vigilance and alertness.
The lighting should be indirect, obtained preferably by mixing natural and artificial light directed
onto the ceiling and the walls and thus reflecting into the room. This gives a diffuse lighting in the work
environment without shadows and glare. Each artificial lighting unit should contain two or more phase-
shifted tubes to avoid flickering, which is extremely annoying, causes visual discomfort and makes the
reading of the different traces on the screen more difficult.
Inside the towers, the opposite is the problem. It is necessary to avoid excessive
illumination levels due to external bright light using both anti-reflection glass and curtains; it is also
important to have the possibility of positioning and shielding the visual display units to avoid indirect
glare due to bright reflections on the screen.
5.1.2 Noise
The noise levels recorded inside control rooms are usually under the risk level for loss of
hearing, but can have significant effects in terms of interference with speech communication, the
disturbance of mental concentration and annoyance.
It is worth considering the peculiarity of verbal communication, carried out in a foreign language
for most of the pilots and ATCs, and containing many unfamiliar, technical and cipher words.
The main sources of noise are represented by conversations, manual operations (e.g.
58
manipulations of strip supports) and office machines (printers, telephones, photocopiers, etc.).
Therefore particular attention has to be paid in order to stop background noise from exceeding
45-50 dB byinstalling quieter office machinery, arranging work sectors in order to have better sound
protection from each other, and installing more insulating headsets and more sensitive
microphones.
5.1.2 Microclimatic conditions and indoor air quality
A comfortable working temperature is another important factor supporting the maximum
efficiency of performance. It is well-documented that conditions of thermal discomfort favour loss of
concentration and efficiency of mental tasks with a consequent increase of errors and irritability.
Microclimatic conditions must be maintained within the range of thermal comfort, that is air
temperature between 20 and 24C, humidity between 30 and 70 per cent, and air velocity between 0.05
and 0.5 m/sec.
To ensure these conditions, it is necessary to install adequate air conditioning systems which
must be maintained efficiently to guarantee a good indoor air quality
Indoor air, in fact, can be polluted both from human activities (odours, exhaled carbon dioxide,
smoking) and by environmental contaminants (chemical substances, microbes). Therefore, it must
be periodically changed (at least three times per hour) and purified (passing through adequate filters) in
order to avoid people complaining of symptoms related to the so- called "sick building syndrome"
(lethargy, tiredness, headache, blocked nose, dry eyes, sore throat, wheeziness, cough, general itchiness)
that cannot only disturb work performance, but also cause sickness and absenteeism.
5.2 Arranging workplaces according to ergonomic criteria
5.2.1 Workstation design
Particular attention has to be paid to the configuration of the workstation, in particular as
concerns the console layout in terms of the positioning of radar screens and auxiliary displays, the
59
disposition of commands and controls, and the design of the keyboard and other interfaces.
Further standardization of the panel layout is required. Information and controls must be easy to
understand and input devices easy to operate, according to logical processes of mental reasoning: delays
and errors mayoccur because of confusing, misleading or excessively confusing documentation and
information, poorlylocated knobs and levers, or lack of proper coding causing mismatches and mistakes.
Data displays containing flight information should preferably be located beside the radar screen,
whereas the auxiliary displays showing maps or other complementary information can be placed above
it.
High resolution and multi-colour displays are preferred; keyboards, rolling balls or
joysticks should be movable to accommodate individual preferences; headset jacks must be
positioned on both sides of the table and should not protrude.
It is also important to arrange the layout of the workplace in order to avoid glare caused by
excessive brightness contrasts between different objects and surfaces; it causes discomfort and hampers
the comprehension of the information. The displays should be shaded and the surfaces matte, avoiding
the use of reflective materials and bright colours on table-tops and consoles. The luminance contrast
between the screens and surrounding surfaces (plan-table, console frames, documents, keyboards, strips)
should not exceed the ratio of 1:10.
The most advanced display systems allow for better performance with greater comfort because
of their greater width, more favourable visual contrast, higher reliability, greater possibility of
storing and retrieving information, and a better control layout.
On the other hand, particular attention has to be given to software ergonomics that can offer
great possibilities for improving presentation, comprehension and processing of information. With
regard to this, it has been proved that an appropriate use of colours, symbols, line shaping, windows and
figures facilitates and hastens data recognition and extraction.
However, it is worth mentioning that drastic changes in workstation design and man-machine
60
interfaces, often made possible by technological improvements, should be adopted very carefully, as
they can cause excessive stress and decreased performance due to difficulties in the adaptation of mental
processes and operating procedures.
For example, according to a group of Swiss controllers interviewed by Michel17,the system of
windowing raises the question of what should be on screen permanently and what should not, bearing in
mind that even permanent presence does not mean total security. The excess of information
forces the controller to perform a mental "sort" and he only consults that which he considers useful.
Therefore incidents/accidents are very often due to misrepresentation of what is useful.
With automated workstations, the controllers have less to do with telephoning, listening and
passing on information. These interpersonal communications can have an influence on the method of
work and the search for solutions. Reduction of verbal and non-verbal communication might lead to a
feeling of isolation and a poorer internal atmosphere; therefore, greater emphasis should be placed on
the development of adequate levels of communication.
The abolition of paper strips should also be carefully considered. For most controllers, they
fulfill a structuring role at a cognitive level and, in addition, they play an extremely important
psychological role of reassurance (particularly in case of unforeseen breakdowns). There is
nothing to prove that these psychological functions will be fulfilled by electronic strips, even though the
technical functions will certainly be perfectly assured.
On the other hand, the four ODID (Operational Display and Input Development)
simulation projects, carried out in the last seven years by EUROCONTROL, have pointed out some
very interesting developments in the use of new technologies in human-computer interface. The
successive steps looked at the use of colour electronic data displays (ODID I and II), the use of the
mouse in combinations of graphic displays (ODID III), and the replacement of the strips and radar
displays with a composite picture of graphic images and on-screen input mechanism (ODID IV). The
latter is programmed to present the controller with the most likely input order as a default value so that,
in most cases, it is sufficient to point at a data field and press the mouse button to insert the data and
17 Michel, op. cit.
61
the controller's intentions into the system. The input system is intuitive and logical, which makes it
easy to use, easy to learn, and faster than the voice command over radio or telephone. Although the
paper strips are replaced by an electronic display of data, the system has carefully maintained the
working methods currently practised by controllers. An analysis of controller needs has led to a display
system with which the controller will carry out his work in a similar manner as today. A Medium Term
Conflict Assistance (MTCA) function has also been developed, which scans all flights for the controller
and presents the results of this conflict detection for his inspection and action.
5.2.2 Working with visual display units
The interaction between the ATC and a visual display terminal are mainly characterized in terms
of data acquisition and interactive communication. The ATC has a continuous dialogue with the radar-
computer system by calling up information, scanning traces, inputting, reading and deleting data. The
controller concentrates mainly on the radar screen and periodically glances at the side displays and
keyboard.
The radar screen should be placed in the centre of the visual field and should be adjustable in
height, distance and angle to give the operator the possibility of arranging the best working position in
order to avoid, on the one hand, prolonged contraction of the neck muscles and, on the other hand, an
excessive effort of visual adjustment with consequent visual discomfort and fatigue. Therefore, it is
recommended that the screen be placed within a viewing angle of 5° above and 30° below the horizontal
plane of sight, and that the eye-screen distance is between 50 and 70 cm to facilitate visual adjustment.
To give the operator the possibility of coming closer to the screen in order to focus better on
traces in moments requiring particular attention, it is necessary that the table-top be not overly large but,
at the same time, able to support the arms without interference with the keyboard.
5.2.3 Sitting postures
The ATC usually remains seated in front of the console, changing position slightly
according to the working conditions. The ATC normally sits in the middle of or forward on the chair
with his or her arms on the table-top when he or she is actively operating and needs precise control of
the radar screen, and leaning on the backrest when he or she is on stand-by.
62
A prolonged, constrained sitting posture causes musculo-skeletal discomfort and pain,
particularly at the level of the neck, the shoulders and the lumbar tract.
In order to avoid or alleviate such disturbances, it is important to use suitable chairs which allow
a comfortable sitting posture while working, as well as useful muscle relaxation while on stand-by or
resting in front of the screen.
A good chair should be designed for a forward and reclining sitting posture, adjustable in height
and angle, rotating on a five-legged base. It should also have user-friendly controls, have wide arms and
a high backrest, a pad for lumbar support and a head-rest. The seat should be made of a sufficiently
resistant padding of foam rubber covered with non-slip and permeable material, and it should also have
a slight hollow and a rounded front edge turned upwards about 4 to 6 degrees above the horizontal
plane.
The break periods between operational duty should also be used as "postural pauses", the
controller should stand and walk around, stretching his body.
Moreover, a programme for improving physical fitness should be planned, aimed at preventing
lower-back pain by providing gymnasiums to be used by the ATCs during their relief periods. There
should also be technical guidance aimed at showing the most appropriate exercises that should be done
for the most effective "postural pause".
