Hfe practicle final
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MEHRAN UNIVERSITY OF ENGINEERING &
TECHNOLOGY JAMSHORO SINDH
HUMAN FACTORS
ENGINEERING
NAME: MOHAMMAD YOUNUS
ROLL NO: 08IN70
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 2
PRACTICAL JOURNAL
OF HUMAN FACTORS ENGINEERING
CERTIFICATE
It is to Certify that Mr. / Miss: ………………………………………………………………… bearing roll no:
…………………………….. has carried out the necessary practical works as per course of studies of the subject
……………………………………………………….. For the year ………………………. as shown in the practical
schedule of this journal.
Professor In charge ………………….
Department of ………………………..
Date …………………………………..
Head of the Department ………………
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 3
CONTENTS
S.NO.
OBJECT
PAGE
NO.
01. Observe the effect of environment on the performance of human body. 04
02. To observe that how the work place i.e. sitting and table height affects the
performance of human being. 06
03. Effects of work load on the performance of human body. 09
04. How the man-machine interaction can be enhanced while designing the product. 12
05. Prove that the user performance decreases with the increasing noise. 13
06. How illumination is measured and what are its methods. 15
07. Suggest the best numeric keyboard and structure for calculator / telephone. 17
08. Suggest the different seating arrangements for male and female students according
to their ages and dimensions. 19
09. Measure the position of eye using terminals. 23
10. Suggest the best arrangements of components within a physical space. 25
11. Suggest the best criteria and counting the information/ speech. 27
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 4
PRACITICAL # 1
TITLE:
Effects of the environment.
OBJECT:
Observe the effect of environment on the performance of human body.
EQUIPEMENT:
Room thermometer, computer, stop watch, machine lab ceiling fan, and pc lab. And different
locations.
THEORY:
According to human factors engineering, it is assumed that “The environment (i.e.
temperature, illumination, humidity) affect the performance of human body.”
DESCRIPTION:
Many occupation and task expose implies to hot or cold working environment it is important
to distinguish between a condition which threatens health and safety and a feeling of discomfort.
Thermal discomfort may be experienced even there is a little likely hood of medical
condition developing. For example, office workers may feel uncomfortable if there air conditioning
is not working to optimum effect in hot weather, which could result in a real risk of heat related
illness which may create a serious threat to health. Preventive step should aim to reduce thermal
discomfort as much as is practicable and to develop working condition and work practices which will
not give rise to more serious problems.
PROCEDURE:
To prove the above statement following experiment was conducted in human factors
engineering laboratory. The main elements of experiment were :
1. A group of four students was chosen per experiment.
2. Every student was given the same 30 minutes to type on computer.
3. Every student was provided with different environment conditions i.e. temperature.
4. All students were kept in close supervision.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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5. The temperatures were manipulated.
OBSERVATION: Refer the table below
S.No Written
article
Time
given Temperature Experience
Errors in
writing
Level of
performance
1. Introduction
to H.F.E 30 minutes Too high 2-yrs 200 Very poor
2. Same 30 minutes Too low 2-yrs 195 Poor
3. Same 30 minutes Moderate 2-yrs 180 Good
4. Same 30 minutes Room
temperature 2-yrs 150 Very good
RESULTS:
From the above experiment it was concluded that the human performance is affected by the
environmental conditions
Standard temperature for the office work is suggested around 20 to 24 o C and 30 to 60 %. It does
not mean that the work could not be done beyond this temperature range. Similarly is the case with
other factors such as, illumination, noise, humidity etc. causing human performance to be decreased
air temperature can cause sweating, dizziness, muscle cramps, shivering, hypo-thermia etc. humidity
can cause discomfort, flushed skin, headache, vomiting etc.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 6
PRACTICAL # 2
TITLE:
Improper work place.
OBJECT:
To observe that how the work place i.e sitting and table height affects the performance of
human being.
REQUIREMENTS:
Computer, different chairs, different table size, PC lab, stop watch.
DESCRIPTION:
Different people have different physical dimension and required different sort of chairs and
table regarding comfort and ease so has to maximize the performance in the work place.
PROCEDURE:
To prove the above statement following experiment was conducted in human factor
engineering laboratory. The main elements of experiment were:
1. A group of four students was chosen per experiment.
2. Every student was given the same 30 minute to type on computer.
3. Every student was provided with different sizes and types of chairs and table and also tasks to
work with.
