T ERM P APER – DIA BAGGAGE HANDLING SYSTEM Hari Nagalla 12/01/2012 ESE6361.
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Transcript of T ERM P APER – DIA BAGGAGE HANDLING SYSTEM Hari Nagalla 12/01/2012 ESE6361.
TERMPAPER – DIA BAGGAGE HANDLING
SYSTEMHari Nagalla12/01/2012
ESE6361
Denver International Airport - Background
• One of the largest and most technologically advanced airports in the world – 2X the size of Manhattan – 53 square miles
• 3 parallel north-south Runways, 2 parallel East-West runways. Room for 12 runways.
• 3 concourses and 88 gates.• Construction started in 1989, with scheduled
open in 1993.
Automated Baggage Handling System
• Designed to distribute all baggage including transfers, automatically between check-in, aircraft and baggage claim.
• BAE contracted to design and install the system.• Project cost USD~190 M.• Most complex baggage handling system, other
airports used similar design, but at a far reduced scale.
Motivations for advanced baggage handling system
• Distances between ticket counters and gates/planes are much larger than most other airports.
• To keep flights on schedule, speedy movement of baggage is critical (quick turn-around time – maximizes airline profitability)
• Baggage transfer/movement is through under-ground tunnels, so telecarts are preferred.
Methods of Moving Bags• Tug & Cart
– Labor intensive – Manual Method
• Telecars– Multiple luggage pieces in one cart– Not automatically sorted– Typically used in automated systems
Methods of Moving Bags• DCV – Destination Coded Vehicles
– Each cart contains a single piece of luggage– Automatically sorted– Not typically used or well tested– Little or no human interaction required– Selected for the Automated Baggage System at DIA
Methods of moving bags• DCV mechanics
– Metal cart with wheels on the bottom and a plastic tub on top (mounted on a pivot) that tilts into three positions for automatically loading, carrying and unloading baggage
– Ride on a metal track like a roller coaster– Travel up to 24 mph– Slow to 4.5 mph for loading and 8.5 mph for unloading– Photo-electric sensors trigger laser scanner when DCV is present
and associate the bag with the DCV• Located every 150 to 200 feet of track
– Data from scanners is transmitted to a computer that translates it by using a look up table to match the flight number with the appropriate gate
BAE Baggage system Functionality• Check-in
– Bar code labels• Bag’s owner• Flight number• Final destination• Intermediate connections and airlines
– Automated bar code scanner• Array of bar-code scanners arranged 360 degrees scan
baggage • Typically able to scan 90% of luggage• Luggage unable to be scanned is routed to another
conveyor to be manually scanned– Theoretically after reading the bar-code, the system will know
where that bag is at all times
System components• 300 486-class computers distributed in eight control
rooms• Raima Corp. database running on a Netframe systems
fault-tolerant NF250 server• High speed fiber-optic Ethernet network• 14 million feet of wiring• 56 laser arrays• 400 frequency readers• 10,000 motors• 92 PLCs to control motors and track switches• 3,100 standard baggage carts (DCVs) • 450 over-sized baggage carts (DCVs)• 2,700 photocells• Over 17 miles of track• Over 6 miles of conveyors
Baggage Handling Process• Conveyor belt feed the central network of DCVs.• Each bag is independently placed on the DCV, so delivery of bags from
conveyor belts must be carefully controlled.• The conveyor belt can only advance when there is an empty cart onto
which the leading bag on the conveyor belt can be placed.• The speed at which the conveyor belts can advance, and thus the
performance of the entire system depends on the rate of delivery of empty carts to each conveyor belt.
Baggage Problems
Baggage handling system failed spectacularly, during test and demo runs.This resulted in postponing airport opening by several months.
Timeline : Mayor’s humiliation• March 2, 1993
– Denver Mayor Wellington Webb announces the first airport opening delay. The October 31, 1993 opening date is changed to December 19, 1993 to allow for a seven week debugging of hundreds of systems.
• October 25, 1993– Mayor Webb announces the second airport opening delay. The December 19,
1993 opening date is changed to March 9, 1994 to accommodate changes made by the airlines, allow more time to test critical airport systems, train airline ticket agents and other workers, and complete installation of fire and security systems.
• March 1, 1994 – Mayor Webb announces the third airport opening delay. The March 9, 1994
opening date is changed to May 15, 1994 to accommodate problems of troubleshooting the airport's complex baggage system. Mayor Webb further asserts that the airport will open on May 15th "come hell or high water."
• May 2, 1994 – Mayor Webb announces the fourth airport opening delay. The May 15, 1994
opening date is delayed indefinitely to resolve more problems encountered while testing the baggage system.