6. Intervention to improve individual responses and behaviour
6.1 Individual ways of coping with stress
Managing stress properly also requires that the individual learn how to cope effectively
in terms of personal lifestyles and behaviours.18
18 J.M. Atkinson: "Analysis of mental processes involved in air traffic control", in Ergonomics, Vol. 14, 1988,pp. 565-570; C.L. Cooper, R.D. Cooper and L.H. Eaker: Living with stress (Harmondsworth, Penguin, 1988).
63
A. First of all, people should avoid ineffective ways of coping, which can have an apparent short
term positive effect but, in the long run, can cause further problems in health and well-being. We
refer, in particular, to smoking, alcohol drinking and drug consumption.
Increasing smoking (for smokers) and/or alcohol intake is sometimes seen as a way of obtaining
a sense of relief and calmness. Of course, apart from short-term relief, there are many adverse effects
both on performance efficiency, due to interference with the upper nervous system activities, and on
health, due to increased risk of lung tumours and chronic bronchitis from smoking, and of stomach
and liver diseases from alcohol.
For example, in the study of Farmer among 618 British ATCs,19 "the average level of alcohol
consumption was related primarily to personality: those who drank more were likely to be extroverts,
tough-minded, and relatively unambitious, and to have low behavioural control". The association
between this last personality variable and drinking was mediated by use of alcohol to cope with the
pressures of the job.
The consumption of drugs (e.g. stimulants, tranquillizers or anti-depressants) can have a positive
effect only if they are used — under medical supervision and attention is paid to their negative effects
on vigilance and performance! — as auxiliary and temporary support for the organization of effective
strategies aimed at removing the causes of stress. In any other case, they become a dangerous masking
factor of the stress condition that is more likely to become chronic and cause dangerous drug
dependence and addiction.
For example, as far as the delicate problem of alcohol and drug abuse is concerned, the Canada
Air Traffic Control Association, jointly with Air Traffic Services and Civil Aviation Medicine, has
developed a programme called Working Together, aimed at (a) helping controllers who have a chemical
dependency (alcohol or drug) problem get back to work earlier after initial treatment; and (b)
increasing awareness of existing resources for the prevention, early identification, assessment and
rehabilitation of chemical dependency problems.
Also, Transport Canada personnel licensing medical standards normally require a two-year
waiting period before the return of a License Validation Certificate after loss due to alcohol or drug
19 Farmer et al., op. cit.
64
dependency problems. The programme facilitates a much earlier reinstatement of the license by
providing a structured rehabilitation framework that includes a peer support network. It also encourages
controllers to seek help early before their license is potentially affected.
It features a voluntary follow-up support programme. Controllers with a chemical
dependency problem who wish to participate agree both to enter into a compliance agreement, which
sets out the relicensing requirements of Civil Aviation Medicine and to enlist the help of a follow-up
support team. This team, chosen by the recovering individual, consists of a physician and one, or
preferably two, other trained support team members (controller and/or manager). Team members are
knowledgeable in the area of chemical dependency. They are selected from a roster and trained for
their role within the follow-up support process. Each support team member
understands the nature of a chemical dependency problem and is supportive during the
rehabilitation process.
Each follow-up support team member, who is personally selected by the individual, is required
to keep all information regarding the participant's follow-up programme confidential, except in two
specific instances: (1) the physician member of the support team is required to submit confidential
periodic reports regarding the participant's progress to the regional aviation medical officer to facilitate
LVC reinstatement and to assess continuing medical fitness for ATC licensing; and (2) only with prior
written consent provided by the participant will information be shared with specific people
considered mutually essential and directly involved in the
participant's recovery.
Furthermore, controllers concerned about potential personal problems related to chemical
dependencyhave access to CATCA Controller Advisors, ATCIH Health and Lifestyle Consultants and
Physicians, plus Transport Canada Regional Counsellors for information relating to chemical
dependency prevention and rehabilitation; assistance in seeking referrals for assessment,
counselling and treatment; and advice on other related issues.
B. Secondly, maintaining good physical fitness and emotionally stable psychic conditions are
65
the best aids in fighting and overcoming stress.
To stay in satisfactory condition, people should pay particular attention to physical
exercise, eating habits, sleeping patterns, relaxation techniques and leisure activities.
There is no doubt that physical exercise, if carried out regularly and in a non-competitive way, is
beneficial for all the body functions improving both physical and psychological well-being.
However, particular attention should be given by the controllers to secondary occupations and/or
sport activities which could hamper proper relaxation or adequate sleep, thus leading to greater tiredness
or reduced alertness while on duty.
Proper eating habits are also important in keeping the person fit. A balanced diet, having light
and easily digested meals before and during work, can support work performance during duty periods,
avoiding drops in mental efficiency and drowsiness that generally occur after heavy meals. A diet with a
low-fat content and the right amount of calories, aimed at maintaining an ideal body weight, also has a
strong influence in preventing degenerative processes for chronic digestive and cardiovascular diseases,
for which both stress and obesity are important risk factors.
Preserving sleep both in terms of quantity (for recovering from physical fatigue) and quality (for
psychic well-being), is a very important anti-stress measure. Sleeping troubles, in fact, can be an early
symptom of stress, but can make the person more vulnerable to stress as well. Should these troubles
arise, the person should not use sleeping tablets (or only as a last resort), but try behavioural methods,
such as taking more exercise to become more tired before going to bed; adopting stricter times for going
to bed and getting up; avoiding eating before going to bed; having a light dinner with a prevalent content
of carbohydrates rather than proteins; not taking stimulants, such as alcoholic beverages, tea, coffee and
soft drinks containing caffeine; having
a warm bath before going to bed; arranging a comfortable bedroom protected from disturbing noises;
listening to relaxing music or reading before sleeping.
Relaxation techniques are becoming more and more popular among people who feel to be under
stress. Massage, yoga, meditation and autogenous training are all useful exercises which help to control
66
restlessness, anxiety, muscular tension, inability to concentrate, insomnia and other symptoms of stress.
Leisure time activities may help fight stress provided that they have a recreative aim and are not
taken too seriously, in order to avoid them becoming another stressor. Depending on personality
characteristics, some people prefer individual activities (such as fishing, painting, listening to music,
reading and do-it-yourself); others need group activities (such as team games and social groups).
Educational activities concerning all these important aspects are provided by many ATC
companies. They are carried out by means of printed materials (newsletters, brochures, posters) as well
as by seminars and periodic meetings. Lifestyle consultants work with employees and managers to help
them become aware of lifestyle practices that promote physical and mental health by providing lifestyle
assessment and programming, such as good nutrition, physical fitness, relaxation, medication and
prevention of illnesses.
6.2 Selection and training
Improvements in selection procedures are desirable.
The Swedish Civil Aviation Administration, in close cooperation with Uppsala University,
implemented an integrated training programme in 1974 that lead to positive results by reducing the
average failure rate of applicants by almost 20 per cent (it passed from 54 per cent during the 1970s to
66 per cent during the 1980s and to 74 per cent during the 1990s). The expert group reported that an
important prerequisite for a successful training result is an efficient selection procedure based on a well
thought-out chain, consisting of an information-introduction-skill test, assessing in substance the most
important groups of the key behaviours derived from a work analysis based on the critical incident
technique, such as decision making in a dynamic process; self-confidence; information gathering and
processing; social relations; and communication. Moreover, it became clear that efforts have to be
made in order to continually pin-point key behaviours in changing technology. In fact, if a new
technology or system is to be introduced, it is important and fundamental to be assured that operators
accept the new technique and that the new technique will create opportunities for them to improve their
performance. They must also be informed in advance of how to be trained to achieve this new
standard of performance. Furthermore, the results of trying to apply modern training techniques, for
67
example programmed skill-training and to teaching the instructor to become a mentor and a coach, is
now believed to be the most promising measure taken to improve the outcome of basic ATC training. 20
Personality variables (e.g. conscientiousness, trait anxiety, neuroticism/emotional stability, type
A, non-assertive behaviour) also play an important role in flight safety and may be associated with many
stress effects. 21
For example, in a large study concerning 1,790 students of the FAA Academy22, it was shown
that the proportion of students who passed at the Academy decreased as a function of increasing levels
of anxiety, and that the proportion of students who either failed or were in the withdrawal/incomplete
category increased as a function of increasing levels of anxiety. On the other hand, a higher proportion
of ATCs with lower anxiety scores were successful in field training compared to the group of trainees
with high anxiety scores.23
Therefore, greater emphasis on these factors during selection and training may increase both the
performance efficiency and the level of resistance to stress of ATCs.
Periods of training are also of crucial importance for the education of ATCs in terms of stress
prevention. An effective training programme aimed at understanding the needs and capacities of
the individual, and balancing individual needs with organizational needs, is able to improve not only
technical learning but also motivation, job satisfaction and human relations.
Training should also aim, in particular, at teaching occupational and specific coping
strategies in order to improve the capacity of event appraisal and problem solving, so that ATCs learn
how to cope with emotional effects of stressful events and improve the capacity of control.
20 The Controller, No. 4, 1993.
21 G. Costa, G. Schallenberg, A. Ferracin and E. Gaffuri: “Psychophysical conditions of air trafficcontrollers evaluated by the Standard Shiftwork Index”, in Work and Stress, 1994.22 W.E. Collins, D.J. Schroeder and L.N. Nye: "Relationships of anxiety scores to screening and training statusof air traffic controllers", in Aviation, Space and Environmental Medicine, March 1991, pp. 236-240.