4. All students were kept in closed supervision.
5. All students were interviewed to know their view.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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Feeling fatigue and pain in legs due to hard position
OBSERVATION: Refer the table given below
MALE FEMALE Type of task
(seated) Inch cm inch Cm
Fire work 39.0-41.5 99-105 35.0-37.5 89-95
Precision work 35.0-37.0 89-94 32.5-34.5 82-87
Light assembly 29.0-31.0 74-78 27.5-29.5 70-75
Coarse/medium
work 27.0-28.5 69-72 26.0-27.5 66-70
Reading and
writing 29.0-31.0 74-78 27.5-29.0 70-74
Range for typing
desks 23.5-27.5 60-70 23.5-27.5 60-70
Computer
keyboard use 23.0-28.0 58-71 23.0-28.0 58-71
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 8
CONCLUSION:
Form the above practical we concluded that before designing any type of chair or table
following point should be kept in mind.
1. For whom we are designing.
2. The work for what it will be used.
3. The environment where it (chair/table) will be used.
4. The color of the chair.
5. The ratio of flexibility etc.
Thus we conclude that for designing any chair or table we have to satisfy a large number of user
populations so as to provide comfort and ease with great degree of flexibility.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 9
PRACTICAL # 3
TITLE:
Workload.
OBJECT:
Effects of work load on the performance of human body.
REQUIREMENTS:
Working environment and stethoscope.
DESCRIPTION:
There are many factors that contribute to the work load experienced by the people while
engaged in physical work. Astrand and rodahl (1986) presented the major factors that influence the
body energy level of output.
The factors include: nature of work, somatic factors, training, motivation and environment.
These influence the energy output level through the physiological service function of supplying fuel
and oxygen for muscle metabolism.
Efficiency (%) = Work output x 100
Energy consumption
PROCEDURE:
1. Students are made to perform different types of work such as pulling or pushing the carts etc.
2. After performing the task, heart rate was calculated at worm up position.
3. Energy consumption is also calculated.
4. In last, conclusion was made regarding the students fitness for particular work.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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Feeling fatigue and pain in limbs Feeling fatigue while doing
due to heavy load work due to work load
OBERVATION: Estimated work efficiency for various activities.
Activity Efficiency
Shoveling (stooped posture) 3
Shoveling (normal posture) 6
Using heavy hammer 15
Going down and up stairs 23
Pulling a cart 24
Pushing a cart 27
Cycling 25
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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Grade of physical work based on energy expenditure level.
Grade of work Energy
expenditure(kcal/min)
Energy
expenditure
Heart rate
(beats/min)
Oxygen
consumption
(L/min)
Rest (sitting) 1.5 >720 60-70 .3
Very intense
work 1.5-2.5 768-1200 65-75 0.3-0.5
Light work 2.5-5.0 1200-2400 75-100 0.5-1.0
Moderate work 5.0-7.5 2400-3600 100-125 1.0-1.5
Heavy work 7.5-10.0 3600-4800 125-150 1.5-2.0
Very heavy
work 10.0-12.5 4800-6000 150-180 2.0-2.5
Un-duly heavy
work >12.5 >6000 >180 >2.5
RESULT:
Knowing the heart rates and energy consumption, performing different task, it can be
concluded that which job is suitable for the user.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 12
PRACTICAL # 4
TITLE:
Man-machine interaction.
OBJECT:
How the man-machine interaction can be enhanced while designing the product.
REQUIREMENTS:
Two students, two computers (one black & white and one colored), written specimen, proper
elimination, temperature and seating arrangement.
DESCRIPTION:
For the better performance of the user at work, it is important that the work area should
possess the quality to match man and machine and it can be improved by making the machine more
user friendly.
PROCEDURE:
To prove the above statement, following experiment was conducted. The main elements off
experiment are as under.
Two students were selected, provided the same illumination, temperature, working area, typing
experience and written specimen.
One student was provided the colored pc while other black & white.
Both were given one hour to type on their respective pc.
Both students are kept in close supervision.
Both were interviewed by supervisor at the end of experiment.
OBSERVATION:
From above experiment following results were derived.
1. Student with colored pc wrote more words than that of having black & white pc.
2. Student having colored pc had better visualization.
3. Colored pc student had less eye and mental fatigue.
4. Student with colored pc was more will to do work.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 13
PRACTICAL # 5
TITLE:
Noise.
OBJECT:
Prove that the user performance decreases with the increasing noise.
REQUIREMENT:
Lathe machine, sharper machine, drill machine, grinding machine, students and work
specimen.