Timeline : Part II• June 20, 1994
– The Webb administration announces that four steps are required in completion before a new opening date will be announced. • BAE must submit a master schedule. • Logplan and the city must evaluate the BAE master schedule and conduct
several tests to see how realistic it is. • Denver must consult with the airlines on their recommendations. • The BAE's baggage system must operate for an unspecified period of time
at an acceptable level.• August 4, 1994
– Mayor Webb announces that the city will spend an extra $50 million to build a conventional airport-wide luggage system using traditional tugs and carts.
• August 22, 1994 – Webb announces that Denver International Airport will open on February 28,
1995.
Timeline : Part III• September 7, 1994
– Denver and BAE sign an agreement that allows BAE to work directly with United Airlines to simplify the baggage system so it can be ready for a February opening.
• September 21, 1994 – Denver and BAE begin mediation over who is to blame for the cost overruns
and problems with the baggage system. • February 28, 1995
– Concourse A's opening is postponed indefinitely, owing to litigation between Denver and Continental Airlines, which has cancelled its lease of 30 gates, and its operation of using Denver as a major hub. Concourse C, carrying 12 airlines, opens with a traditional tug and cart baggage system. Concourse B, housing all of United's gates, opens using the BAE automated baggage handling system only on outbound, Denver-originated flights.
What went wrong?
• Despite its importance, the baggage handling system was an afterthought– The airport was 2 years into construction
before the baggage system was considered– The system would have to be retrofit into the
airport as it was designed initially including narrow tunnels and tunnels with sharp turns making it extremely difficult to navigate the DCVs
What went wrong? part II
• The time constraint was impossible to overcome– The 21 month schedule precluded extensive
physical testing or simulation of the full system design
What went wrong? Part III
• Reliable Delivery– System consists of over a hundred waiting lines that
feed into each other• Belt will only advance when there is an empty cart• Empty carts will only arrive after they have deposited their
loads• Cascade of queues
– Pattern of loads on the system are highly variable• Depend on the season, time of day, type of aircraft• The number of possible scenarios is enormous
What went wrong? Part IV
– Misreads• Compounded by the fact that not only are the
scanners required to read data from the tags attached to the baggage, but the information must also be transmitted by radio to devices on each of the DCVs. This duality compounds the errors.
What went wrong? Part V• Complexity
– System of this size providing time sensitive delivery of materials on such a large scale had never been done before• 12x as many carts traveling 10x the speed of carts typically used at that time
• Not just an increase in complexity relative to current systems, but a leap in complexity– System must track tens of thousands of bags going to hundreds of
destinations – all in real time– Distributed computer system– In addition to regular error checking, software must guard against
electrical disturbances in the communications, have multiple levels of redundancy and be able to recover from errors very rapidly
What went wrong? Part VI
• Line-Balancing problem– All lines of flow should have balanced service– Need to have sufficient empty carts to accommodate
the bags coming off the conveyor belt– In a postmortem simulation, the inability of the system
to provide adequate empty carts was the primary cause of its failure. A simulation was also completed prior to the start of the project, but due to a lack of communication, BAE was not notified by airport officials of the results; The results stated, in essence, that the system would not work as it was initially designed
Lessons learnt - 1
Baggage handling is an integral part of Airport planning and construction. Due attention should be paid during Elaboration, design phase.
Making the system to work increases ‘exponentially’, as complexity increases. Automatic Baggage handling for entire airport is very complex with thousands of mechanical/control devices and SW systems.
Make smaller automatic systems (one for each concourse etc) to get confidence and then incrementally automate adding more consourses, terminals)
Recommendations - 1
Using RFID tags on bags (instead of barcode readers) may help improving mis-reads.
Line balancing/ allocation of empty carts to loading points may be optimized :- Use cameras at Ticket counters to monitor check-in pattern. Video analytics to identify bags.- Get checked-in bag info of the arriving flight in advance and allocate empty carts.
Recommendations - 2There are similarities between Automated Baggage handling using DCVs and IP packet routing:Bag – data packetBaggage tag – packet headerConveyor/DCV – Ethernet/ATMJunction Switch – Router/Gateway
IP networks have evolved over time and lot of research, went into issues like –a) congestion controlb) route selection, route balance.c) QoS (Quality of Service) – Some packets have precedence.
It may be worth studying these similarities to adapt some of the techniques from IP routing to automated baggage handling.
Acknowledgements
• “The Baggage System at Denver: Prospects and Lessons,” Journal of Air Transportation Management, Vol. 1, No.4, Dec., pp. 229-236, 1994.
• “How Baggage Handling Works,” HowStuffWorks.com
• The Baggage System at Denver: Prospects and Lessons – Dr. R. de Neufville – Journal of Air Transport
• Management, Vol. 1, No. 4, Dec., pp. 229-236, 1994“Simulating the Denver airport automated baggage System,” Dr. Dobbs Journal, January 1997