23 L. Hitchcock: “The FAA approach to human factors”, in H. David (ed.): European Group forHuman Factors in Air Traffic Control, Task AT27, EEC Note 19/92 (Bretigny-sur-Orge,EUROCONTROL, 1992).
68
Air traffic controllers should be trained to develop action-oriented and problem-focused coping
abilities. Positive acceptance and reappraisal of stress situations, active coping, seeking social support
for instrumental and emotional reasons must be strengthened, while inclination towards restraint coping,
behavioural and mental disengagement should be restricted.
An important part of the training should also be devoted to improving interaction between
controllers and pilots, promoting meetings aimed at increasing a mutual understanding of each other's
work tasks, problems and operative behaviours.
Periodical refresher courses on the English language for non-native speaking people are also
important for improving self-confidence and avoiding stressful and risky misunderstandings while
communicating.
6.3 Counselling and other supporting measures at company level
Psychological support and counselling given by psychologists appears to be an important aspect
of the coping strategies that can be activated at company level. This should be carried out periodically
and, in particular, on occasions of high emotional stress and anxiety due to conflicts or errors that can
lead to burn-out.
This should be concerned with improving self-control, developing a more effective
capacity of choosing among alternative modes of action and behaviour, and to gaining more information
about reactions by monitoring self-behaviour, emotions and thoughts.
For example, the Transport Canada Counselling Service has set a specific programme for critical
incident stress management (CISM). It consists of both pre-incident education and post- incident support
services, managed by teams of mental and occupational health professionals.24 It is aimed at
increasing awareness about critical incident stress (CIS) and post-traumatic disorders, teaching
effective techniques for managing and reducing strain, and giving support for a defusing and/or
24 M.G.P. Fisher: Stress and illness in air traffic controllers,Report to theCommittee onRegulationof Air Traffic Controllers’ Hours (London, Civil Aviation Authority, 1989).
69
debriefing process of the event to help alleviate the immediate stress reactions and to promote a quick
return to routine activities.
The "debriefings" are structured group meetings that emphasize educational and
informational elements which are of great assistance for emergency personnel in understanding and
dealing with stress generated by the event. The support process is ideally conducted within 24 to 72
hours25 after the incident and generally lasts two to four hours in length.
The "defusings" are a shortened version of the debriefing. They are usually 20 to 90 minutes
long in an ATC environment. It must be done within eight hours of an incident.
"Follow-up services" are always necessary after a defusing to ensure that the personnel are
adequately managing stress. This may be done in several ways, e.g. by telephone, by direct contact with
the person or, in extreme situations, by providing debriefing to family members as well. The
maintenance of confidentiality is vital to the success of these services.
Their introduction is of paramount importance, considering that approximately 86 per cent of
individuals experiencing CIS will have some cognitive, physical or emotional reaction within 24 hours
after the incident. If unmanaged, 22 per cent will have symptoms six months to one year after the event,
and approximately 4 per cent run the risk of developing post-traumatic stress disorders.
References
H.L. Ammerman , L.J. Bergen, D.K. Davies, C.M. Hostetler, E.E. Inman and G.W. Jones: FAA
air traffic control operations concepts, Vol. VI, ARTCC/HOST En route controllers, report
number DOT/FAA/AP/86-01 (Washington, Federal Aviation Administration, 1987).
J.M.Atkinson: “Analysis ofmental processes involved in air traffic control”, inErgonomics,Vol.
14, 1988, pp. 565-570.
25 International CivilAviationOrganization (ICAO):Manual of civil aviation medicine (Montreal,1985).
70
C.F. Booze: The morbidity experience of air traffic control personnel, Federal Aviation
Administration Report No. FAA-AM-78-21 (Washington, 1978).
Civil Aviation Authority (CAA): Report of the Committee on the regulation of Air Traffic
Controllers’ Hours (Cheltenham, 1990).
S. Cobb and R.M. Rose: “Hypertension, peptic ulcer and diabetes in air traffic controllers”, in
Journal of the American Medical Association, No. 224, 1973, pp. 489-492.
W.E. Collins, D.J. Schroeder and L.N. Nye: “Relationships of anxiety scores to screening and
training status of air traffic controllers”, in Aviation, Space and EnvironmentalMedicine,March
1991, pp. 236-240.
C.L. Cooper, R.D. Cooper and L.H. Eaker: Living with stress (Harmondsworth, Penguin, 1988).
G. Costa: “Shiftwork and circadian variations of vigilance and performance”, in J.A.Wise,V.D.
Hopkin andM.L. Smith (eds.): Automation and systems issues in air traffic control, NATO ASI
Series Vol. F73 (Berlin, Springer-Verlag, 1991), pp 267-280.
G. Costa: “Evaluation of work load in a group of air traffic controllers”, in Ergonomics, Vol. 36,
No. 9, 1993, pp. 1111-1120.
G. Costa, G. Schallenberg, A. Ferracin and E. Gaffuri: “Psychophysical conditions of air traffic
controllers evaluated by the Standard Shiftwork Index”, in Work and Stress, 1994.
J.H. Crump: “Review of stress in air traffic control: Its measurement and effects”, in Aviation,
Space and Environment Medicine, Vol. 50, No. 3, 1979, pp. 243-248.
I.R. de Koning and P.F. Jan: “The 4 States/EUROCONTROL Integration Project”, in
EUROCONTROL CONTEXT, 1989.
J.D. Dougherty, D.K. Trites and J.R. Dille: “Self-reported stress-related symptoms among air
71
traffic control specialists (ATCS) and non-ATCS personnel”, in Aerospace Medicine, Vol. 36, 1965, pp.
956-960.
E.W. Farmer, A.J. Belyavin, A. Berry, A.J. Tattersall and G.R.J. Hockey: Stress in air traffic
control. I: Survey of NATS Controllers, RAF Institute of Aviation Medicine Report No. 689
(Farnborough, 1990).
M.G.P. Fisher: Stress and illness in air traffic controllers,Report to theCommittee onRegulation
of Air Traffic Controllers’ Hours (London, Civil Aviation Authority, 1989).
S. Folkard and T.H. Monk (eds.): Hours of work. Temporal factors in work scheduling
(Chichester, John Wiley, 1985).
L. Hitchcock: “The FAA approach to human factors”, in H. David (ed.): European Group for
Human Factors in Air Traffic Control, Task AT27, EEC Note 19/92 (Bretigny-sur-Orge,
EUROCONTROL, 1992).
V.D. Hopkin: “The measurement of the air traffic controller”, in Human Factors, Vol. 22, No.
5, 1980, pp. 547-560.
M.W. Hurst and R.M. Rose: “Objective workload and behavioural response in airport radar
control rooms”, in Ergonomics, Vol. 21, No. 7, 1978, pp. 559-565.
International CivilAviationOrganization (ICAO):Manual of civil aviationmedicine (Montreal,
1985).
J.V. Johnson and E.M. Hall: “Job strain, work place social support, and cardiovascular disease:
A cross-sectional study of a random sample of the Swedish working population”, in American
Journal of Public Health, Vol. 78, No. 10, 1988, pp. 1336-1342.
J.W.H. Kalsbeek: Some aspects of stress measurements in air traffic control officers at Schipol
Airport, working paper presented to the Symposium on Stresses of the Air Traffic Control
72
Officers,UniversityofManchester,Department of PostgraduateMedical Studies, 1976, pp 39-42.
R. Karasek: “Job demands, job decision latitude, and mental strain”, in Administrative Science
Quarterly, Vol. 24, 1979, pp. 285-308.
R.Karasek: “Stress prevention throughwork reorganization:Asummary of 19 international case
studies”, in ILO: Conditions of Work Digest—Preventing stress at work, Vol. 11, No. 2, 1992,
pp. 23-41.
S. Karson: “Some relations between personality factors and job performance rating in radar
controllers”, in Aerospace Medicine, Vol. 40, 1969, pp. 823-826.
P. Knauth: “The design of shift systems”, in Ergonomics, Vol. 36, Nos. 1/3, 1993, pp. 15-28.
C.E.Melton,R.C. Smith and J.M.McKenzie: “Stress in air traffic personnel: Lowdensity towers
and flight service stations”, inAviation, Space andEnvironmentMedicine,Vol. 49,No. 10, 1978,
pp. 724-728.
S. Michel: “The impact of ICWS on the ‘job satisfaction’ of controllers”, in SWISSCONTROL,
November 1993.
S. Ratcliffe and H. Gent: “The quantitative description of a traffic control process”, in Journal
of Navigation, Vol. 27, 1974, pp. 317-322.
R.M. Rose, C.D. Jenkins and M.W. Hurst: Air traffic controller health change study, Federal
Aviation Administration Report No. FAA-AM-78-39 (Washington, 1978).
M. Singal, M.J. Smith, J.J. Hurrell., J. Bender, R.S. Kramkowski and S.A. Salisbury: Hazard
evaluation and technical assistance report: O’Hare International Airport, National Institute for
Occupational Safety and Health Report No. TA 77-67 (Cincinnati, 1977).