DESCRIPTION:
Noise is such type of sound which creates irritation and can result performance reduction.
PROCEDURE:
Following procedure was adopted to prove the above statement.
1. All mentioned machines were operated and caused noise at the level of 9000 Hz.
2. Students were assigned to work on lathe, shaper, drill and grinding at same time.
3. After 15 minute, the performance was checked and evaluated.
4. Now lathe machine was stopped while the other machines were let to work with the reduced
level of noise to 8000 Hz.
5. After another 15 minutes, the performance was checked and evaluated.
6. This time sharper and drill machines were stopped while grinding machine was continued to
work with the reduced level of noise to 6500 Hz.
7. In same way, the performance of students was checked.
OBSERVATION:
1. The operation must be given protective devices while working in noisy environment.
2. There must be provision of ventilation in workplace so that most of the noise can be
absorbed.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 14
3. The base of the machine should produce less vibration.
4. The work area and building must be designed in a way that there is no echo in building.
5. Proper maintenance of machine can also result in noise reduction.
Feeling irritation while doing work due noisy environment
RESULT:
1. As the machine operation was stopped, the noise was reduced and lead to the better
performance.
2. The finished product came up with better quality.
3. The decreasing noise also enhanced the degree of better communication among the students.
4. The students were feeling less fatigue as the machines were stopped one by one.
5. The decreased noise can result in better quality and performance of the students.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 15
PRACTICAL # 6
TITLE:
Illumination.
OBJECT:
How illumination is measured and what are its methods.
REQUIREMENTS:
LUX meter, artificial light (candle), measurement tape, paper and pencil.
DESCRIPTION:
Illumination includes both artificial light source such as lamps and natural illumination of
interiors from daylight. Illumination represents a major component of energy consumption,
accounting for a significant part of all energy consumed worldwide.
Artificial illumination is provided today by electric lights, but previously by gas lighting candles or
oil lumps. Proper lighting can enhance task performance or aesthetics; while there can be energy
wastage and adverse health effects of lighting.
It is valuable to provide the correct light intensity and color spectrum for each task or
environment. Otherwise, energy not only could be wasted but over-illumination can lead to adverse
health and psychological effects.
Specification of illumination requirements is the basic concept of deciding how much
illumination is required for a given task.
PROCEDURE:
Following is the procedure for conducting this practical by putting LUX meter in vertical and
horizontal position.
1. First we check the room/lab illumination , i.e 50 lux
2. Mark the starting and ending point from 0 to 12 inches respectively.
3. We place the candle at 12 inches away from the lux meter.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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4. After that we remove the lux meter towards the candle with equal distance of 1 inch and
record the reading.
READING:
Reading available in the room/lab in vertical = 150
In horizontal = 175
Candle height = 4”
Lame = 2”
Position of LUX meter
Horizontal Vertical Candle
200 300 12
250 150 11
200 250 10
300 300 09
325 250 08
300 350 07
350 375 06
400 450 05
450 800 04
550 700 03
350 1000 02
400 1700 01
RESULT:
From the above recorded data, we conclude that the distance that the distance from source
decreases the illumination.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 17
PRACTICAL # 7
TITLE: Best numeric keyboard.
OBJECT:
Suggest the best numeric keyboard and structure for calculator / telephone.
INSTRUMENTS: Telephone set (digital), calculator, stopwatch, pencil and paper.
PROCEDURE: To suggest the best arrangement of keys on both telephone and calculator, first we have to
examine the existing structure of both.
CALCULATOR CALCULATOR
(Standard Model) (Suggested Model)
% OFF ON
R-ME M+ M- /
7 8 9 .
4 5 6 *
1 2 3 -
CHECK % OFF ON
R-ME M+ M- /
7 8 9 X
4 5 6 -
1 2 3 +
0 . = ANS
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 18
TELEPHONE TELEPHONE
(Standard model) (Suggested model)
S. No Model type Number dialed Duration (seconds)
1 Standard 0313-3167888 5.00
1 Suggested 0313-3167888 6.75
2 Standard 0313-3167888 4.5
2 Suggested 0313-3167888 7.00
1 2 3
4 5 6
7 8 9
* 0 #
# 0 *
3 6 9
2 5 8
1 4 7
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 19
PRACTICAL # 8
TITLE:
Seating arrangement.
OBJECT:
Suggest the different seating arrangements for male and female students according to their
ages and dimensions.
REQUIREMENT:
Measuring tape, vernier caliper, scale, paper and pencil.