73
R.C. Smith: “Comparison of the job attitudes of personnel in three air traffic control specialties”,
in Aerospace Medicine, Vol. 44, 1973, pp. 918-927.
R.C. Smith: Stress, anxiety and the air traffic control specialist, FederalAviationAdministration
Report No. FAA-AM-80-14 (Washington, 1980).
J.C. Sperandio: “The regulation ofworkingmethods as a function ofwork-load among air traffic
controllers”, in Ergonomics, Vol. 21, No. 3, 1978, pp. 195-202.
R.B. Stammers: “Human factors in airfield air traffic control”, in Ergonomics, Vol. 21, No. 6,
1978, pp. 483-488.
A.Wedderburn:Guidelines for shiftworkers,Bulletin ofEuropean ShiftworkTopics (BEST)No.
3 (Dublin, European Foundation for the Improvement of Living andWorkingConditions, 1991).
J.A. Wise., V.D. Hopkin and M.L. Smith (eds.): Automation and systems issues in air traffic
control, NATO ASI Series Vol. F73 (Berlin, Springer-Verlag, 1991).
74
CHAPTER -3
DATA ANALYSIS
Table 3. 1
Age profile
Category Percentage No. of respondents
20 - 30 30.00% 9
30 - 40 46.67% 14
40 - 50 16.67% 5
75
50 plus 6.67% 2
Total No. of
respondents
100.00% 30
Inference From the above table, it is inferred that out of the respondents of the Trivandrum Air
Traffic Control majority fall in the age category of 30– 40 yrs, with the 20 – 30 yrs category having the
second highest number of respondents
Interpretation The collected data leads to the interpretation that the Air traffic Control comprises of a
young workforce that is expected to show heightened senses as compared to the older category that
operate supervisory roles
Table 3. 2
Gender profile of respondents
No. of respondents Percentage
Male 23 76.67%
Female 7 23.33%
Total no. of respondents 30 100%
76
20 - 30 30 - 40 40 - 50 50 plus0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
30.00%
35.00%
40.00%
45.00%
50.00%
30.00%
46.67%
16.67%
6.67%
Age profile
Age profile
Figure 3. 1
Inference From the above table, it is inferred that out of the respondents of the Trivandrum Air
Traffic Control majority are men (76.67%) with women forming 23.33% of the workforce.
Male76.67%
Female23.33%
Gender Profile of Respondents
MaleFemale
Figure 3. 2
Interpretation From the collected data, it is interpreted that the Air Traffic Control workforce at the
Trivandrum Airport is male dominant in terms of numbers as opposed to the number of female Air
traffic controllers
Table 3. 3
Stress rating at workplace
No. of respondents Percentage
Very low 0 0%
Low 3 10%
Moderate 17 56.67%
High 8 26.67%
77
Very high 2 6.66%
Total no. of respondents 30 100%
Inference From the above table, it is inferred that one-third of the 30 respondents find the
stress at the workplace high or very high, with the majority of 56.67% rating the stress levels to be
moderate
Ver Low Low Moderate High Very High0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00%
0.00%
10.00%
56.67%
26.67%
6.66%
Stress rating at workplace
Stress rating at workplace
Figure 3. 3
Interpretation The job of an Air Traffic Controller at the Trivandrum Airport is a fairly stressful on the
high side, as per the perception of the respondents
Table 3. 4
Effect of stress on performance
Declines 14 46.67%
Unaffected 11 36.67%
Improves 5 16.66%
Total no. of
respondents
30 100%
78
Inference 46.66% of the respondents found the stress to be detrimental to their performance
whereas a minority of 16.66% find it useful to improve performance and 11 respondents who form the
remaining 36.66% find it doesn’t affect their performance.
Declines Unaffected Improves0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
30.00%
35.00%
40.00%
45.00%
50.00% 46.67%
36.67%
16.66%
Effect of stress on performance
Effect of stress on performance
Figure 3. 4
Interpretation From the collected data it can be interpreted that the present stress levels at the
Trivandrum ATC, as perceived by the majority of the respondents are having a negative impact on their
work performance and thereby could possibly be detrimental to the overall performance of the ATC.
Table 3. 5
Number of aircraft under control
Very low 0% 0
Low 0% 0
Moderate 6.67% 2
High 23.33% 7
Very high 70% 21
Total no. of
respondents
100% 30
79
Inference From the above table, it can be inferred that out of the total respondents, 70% experience
very high levels of stress linked to the number of aircrafts they handle at a time
Very low Low Moderate High Very high0%
10%
20%
30%
40%
50%
60%
70%
80%
0% 0%
7%
23%
70%
Number of Aircraft under control
Number of Aircraft under control
Figure 3. 5
Interpretation Having multiple aircrafts under one’s purview demands proportionately higher levels of
response and decisions that inevitably leads to high levels of stress linked with the no. of aircrafts one is
handling.
Table 3. 6
Peak traffic hours
Very low 0% 0
Low 0% 0
Moderate 16.67% 5
High 36.67% 11
Very high 46.66% 14
Total no. of
respondents
100% 30
80
Inference From the above table it can be inferred that the stress arising out of peak traffic hours are
rated to be very high (46.66%) and high (36.67%).
Very low Low Moderate High Very high0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
0% 0%
17%
37%
47%
Peak traffic Hours
Peak traffic Hours
Figure 3. 6
Interpretation A very large portion of the total no of respondents find the stress due to peak traffic hours
cause a huge work load demand and a proportionately high levels of stress
81
Table 3. 7
Extraneous traffic
Very low 0% 0
Low 26.67% 8
Moderate 33.33% 10
High 40% 12
Very high 0% 0
Total no. of
respondents
100% 30
Inference From the above table it can be seen that 33.33% of the respondents find the stress arising
out of extraneous traffic to be moderate while 40% rate it as a source of high stress
Very low Low Moderate High Very high0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
0.00%
26.67%
33.33%
40.00%
0.00%
Extraneous Traffic
Extraneous Traffic
Figure 3. 7
Interpretation Extraneous traffic causes diversion of attention and ultimately tends to distract the
respondents from their task at hand, which is also highly demanding. This undesirable traffic causes
unwanted apprehension and stress.
82
Table 3. 8
Unforeseeable events
Very low 0% 0
Low 0% 0
Moderate 3.33% 1
High 43.33% 13
Very high 53.34% 16
Total no. of
respondents
100% 30
Inference From the collected data it is inferred that 53.34% of the respondents rate the stress due to
unforeseeable events to be very high, while 43.33% rate it as high.
Very low Low Moderate High Very high0%
10%
20%
30%
40%
50%
60%
0% 0%3%
43%
53%
Unforeseeable events
Unforeseeable events
Figure 3. 8
Interpretation A change from routine procedure or plan of action while performing task tends to distress
the respondents of the Trivandrum ATC highly, especially when untoward incidents happen on board/ to
the plane.
83
Table 3. 9
Time pressure
Very low 0% 0
Low 3.33% 1
Moderate 16.67% 5
High 46.67% 14
Very high 33.33% 10
Total no. of
respondents
100% 30
Inference From the above table, it can be inferred that 46.67% of the total respondents rate the
stress due to time pressure to be high, whereas 33.33% rate it as very high.
Very low Low Moderate High Very high0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
0.00%3.33%
16.67%
46.67%
33.33%
Time pressure
Time pressure
Figure 3. 9
Interpretation Having to make split-second decisions and a job that demands attention to multiple
factors at the same time are inevitably a source of stress that places high work load pressure on the
respondents
84
Table 3. 10
Having to bend rules
Very low 3.33% 1
Low 10% 3
Moderate 43.34% 13
High 23.33% 7
Very high 20% 6
Total no. of
respondents
100% 30
Inference It is inferred that 43.34% of the respondents rate the stress due to having to bend the rules
to be moderate. 23.33% are of the opinion that it is a source of high levels of stress
Very low Low Moderate High Very high0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
30.00%
35.00%
40.00%
45.00%
50.00%
3%
10%
43%
23%20%
Having to bend rules
having to bend rules
Figure 3. 10
Interpretation From the collected data it can be interpreted that the fear of being caught on account of
deviating from procedure to make work easy but adding relatively higher element of risk to it, causes
considerable level of stress to the respondents
85
Table 3. 11
Feeling loss of control
Very low 6.67% 2
Low 13.33% 4
Moderate 40% 12
High 23.33% 7
Very high 16.67% 5
Total no. of
respondents
30
Inference Feeling the loss of control during operational procedures was rated as a source of
moderate stress by as high as 40% of the respondents. 23.33% of the respondents claim the stress levels
are high.
Very low Low Moderate High Very high0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
30.00%
35.00%
40.00%
45.00%
6.67%
13.33%
40.00%
23.33%
16.67%
Feeling loss of control
Feeling loss of control
Figure 3. 11
Interpretation A job with high work load demand and levels of responsibility combined with
accountability cause stress to the respondents when they feels that they are losing control over a part or
whole of their work process
86
Table 3. 12
Fear of consequences of errors
Very low 0% 0
Low 6.67% 2
Moderate 13.33% 4
High 23.33% 7
Very high 56.67% 17
Total no. of
respondents
30
Inference From the above table, it can be inferred that 56.67% of the total respondents find the
stress levels due to fear of consequence of errors to be very high, while 23.33% rate it as high.
Very low Low Moderate High Very high0%
10%
20%
30%
40%
50%
60%
0.00%
6.67%
13.33%
23.33%
56.67%
Fear of consequence of errors
Fear of consequence of errors
Figure 3. 12
Interpretation The high levels of risk attached to an aircraft in terms of human life and the monetary
factors cause the air traffic controllers to be extra cautious about not committing any errors that lead to
irreversible disasters, invariably causing the ATC s high levels of stress.
87
Table 3. 13
Limitations and unreliability of equipments
Very low 0% 0
Low 0% 0
Moderate 6.67% 2
High 20% 6
Very high 73.33% 22
Total no. of
respondents
100% 30
Inference It can be inferred from the collected data that 73.33% of the total respondents find the
stress related to the limitations and unreliability of the equipments, to be very high. 20% rate it as a
source of high level of stress.
Very low Low Moderate High Very high0%
10%
20%
30%
40%
50%
60%
70%
80%
0% 0%
7%
20%
73%
limitations and Unreliability of equipments
limitations and Unreliability of equipments
Figure 3. 13
Interpretation An Air Traffic Controller cannot afford to have any weak links in his work process. The
equipments serve as the most vital and relevant link between an ATC and the aircraft’s pilot. Any
degree of unreliability or/and limitations in the equipment thus inevitably causes very high levels of
stress in the respondents.
88
Table 3. 14
VDT, R/T and telephone quality
Very low 3.33% 1
Low 10% 3
Moderate 33.33% 10
High 36.67% 11
Very high 16.67% 5
Total no. of respondents 30
Inference From the above table it can be inferred that 36.67% of the respondents rate the stress
arising out of VDT, R/T and telephone quality to be high as opposed to 33.33% that rate it as moderate
Very low Low Moderate High Very high0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
30.00%
35.00%
40.00%
3%
10%
33%
37%
17%
VDT, R/T and telephone quality
VDT, R/T and telephone quality
Figure 3. 14
Interpretation This leads to the interpretation that having quality VDT, R/T and telephone systems is
highly essential to reduce the stress levels of the respondents as it helps to establish and maintain
communication lines with the aircrafts under control for issuance of appropriate and timely instructions.
89
Table 3. 15
Equipment Layout
Very low 16.67% 5
Low 23.33% 7
Moderate 26.67% 8
High 20% 6
Very high 13.33% 4
Total no. of
respondents
100% 30
Inference It can be inferred from the above table that 26.67% of the total respondents rate the stress
due to the equipment layout to be of moderate levels with 23.33% rating the stress levels to be low
Very low Low Moderate High Very high0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
30.00%
16.67%
23.33%
26.67%
20.00%
13.33%
Equipment Layout
Equipment Layout
Figure 3. 15
90
Interpretation Equipment layout needs to be of a kind that is easily accessible and operatable because of
the time factor that is involved in the job of an ATC. The equipment layout at the ATC of the
Trivandrum Airport happens to be one such layout that doesn’t cause worrying levels of stress to the
majority of the workforce. Information and controls must be easy to understand and input devices easy
to operate, according to logical processes of mental reasoning: delays and errors may occur because of
confusing, misleading or excessively confusing documentation and information, poorly located knobs
and levers, or lack of proper coding causing mismatches and mistakes.
91
Table 3. 16
Working environment factors that cause the most stress
Lighting, optical reflections 10% 3
noise/ distracters 16.67% 2
microclimate 16.67% 5
bad posture 23.33% 7
rest and canteen facilities 43.33% 13
Total no. of respondents 1005 30
Inference From the above table and graph, it is evident that 13 respondents view the stress caused
due to working environment factors such as rest and canteen facilities to be the issue that requires
immediate attention. 7 respondents rate bad posture as the top issue while 5 respondents want a better
microclimate. Issues such as lighting and external noise have 3 respondents each rating it as the top
issue.
Lighting,
optical r
eflec
tions
noise/ d
istra
cters
microcli
mate
bad postu
re
rest
and ca
nteen fa
cilities
0%
10%
20%
30%
40%
50%
10.00%16.67% 16.67%
23.33%
43.33%
Working environment factors that cause the most stress
Working environment factors that cause the most stress
Figure 3. 16
92
Interpretation
The ATC usually remains seated in front of the console, changing position slightly according to the
working conditions. The ATC normally sits in the middle of or forward on the chair with his or her arms
on the table-top when he or she is actively operating and needs precise control of the radar screen, and
leaning on the backrest when he or she is on stand-by, hence lack of proper rest facilities and bad
posture top the list of stressors
93
Table 3. 17
Role ambiguity
Very low 0% 0
Low 10% 3
Moderate 30% 9
High 36.67% 11
Very high 23.33% 7
Total no. of
respondents
100% 30
Inference From the table, one can view that 36.66% of the respondents view the stress due to role
ambiguity to be high. 30% rate it as of moderate stress while 23.33% view it to be a source of very high
stress. 10% of the respondents feels the stress caused is low.
Very low Low Moderate High Very high0%
5%
10%
15%
20%
25%
30%
35%
40%
0%
10%
30%
37%
23%
Role ambiguity
Role ambiguity
Figure 3. 17
Interpretation In an environment like that of an ATC, where time, responsibilities with no room for
error and accountability are top priority factors, role ambiguity can cause a detrimental effect of causing
high levels of stress among the respondents
94
Table 3. 18
Role conflicts
Very low 0% 0
Low 0% 0
Moderate 20% 6
High 50% 15
Very high 30% 9
Total no. of
respondents
100% 30
Inference From the collected data, it is observed 50% of the respondents feel high stress due to role
conflicts. 9 out of the 30 respondents rate the stress caused to be very high. The remaining 20% feel the
stress levels caused due to role conflicts to be moderate.
Very low Low Moderate High Very high0%
10%
20%
30%
40%
50%
60%
0% 0%
20%
50%
30%
Role conflicts
Role conflicts
Figure 3. 18
Interpretation Having to perform multiple tasks simultaneously requires high degree of multi-tasking
capabilities and at times leads to performing unrelated procedures for the given tasks at hand, which
leads to increased mental reasoning and movements prioritizing the various tasks to minimize the role
conflicts thus causing stress.
95
Table 3. 19
Relations with supervisors and colleagues
Very low 0% 0
Low 0% 0
Moderate 20% 6
High 46.67% 14
Very high 33.33% 10
Total no. of
respondents
100% 30
Inference From the above table, it is inferred that 33.33% of the respondents feel that the stress
caused due to relations with supervisors and colleagues is very high. As high as 46.66% rate it as cause
of high stress. Only 20% view it as of moderate stress.
Very low Low Moderate High Very high0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
0% 0%
20%
47%
33%
Relations with supervisors and colleagues
Relations with supervisors and colleagues
Figure 3. 19
Interpretation Maintaining good relations with supervisors and peers and establishing and maintaining a
good internal support network would be a good inhibitor to the levels of stress caused.
96
Table 3. 20
Lack of control over work process
Very low 0% 0
Low 10% 3
Moderate 30% 9
High 43.33% 13
Very high 16.67% 5
Total no. of
respondents
100% 30
Inference It is inferred from the above table that lack of control over work process with respect to
the organizational aspects cause high levels of stress to 43.33% of the respondents as opposed to 30%
who rate it as a source of moderate stress.
Very low Low Moderate High Very high0%
5%
10%
15%
20%
25%
30%
35%
40%
45%
50%
0%
10%
30%
43%
17%
Lack of control over work process
Lack of control over work process
Figure 3. 20
Interpretation Participation of the controllers in decision making appears to be necessary to increase
perceived influence, motivation, job satisfaction and performance efficiency, as well as to decrease
stress and relative negative consequences, not only for the individual, but also for the organization
97
Table 3. 21
Salary
Very low 0% 0
Low 60% 18
Moderate 40% 12
High 0% 0
Very high 0% 0
Total no. of
respondents
100% 30
Inference From the above table, it can be inferred that 60% of the total respondents rate the stress
related to salary to be low as opposed to the 40% that rate it as moderate.
Very low Low Moderate High Very high0%
10%
20%
30%
40%
50%
60%
70%
0%
60%
40%
0% 0%
Salary
Salary
Figure 3. 21
Interpretation It can thus be interpreted that salary is not a significant stressor, supporting the by the
respondents who also highlighted that the salary is quite satisfactory.
98
Table 3. 22
Public opinion
Very low 0% 0
Low 36.67% 11
Moderate 56.67% 17
High 6.66% 2
Very high 0% 0
Total no. of
respondents
100% 30
Inference The above table leads to the inference that 56.67% of the total respondents rate stress due
the public opinion about the job of an ATC , to be moderate, while 36.67% rate it as a source of low
stress.
Very low Low Moderate High Very high0%
10%
20%
30%
40%
50%
60%
0.00%
36.67%
56.67%
6.66%
0.00%
Public opinion
Public opinion
Figure 3. 22
Interpretation Stress related to public opinion is insignificant
99
Table 3. 23
Do your peers help to reduce your stress?
yes 73.33% 22
no 26.67% 8
Total no. of
respondents
100% 30
Inference From the above table it can be inferred that 73.33% of the total respondents agree that
their peers help to reduce their stress.
yes no0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00%
70.00%
80.00%73.33%
26.67%
Do your peers help to reduce your stress?