DESCRIPTION:
Diverse evidence from many cultures shows that sitting has been associated with numerous
problems: back pain of all sorts, fatigue, varicose veins, stress and problems with the diaphragm,
circulation, digestion, elimination, and general body development.
PURPOSE:
According to Cranz and other radical ‘somatic’ practitioners who practice ‘new ergonomics’
is that we have been forced into a ‘table’ and ‘chair’ culture. Where many activities take place in a
right-angled seated position. This position forces the body into a C-shaped slump and this places
uneven pressure on the vertebral disks of the lower back. With time, the spine can become deformed
and erode disks.
Adjusting the fit, title, and height of your chair is very important for proper posture and
comfort. The backrest of the chair should have a snug fit against your back. Every chair is different,
but in general, looks for height, lumbar support, and tilt adjustments. If you find that you need
additional lumber support, a back cushion can be used to customize your chair. Adjust your seat tilt
so you are sitting up right with your feet firmly on a surface and your lower back well supported. Set
chair height so that your hands and wrists should remain at the same level as the home row on the
keyboard. If these adjustments cause your feet to dangle, you’ll need a foot rest.
PROCEDURE:
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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Firstly, we choose a student of height 5.8 feet among all the students. We started taking
measurement.
1. Inner side of the foot = 9.5”
2. Foot to knee = 18.5”
3. Thigh to lumber lord sis = 23.0”
4. Waist = 33.0
5. Lumber lord sis shoulder = 27.0”
6. Shoulder to head = 13.5”
After taking all the measurements, we suggested the following dimensions of the computer
chair for the students. The dimensions are:
1. Height of the seat = 17.0”
2. Thickness of the seat = 2.0”
3. Width of the seat pan = 17.5”
4. Height of the back rest = 18.0”
5. Width of the back rest = 17.0”
6. Angle of the back rest = 1000 - 1100
“I love my ergonomic office chair. It
reclines, has heated vibrating massage,
and provides electro-shock therapy at the
end of a stressful”.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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RESULT:
1. Students were feeling more comfortable.
2. They were not feeling back ache after sitting for more than an hour.
3. The recommended height of the chair improved the typing performance because the
suggested dimensions gave proper compatibility of arms and keyboard.
4. Due to proper height of the chair, the leg swelling was reduced up to 50%.
STANDARD ADJUSTMENT TO BE MADE:
Start our adjusting a chair from the ground up. Start with the height and move up from there.
While adjusting the chair, worry first about getting the chair adjusted to fit you. Afterwards, look at
things like the height of the desk, keyboard etc. Too often, people adjust a chair too high so they can
reach the keyboard rather than properly adjusting the chair and adding a keyboard tray to move the
keyboard to the correct height.
SEAT HEIGHT:
Start by adjusting the height until your things are parallel to the floor, stand in front of the
chair and adjust the height until the top of the seat pan is at the height of the bottom of your kneecap.
Then, sit in the chair and make small height adjustments until your things are parallel to the ground.
Sit in this position for a while before making any further changes in seat height. When you have
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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become accustomed to this height, adjust the chair height up/down 1-3 inches until you find a
location that is comfortable for you while seated (don’t worry about that keyboard height yet!).
SEAT DEPTH:
Adjust the seat pan until you have about three fingers to a fist’s width of room between the
back of your calf and the front edge of the chair when your back is touching the backrest. If the seat
pan is not adjustable and the pan is too deep, add padding to the backrest (a towel over the backrest
of the chair or a backrest cushion) to shift you forward in the seat while maintaining contact with the
backrest. If the seat pan is too shallow, start looking for a new chair.
SEAT ANGLE:
There are three basic postures. The standard posture calls for a level seat pan so it is not
necessary to adjust the tilt for this posture. Likewise, the reclined posture can have the seat flat as
well. However, some people prefer to have a very slight backward tilt on the seat pan to help keep
them in the seat. In the forward tilt posture, the seat pan is tilted forward 5-100. start by raising the
overall height of the chair a few inches, and then tilt the seat pan forward.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 23
PRACTICAL # 9
TITLE: Vision and eye.
OBJECT: Measure the position of eye using terminals.
THEORY: The eye is a fluid membranous sphere which converts the electromagnetic radiations into
nerve impulses. It is very sensitive organ of human body. It consists of nine parts working differently
from each other.
1. Cornea.
2. Pupil.
3. Lens.
4. Iris.
5. Suspensor ligaments.
6. Retine.
7. Foveae.
8. Blind spot.
9. Optic nerve.
PROCEDURE:
Light enters the eye through a transparent outer covering called the cornea. The cornea plays
very important role in reflecting the incident light. Further reflection occurs as the light passes
through the lenses. During the working on the places where terminals are use then person always try
to sit at keep distance because when we use the rules then we do not feel fatigue earlier. The standard
distance of terminal from human eye is 20-25 inches and the position of the eye is 7-10 inches from
center. These are the standard and by using these rules we reduce the human eye fatigue.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
Prepared by MOHAMMAD YOUNUS (08IN70) Page 24
OBSERVATION:
Distance from eye to
terminal (inches)
Height of terminal
from center (inches)
Height of eye from
sitting posture (inches) Illumination
15-20 2-5 20 Normal
20-25 7-10 24 Standard
30-35 10-13 28 Low
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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PRACTICAL # 10
OBJECT:
Suggest the best arrangements of components within a physical space.
REQUIREMENTS:
Stop watch, set of different components and drill machine.
THEORY:
Working safety begins with looking at the physical arrangements of your work space and
design of the tools you use. This draws from the science of ergonomics which strives to fit the work
to the body rather than forcing the body to conform the work. As logical as this may sound, it is
actually a pretty view.
Ergonomics is being abused as marketing term, being thrown as easily as the word “natural”
is with food. Suddenly every thing is “ergonomically designed”. A product will not be very
ergonomic for someone if it is not used in the right way for the right purpose. And since many
ergonomic products are adjustable, it takes training to take advantage of what they have to offer.
Otherwise they can be just as uncomfortable or injurious as your old furniture.
One of the most common scenario seen today is the company which buy new furniture with a
wide range of adjustability but does not teach its employees how they operate or in what principles to
adjust them. There are examples of companies where cumulative trauma problems increased after
installing ergonomics furniture. Imagine their surprise! The answer is training.
You need to understand the principle behind ergonomics design. It is really very simple. The
goal is to prevent unnecessary muscular efforts, and avoid postures which put strain on the body. In
short, to make you comfortable.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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Maximum and minimum reach at work station
PROCEDURE:
For the drilling purpose, the major components required are
1. Drill bits
2. Cutting oil
3. Job
The drill bits should be placed alongside the machine so that they can easily be reached.
The cutting oil is required during the drilling process and should be provided with in the form
of pipe pouring the oil continuously on the job.
The height of the machine should be suitable and proportionate to the size of the worker
because it is too high, the worker can not reach it and if it is too low, the worker will have to bend,
including a lot of fatigue.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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PRACTICAL # 11
OBJECT: Suggest the best criteria and counting the information/ speech.
THEORY:
In the process of designing the speech communication system, one needs to establish the
criteria or standards the system should need to be acceptable for the interred uses. Criteria are also
required to evaluate the effects of noise and ear protectors on speech communication and to measure
the effectiveness of hearing aids. The major criterion for evaluating a speech communication system
is intelligibility, but there are others as well, including quality or nature less of the speech.
SPEECH INTELLIGIBILITY:
Intelligibility is simply the degree to which a speech message (e.g. a list of words) is
correctly recognized. Intelligibility is assessed may transmitting speech material to individuals who
are asked to repeat what they hair or to answer question about what they hair. Various speech
intelligibility tests exists which differ in terms of types and materials presented “ example : nonsense
syllables politically balanced (PB) words list that contain all the various speech, sounds and
sentences “ In general, in a given situation, intangibility is highest for sentences, lessees for isolated
words and lowest for nonsense syllables.
SPEECH QUALITY:
Speech quality or naturalness goes beyond intangibility. It is important in situation where it is
desirable to recognize the identity of speaker such as on the telephone. Speech quality is also
Important as one determinate of user satisfaction with a communication system, for example: mobile
telephone for auto mobiles have become relatively in expensive and available. In telephones, for the
home that allow a person to talk and hear from any where in the room “Called speaker phone” are
also popular, automatic telephone, answering machine are also be coming common in all these cases.
The quality of speech heard over the system often the critical factor that accounts for the purchase of
one system over another.
DEPARTMENT OF INDUSTRIAL ENGINEERING AND MANAGEMENT
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Speech quality is defined in terms of preferences usually samples of speech are presented
over the system and people are asked to either rate the quality (excellent, fair, poor, un-expectable).
This type of methodology is often used to evaluate synthetic speech as well.