Do your peers help to reduce your stress?
Figure 3. 23
Interpretation A good support and stress sharing network exists in the work environment that helps to
keep a check on the levels of stress from crossing into the high and very high levels. Some respondents
prefer to handling their stress on their own due to being capable of doing so and also to avoid causing
inconvenience to others in a work environment where time is of great importance.
100
Table 3. 24
Early phase training sufficient to handle stress
yes 56.67% 17
no 43.33% 13
Total no. of
respondents
30
Inference 56.67% of the respondents find the early phase training to be sufficient enough to handle
the day-to-day stress at the workplace.
yes no0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00% 56.67%
43.33%
Early phase training sufficient to handle stress
Early phase training sufficient to handle stress
Figure 3. 24
Interpretation An almost balanced response indicates the divide among the two perceptions about the
early phase training, with almost half the respondents rating it as a sufficient tool to handle stress. At the
same time, some respondents felt that the periodic training was required or essential
101
Table 3. 25
Frequent/periodic training to handle stress
yes 36.67% 11
no 63.33% 19
Total no. of
respondents
30
Inference From the above data, it can be inferred that 63.33% feel that there is a lack of frequent
training programs to handle stress
yes no0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00%
70.00%
36.67%
63.33%
Frequent/periodic training to handle stress
Frequent/periodic training to handle stress
Figure 3. 25
Interpretation The respondents feel that there is a need for periodic training programs to be organized
by AAI so as to help the employees, especially the ATCs to handle the considerable levels of daily
stress that they are exposed to.
102
Table 3. 26
Interpersonal relationships with pilots who fly regularly on same routes helps
to reduce stress
yes 66.67% 20
no 33.33% 10
Total no. of
respondents
100% 30
Inference From the collected data, it can be inferred that 66.67% of the total respondents agree that
establishing interpersonal relationships with pilots who fly regularly on same routes, helps to reduce
stress
yes no0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00%
70.00%
80.00%
66.67%
33.33%
Interpersonal relationships with pilots who fly regularly on same routes helps to reduce stress
Interpersonal relationships with pilots who fly regularly on same routes helps to reduce stress
Figure 3. 26
Interpretation Having a certain comfort level with pilots helps the ATCs to communicate better and be
less apprehensive of opposition from the pilot with respect to deviation from issued directions, that
inevitably helps to reduce stress that would otherwise occur due to pilot-ATC conflict.
103
Table 3. 25
Inference From the above table it can be inferred that 63.33% of the respondents feel the non
compliance on the part of the pilot is a leading stressor when interacting with the pilots, followed by
16.66% rating communication breakdown to be the next leading cause of stress
langu
age b
arrie
r
Rate o
f spee
ch
Non com
pliance
Pilot's
lack
of t
ech. k
nowledge
Comm
unication b
reak
down0.00%10.00%20.00%30.00%40.00%50.00%60.00%70.00%
7% 10%
63%
3%
17%
Factors while interacting with pilots that cause stress
Factors while interacting with pi-lots that cause stress
Figure 3. 25
Interpretation Of the many factors that cause stress to ATC while interacting with pilots, most
respondents rate non compliance on the part of the pilots to the issued directions cause a conflict
between the pilot and the ATC. This invariably leads to heightened stress levels as in the case of most
conflicts.
104
Factors while interacting with pilots that cause stress
language barrier 6.67% 2
Rate of speech 10% 3
Non compliance 63.33% 19
Pilot's lack of tech.
knowledge
3.33% 1
Communication breakdown 16.66% 5
Total no. of respondents 100% 30
Table 3. 26
Empathizing with the pilot helps to reduce stress
yes 56.67% 17
no 43.33% 13
Total no. of
respondents
30
Inference The collected data leads to the inference that 56.67% of the total respondents agree that
empathizing with the pilot helps to reduce stress
yes no0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00% 56.67%
43.33%
Empathizing with the pilot helps to reduce stress
Empathizing with the pilot helps to reduce stress
Figure 3. 26
Interpretation The pilot being in the ‘working’ environment of the aircraft is more familiar with the
nuances of operating it under ordinary conditions and otherwise. Pilots often see ATCs to be issuing
instructions without much empathy. ATCs feel that with a bit of empathizing with the pilot would help
to resolve problems faster and easily as opposed to a one-sided issuing of instructions.
105
Table 3. 27
Does stress affect domestic life?
yes 86.67% 26
no 13.33% 4
Total no. of
respondents
100% 30
Inference From the above table it can be inferred that 86.67% of the respondents do feel that their
domestic life is affected due to the workplace stress
yes no0.00%
10.00%
20.00%
30.00%
40.00%
50.00%
60.00%
70.00%
80.00%
90.00%
100.00%
86.67%
13.33%
Does stress affect domestic life?
Does stress affect domestic life?
Figure 3. 27
Interpretation An ATC is exposed to stress at multiple levels for multiple reasons, multiple times a day.
This inevitably would lead to the workplace stress to be taken home and affect their domestic lives.
106
Table 3. 28
Rating of the Job
Exciting 23.33% 7
Mediocre 43.33% 13
Monotonous 33.33% 10
Total no. of
respondents
30
Inference The data suggests the inference that 43.33% of the respondents feel the job of an ATC is
neither exciting nor monotonous as opposed to the 33.33% who find it monotonous and 23.33% who
rate it to be exciting.
Exciting Mediocre Monotonous0.00%
5.00%
10.00%
15.00%
20.00%
25.00%
30.00%
35.00%
40.00%
45.00%
50.00%
23.33%
43.33%
33.33%
Rating of the Job
Rating of the Job
Figure 3. 28
Interpretation The individual perceptions of the level of stress one is subjected gives an idea about the
excitement or interest levels one has for the job. ATCs have to strictly follow the rules and procedures
which makes the work quite a clockwork routine. The liking for the job and other social and personal
factors also influence the individual’s perception about the job
107
Table 3. 29
Reactions to stress
Excessive sweating 10% 3
Rapid/Stuttered speech 3.33% 1
Less Concentration 6.67% 2
Increased heart rate 26.67% 8
Loss of sleep 23.33% 7
irritable behaviour 20% 6
other health issues 10% 3
Total no. of respondents 100% 30
Inference From the above table it can be inferred that increased heart rate is one of the most
exhibited signs of reacting to stress by 26.67%. Loss of sleep is also another leading reaction to stress,
as rated by 23.33%
Exces
sive s
weating
Rapid/St
uttered sp
eech
Less C
oncentra
tion
Increase
d heart
rate
Loss
of slee
p
irrita
ble beh
aviour
other hea
lth iss
ues0%
5%
10%
15%
20%
25%
30%
10.00%
3.33%6.67%
26.67%23.33%
20.00%
10.00%
Reactions to stress
Reactions to stress
Figure 3. 29
108
Interpretation With regard to the short-term effects, an ATC's responses can be documented in terms of
changes in hormonal secretion (e.g. adrenaline, non-adrenaline, cortisol), heart rate, blood pressure,
muscular activity, cerebral waves, work performance (errors) and behaviour (sleeping, smoking, eating
and drinking habits). These can indicate a normal, physiological adaptation of the individual to external
stimulation, as well as an excessive strain due to an imbalance between demands and resources.
109
CHAPTER -4
HYPOTHESIS TESTING USING FISHER
EXACT TEST
RELATIVE RISK
TESTING OF HYPOTHESIS
110
4.1 HYPOTHESIS 1
H1 : There is no association between gender and Stress rates in (different
scenarios) among air traffic controllers.
H0 : There is an association between gender and Stress rates in (different
scenarios) among air traffic controllers.
Stress Rate * Gender Cross tabulation
Stress Rate Gender Total
Male Female
116 4 20
27 3 10
Total23 7 30
1: V. Low, Low, Moderate
2: High, V. High
Fisher exact test : p value is 0.6573
There is no statistical significance between gender and general stress rate.
Interpretation: Since the calculated value is more than 0.05, the researcher accepts the alternate
hypothesis stating that there is no association between gender and Stress rates in (different scenarios)
among air traffic controllers
4.2 HYPOTHESIS 2
111
H1: There is no significant association between gender and stress
contributed by the need to bend rules at work place.
H0: There is a significant association between gender and stress
contributed by the need to bend rules at work place.
Having to bend rules * Gender Cross tabulation
Gender
Total
Having to bend
rules Male Female
VLow/ Low/
Mod
17 1 18
High/ V High 6 6 12
Total 23 7 30
Fisher exact test: p value is .009
There is a significant association between gender and stress contributed by the need to bend rules at
work place.
Interpretation: Since the calculated value is less than 0.05, the researcher accepts the null
hypothesis stating there is a significant association between gender and stress contributed by the need
to bend rules at work place.
4.3 HYPOTHESIS 3
112
H1: There is no significant association between gender and stress arising
due to the feeling of loss of control over a particular situation.
H0: There is a significant association between gender and stress arising
due to the feeling of loss of control over a particular situation.
Feeling of Loss of Control * Gender Crosstabulation
Feeling of Loss of
Control Gender
TotalMale Female
VLow/ Low/
Moderate
17 1 18
High/ V High 6 6 12
Total 23 7 30
Fisher exact test: p value is .009
There is a significant association between gender and stress arising due to the feeling of loss of control
over a particular situation.
Interpretation: Since the calculated value is less than 0.05, the researcher accepts the null
hypothesis stating there is a significant association between gender and stress arising due to the feeling
of loss of control over a particular situation.
4.4 HYPOTHESIS 4
113
For the purpose of analysis the median age of 33 was taken as a cut-off and all persons above this
was categorized as relatively older and persons 33 and below were considered as relatively younger.
H1: There is no significant association between fear of consequence of errors and age.
H0: There is significant association between fear of consequence of
errors and age.
Fear of consequence of errors and age cross tabulation
Age
Total
Fear of Consequence of
Errors Younger Older
VLow/ Low/
Moderate
0 6 6
High/ VHigh 16 8 24
Total 16 14 30
Fisher exact test; p value is .005
There is significant association between fear of consequence of errors and age.
Interpretation: 80% of the respondents felt that stress levels due to fear of consequence of errors
was high or very high. All the respondents from the younger age group felt that stress levels increased
due to this factor. This was statistically significant. Hence null hypothesis accepted as the p value is
lesser than 0.05.
4.5 HYPOTHESIS 5
114
For the purpose of analysis the median age of 33 was taken as a cut-off and all persons above this
was categorized as relatively older and persons 33 and below were considered as relatively younger.
H1: There is no significant association between time pressure and age.
H0: There is significant association between time pressure and age.
Time pressure * Age Cross tabulation
Age
TotalTime pressure Younger Older
VLow/Low/
Moderate
1 4 5
High/ VHigh 15 10 25
Total 16 14 30
Fisher exact test: p value is .157
Most respondents across both the age groups felt that time pressure contributes highly towards stress .
However this difference was not statistically significant.
Interpretation: Since the calculated value is more than 0.05, the researcher accepts the alternate
hypothesis stating there is a no significant association between time pressure and age.
4.6 HYPOTHESIS 6
115
For the purpose of analysis the median age of 33 was taken as a cut-off and all persons above this
was categorized as relatively older and persons 33 and below were considered as relatively younger.
H1: there is a no significant association between Limitations and
unreliability of equipment and age.
H0: There is significant association between Limitations and
unreliability of equipment and age.
Limitations and unreliability of equipment * Age cross tab
Age
Total
Limitations and
reliability of equipment Younger Older
V Low/ Low/
Moderate
0 2 2
High/ V High 16 12 28
Total 16 14 30
Fisher exact test: p value is .209
Though more respondents said that limitations in reliability of equipments cause high stress levels.
There is no significant association between age distribution and stress levels due to limitations in the
reliability of equipment.
Interpretation: Since the calculated value is more than 0.05, the researcher accepts the alternate
hypothesis stating there is a no significant association between Limitations and unreliability of
equipment and age.
4.7 Relative Risk
116
Does stress levels cause a decline in the performance of the ATCs due to stress?
Stress affecting
performance
Declines Unaffected Total
VHigh/ High
stress levels
9 1 10
V Low/ Low/
Moderate Stress
levels
5 10 15
Relative Risk is 2.7.
Employees who experienced VHigh/ High stress levels at work were 2.7 times more likely to have a
reduced performance level at work when compared to employees experiencing VLow/ Low or Moderate
levels of stress at work. This difference was statistically significant with Relative risk : 2.7 and 95%
Confidence interval is 1.282 to 5.687.
Thus there is a significant association between High Stress levels and the decline in performance due to
stress
117
CHAPTER -5
5.1 FINDINGS
5.2 SUGGESTIONS
5.3 CONCLUSION
5.1 Findings
118
Study revealed that 46.6% of the ATCs fall in the age category of 30 – 40yrs which projects the
ATC to be comprised of young professionals
Of the 30 respondents, 76.6% were males
56.66% rated the stress at the workplace to be moderate
46.66% of the respondents stated that the stress caused their performance to decline
As high as 70% of the respondents rated the stress associated with the number of aircraft under
control to be in the very high stress category
46.66% of the 30 respondents rate the stress arising out of prak traffic hours to be very high
The stress caused due to extraneous traffic was rated to be high as much as 40% of the
respondents
Unforeseeable events was rated very high on stress levels caused, by as much as 53.33% of the 30
respondents
46.66% of the respondents feel the stress caused by time pressure to be high
119
Out of the 30 respondents, 43.33% rated the stress arising out of having to bend the rules to be
moderate
40% of the respondents opine that the stress associated with feeling loss of control to be moderate
Stress was rated to be very high by as much as 56.6% of the respondents when asked about the
stress caused by the fear of consequence of errors
73.3% of the respondents rate the stress associated with the limitations and reliability of the
equipments to be very high
36.6% of the respondents placed the stress caused by VDT, R/T and telephone quality to be in the
high category
Out of the 30 respondents, 26.6% are of the view that the stress that arises out from equipment
layout to be moderate
When asked about the various working environment factors that caused the respondents most
stress, 43.33% suggested about the rest and canteen facilities
As high as 36.6% of the respondents opined that the stress caused by role ambiguity to fall in the
high category
120
50% of the 30 respondents were of the opinion that the stress related to role conflicts to be high
When asked about the levels of the stress that arise out from relations with supervisors and
colleagues, 46.6% of the respondents said it was high.
43.3% of the respondents felt that lack of control over work process causes high stress
On the subject of salary, 60% of the respondents associated low stress with it.
The stress caused by public opinion about the job done by ATC was rated as a source of moderate
stress by as high as 56.6% respondents
73.3% of the respondents affirming that their peers help to reduce their stress highlights the good
peer relationship at the ATC
Of the 30 respondents, 56.6% are of the view that early phase training is sufficient to handle stress
66.6% of the respondents believe that building a good interpersonal relationship with pilots who
regularly fly the same routes, helps to reduce stress
On the subject of whether frequent/periodic training was organised to help handle stress, 63.33%
of the respondents responded negative thus highlights the fact the early phase training given
before entering the job is usually sufficient to handle the stress
121
While interacting with a pilot while on job, of the various factors that stress out ATCs most,
63.3% responded about the non compliance on the part of the pilot to be the leading cause.
56.6% responded that empathizing with the pilot helps to reduce the levels of stress associated
with work
86.6% of the respondents had no doubts on the fact the workplace stress does affect domestic life
‘Mediocre’ was rated by as high as 43.3% of the respondents when asked about how they would
rate their job with respect to the levels of excitement and monotony
Of the various reactions to stress, 26.6% responded that they experience increased heart rates.
5.2 Suggestions
The improvement in coordinating the information flow among the centres in order to assure an
increasingly safe, regular and expeditious air traffic flow is the other milestone which allows
ATCs to operate safely and quietly. This is made possible by modernizing the telecommunication
and radio assistance systems and improving the efficiency and reliability of equipment, as
well as by the progressive automation of the aeronautical information service, flight data
processing and air traffic management.
The lighting should be indirect, obtained preferably by mixing natural and artificial light directed
onto the ceiling and the walls and thus reflecting into the room. This gives a diffuse lighting in
the work environment without shadows and glare. Each artificial lighting unit should contain two
122
or more phase-shifted tubes to avoid flickering, which is extremely annoying, causes visual
discomfort and makes the reading of the different traces on the screen more difficult. Inside the
towers, the opposite is the problem. It is necessary to avoid excessive illumination levels
due to external bright light using both anti-reflection glass and curtains; it is also important to
have the possibility of positioning and shielding the visual display units to avoid indirect glare
due to bright reflections on the screen.
Particular attention has to be paid in order to stop background noise from exceeding 45-50 dB by
installing quieter office machinery, arranging work sectors in order to have better sound
protection from each other, and installing more insulating headsets and more sensitive
microphones.
Microclimatic conditions must be maintained within the range of thermal comfort, that is air
temperature between 20 and 24C, humidity between 30 and 70 per cent, and air velocity between
0.05 and 0.5 m/sec. To ensure these conditions, it is necessary to install adequate air conditioning
systems which must be maintained efficiently to guarantee a good indoor air quality.
Data displays containing flight information should preferably be located beside the radar screen,
whereas the auxiliary displays showing maps or other complementary information can be placed
above it. High resolution and multi-colour displays are preferred; keyboards, rolling balls or
joysticks should be movable to accommodate individual preferences; headset jacks must be
positioned on both sides of the table and should not protrude.
The most advanced display systems allow for better performance with greater comfort because
of their greater width, more favourable visual contrast, higher reliability, greater possibility
of storing and retrieving information, and a better control layout.
123
Particular attention has to be given to software ergonomics that can offer great possibilities for
improving presentation, comprehension and processing of information. With regard to this, it has
been proved that an appropriate use of colours, symbols, line shaping, windows and figures
facilitates and hastens data recognition and extraction.
With automated workstations, the controllers have less to do with telephoning, listening and
passing on information. These interpersonal communications can have an influence on the
method of work and the search for solutions. Reduction of verbal and non-verbal communication
might lead to a feeling of isolation and a poorer internal atmosphere; therefore, greater emphasis
should be placed on the development of adequate levels of communication.
A prolonged, constrained sitting posture causes musculo-skeletal discomfort and pain,
particularly at the level of the neck, the shoulders and the lumbar tract. In order to avoid or
alleviate such disturbances, it is important to use suitable chairs which allow a comfortable
sitting posture while working, as well as useful muscle relaxation while on stand-by or resting in
front of the screen.
A programme for improving physical fitness should be planned, aimed at preventing
lower-back pain by providing gymnasiums to be used by the ATCs during their relief periods.
There should also be technical guidance aimed at showing the most appropriate exercises that
should be done for the most effective "postural pause".
Proper eating habits are also important in keeping the person fit. A balanced diet, having light and
easily digested meals before and during work, can support work performance during duty periods,
avoiding drops in mental efficiency and drowsiness that generally occur after heavy meals. A diet
with a low-fat content and the right amount of calories, aimed at maintaining an ideal body
weight, also has a strong influence in preventing degenerative processes for chronic digestive and
cardiovascular diseases, for which both stress and obesity are important risk factors.
Preserving sleep both in terms of quantity (for recovering from physical fatigue) and quality (for
psychic well-being), is a very important anti-stress measure. Sleeping troubles, in fact, can be an
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early symptom of stress, but can make the person more vulnerable to stress as well. Should these
troubles arise, the person should not use sleeping tablets (or only as a last resort), but try
behavioural methods, such as taking more exercise to become more tired before going to bed;
adopting stricter times for going to bed and getting up; avoiding eating before going to bed;
having a light dinner with a prevalent content of carbohydrates rather than proteins; not taking
stimulants, such as alcoholic beverages, tea, coffee and soft drinks containing caffeine; having a
warm bath before going to bed; arranging a comfortable bedroom protected from disturbing
noises; listening to relaxing music or reading before sleeping.
Relaxation techniques are becoming more and more popular among people who feel to be under
stress. Massage, yoga, meditation and autogenous training are all useful exercises which help to
control restlessness, anxiety, muscular tension, inability to concentrate, insomnia and other
symptoms of stress.
Leisure time activities may help fight stress provided that they have a recreative aim and are not
taken too seriously, in order to avoid them becoming another stressor. Depending on personality
characteristics, some people prefer individual activities (such as fishing, painting, listening to
music, reading and do-it-yourself); others need group activities (such as team games and social
groups).
Periods of training are also of crucial importance for the education of ATCs in terms of stress
prevention. An effective training programme aimed at understanding the needs and
capacities of the individual, and balancing individual needs with organizational needs, is able to
improve not only technical learning but also motivation, job satisfaction and human relations.
Participation of the controllers in decision making appears to be necessary to increase perceived
influence, motivation, job satisfaction and performance efficiency, as well as to decrease stress
and relative negative consequences, not onlyfor the individual, but also for the organization (role
conflicts and role ambiguity, job-related communications, exasperated criticisms, strikes ,etc.).
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the availability of social services aimed at satisfying ATCs' needs. They concern, for example,
transport facilities for reducing commuting times, canteen and sleep facilities, and housing
conditions; the recognition at a social level of the importance of ATCs' activities and,
consequently, its appreciation by the general population. ATCs complain that the general
public do not fully understand the complexity and importance of their job, which is often
considered "second class".
5.3 Conclusion
The consequences on an ATC's performance and well-being may differ widely among
individuals in relation to many factors dealing with age, life styles, life events, work experience,
personality traits (introversion, anxiety, type A), behavioural characteristics (mood, sleeping habits,
morningness), attitudes, motivation, and physical and mental health. Moreover, many other factors
related to social conditions can play an important role in this respect, e.g. socio-economic status,
housing conditions, commuting, family attitudes, social support and integration.
Because of the specific requirements of the task, it is necessary that operators not only possess
high intellectual and operative skills, but that they are also in good health (both physical and mental) in
order to guarantee the highest levels of vigilance and performance at all times.
Therefore, all these aspects can have more or less influence on an ATC's job satisfaction, health
and well-being according to different circumstances (Figure 1). They can interact and interfere with
each other, giving rise to not only possible additive or multiplicative, but also subtractive effects, so that
it is often very difficult to evaluate and compare the effective stress and strain in different groups and
individuals.
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6.1 Bibliography
Age and Attitudes in the Air Traffic Control Specialist Workforce: An Initial Assessment -
Richard C. Thompson, Lawrence L. Bailey ,Civil Aeromedical Institute (1999)
Statistic Analysis Of The Aeronautical And Air Traffic Students Education At The Faculty Of
Transport And Traffic Engineering, University Of Zagreb -Biljana Juricic, Jelena Bistrica,
Stanislav Pavlin, Faculty of Transport and Traffic Engineering, Zagreb, Croatia (1998)
Validation Management in an ATM Research Project-Alberto Pasquini, Marinella Leone,
Keith Vickery, and Hans Wagemans (2001)
Occupational stress and stress prevention in air traffic control -Professor Giovanni ,Costa
Institute of Occupational Medicine, University of Verona (1995)
A Temporal Markers Framework for Analyzing ATC Operational Errors-Mark D.
Rodgers, Julia Pounds, Daniel G. Jack, and Deborah Thompson (December 2005)
ATM Strategic Plan - Volume II- ATM OPERATIONAL CONCEPTS AND PROCEDURES
(April 2008)
Model of the Cognitive Aspects of Air Traffic Control- European Organisation for the
Safety of Air Navigation (EUROCONTROL) 1997
Stress, Cognition, and Human Performance: A Literature Review and Conceptual
Framework Mark A. Staal ,Ames Research Center, Moffett Field, California (2005)
127
A Psychosocial approach To Understanding Pilot And Controller Acceptance Of
Change In Atm, Based On Three Cda Case Studies-Andrew Cook, Graham Tanner,
University of Westminster, London, UK Nadine Pilon, Tony Joyce, EUROCONTROL
Experimental Centre, Brétigny /Orge, France (2010)
Definition of a Responder: Analysis of Behavioral, Cardiovascular, and Endocrine
Responses to Varied Workload in Air Traffic Controllers-ROBERT M. ROSE, MD, AND
LOUIS F. FOGG, PHD (2004)
A Plan for the Future -The Federal Aviation Administration’s 10-Year Strategy for the Air
Traffic Control Workforce 2008-2017 (2008)
Communication And Cooperation Analysis In Air Traffic Control- A. Bellorini, F.
Vanderhaegen (1996)
The Impact of the Charter Jet Industry on Air Traffic Control: Brian Taranto (2009)
Manual of Air Traffic Services-International Civil Aviation Organization (2007)
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APPENDIX-1
QUESTIONNAIRE
APPENDIX-2
AAI Airport and Aviation traffic Maps
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6.2 Appendix 1
Occupational stress in Air traffic Control Questionnaire
1. Age and Gender
2. Which area of Air traffic control/ Technical department do you work in?
3. How would you rate the stress that you experience at the workplace?
4. How does stress affect your
performance?
5. How do you rate the stress that arises out of work load demand
number of aircraft under control
peak traffic hours
extraneous traffic
unforeseeable events
6. Which of the following aspects
related to operational
procedures stress you out
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Very
low
Low Moderate Hig
h
Very high
Declines Unaffected Improves
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
time pressure
having to bend the rules
feeling of loss of control
fear of consequences of errors
7. Of the below listed factors related to equipments, indicate the ones that cause stress to you
limitations and reliability of equipment
VDT, R/T and
telephone quality
equipment layout
8. The following factors of the Working environment that add stress to you
lighting, optical reflections
noise/distracters
microclimate (temperature,ventilation,humidity)
bad posture
rest and canteen facilities
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Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
9. How do you rate the stress associated with the following “Working Organization” factors
role ambiguity
role conflicts
relations with
supervisors and colleagues
lack of control over
work process
salary
public opinion (pride
associated with the job, appreciation, status)
10. Do your peers help you to reduce your stress?
Yes / No
11. Is the training received during early phase of the job sufficient to handle stress?
Yes / No
12. Interpersonal relationship with pilots who fly regularly on routes helps to reduce/eliminate
stress
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Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Very
low
Low Moderate Hig
h
Very high
Yes / No
13. Do you have frequent /periodic training to handle stress?
Yes / No
14. In your interactions with the pilots, rank the below factors in the order that cause stress to
you ( rank the factor that causes you maximum stress as 1 and so on)
Language barrier
Rate of speech
Non compliance with orders / guidance
Lack of technical knowledge on the part of the pilot
Communication breakdown (technical or/and personal)
15. Do you empathize with the pilot to see from a different perspective to reduce / eliminate
stress?
Yes / No
16. Does the work stress affect your domestic life?
Yes / No
17. Do you find the job
Exciting
Indifferent
Monotonous
18. How do you rank the following reactions to stress
(rank max as 1 and so on)
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Excessive sweating
Rapid Speech
Less Concentration
Increased heart rate
Loss of sleep
Irritable behaviour
Health issues
Thank you!
6.3 Appendix 2 a
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135
Appendix 2 b
Appendix 2 c
136
137
Appendix 2 d
Appendix 2 e
138
Regional Headquarters
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