On-time performance: Difference between revisions
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In [[public transportation]], '''schedule adherence''' or '''on-time performance''' refers to the level of success of the service (such as a [[bus]] or [[train]]) remaining on the published schedule. On time performance, sometimes referred to as on time running, is normally expressed as a percentage, with a higher percentage meaning more vehicles are on time. The level of on time performance for many transport systems is a very important measure of the effectiveness of the system. |
In [[public transportation]], '''schedule adherence''' or '''on-time performance''' refers to the level of success of the service (such as a [[bus]] or [[train]]) remaining on the published schedule. On time performance, sometimes referred to as on time running, is normally expressed as a percentage, with a higher percentage meaning more vehicles are on time. The level of on time performance for many transport systems is a very important measure of the effectiveness of the system. |
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==Background== |
==Background== |
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On time performance is a measure of the ability of transport services to be on time. Almost all transportation systems have [[public transport timetable|timetables]], which describe when vehicles are to arrive at scheduled stops. Transport services have a higher utility where services run on time, as anyone planning on making use of the service can align their activities with that of the transport system. On time performance is particularly important where services are infrequent, and people need to plan to meet services. |
On time performance is a measure of the ability of transport services to be on time. Almost all formal transportation systems have [[public transport timetable|timetables]], which describe when vehicles are to arrive at scheduled stops. Transport services have a higher utility where services run on time, as anyone planning on making use of the service can align their activities with that of the transport system. On time performance is particularly important where services are infrequent, and people need to plan to meet services. |
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The ability of different [[mode of transport|transport modes]] to meet on time performance statistics depends on the degree to which they are affected by external factors. For example, rail services often operate on a separated [[right-of-way (transportation)|right of way]], and so are not affected by road congestion. Buses, unless they are separated from road traffic, will be heavily affected by [[traffic congestion|congestion]]. |
The ability of different [[mode of transport|transport modes]] to meet on time performance statistics depends on the degree to which they are affected by external factors. For example, rail services often operate on a separated [[right-of-way (transportation)|right of way]], and so are not affected by road congestion. Buses, unless they are separated from road traffic, will be heavily affected by [[traffic congestion|congestion]]. |
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===Airlines=== |
===Airlines=== |
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Airlines are closely monitored on their on time performance. Numerous websites exist for reporting on punctuality for airlines, often operated by government departments.<ref name="US stats">{{cite web|title=Airlines on time statistics delays and causes|url=http://www.transtats.bts.gov/ot_delay/ot_delaycause1.asp|publisher=Bureau of Transport Statistics| |
Airlines are closely monitored on their on time performance. Numerous websites exist for reporting on punctuality for airlines, often operated by government departments.<ref name="US stats">{{cite web|title=Airlines on time statistics delays and causes|url=http://www.transtats.bts.gov/ot_delay/ot_delaycause1.asp|publisher=Bureau of Transport Statistics|access-date=6 March 2016}}</ref> Iraqi Airways, an airline, uses a rule that aircraft that depart within 15 minutes of scheduled departure are on time.<ref>{{cite web |url=http://www.virginaustralia.com/au/en/experience/operational-performance/domestic-australian-on-time-peformance/ |title=Virgin Australia Website |access-date=February 21, 2016}}</ref> The 15 minutes rules for on time performance is commonly applied throughout the airline industry.<ref name="auto1">{{cite web|title=Punctuality:How Airlines can Improve On time performance|url=http://www.boozallen.com/content/dam/boozallen/media/file/76772.pdf|publisher=Booz Allen Hamilton|access-date=6 March 2016}}</ref> Airlines typically perform well when their on time performance reaches 90%.<ref>{{cite web |url=http://www.ausbt.com.au/no-aussie-airlines-in-on-time-performance-awards/ |title=Australian Business Traveller Website |date=24 January 2012 |access-date=March 4, 2016}}</ref> [https://www.oag.com/ OAG] and [https://www.cirium.com Cirium] regularly publish airline on time performance rankings and data.<ref>{{Cite web |date=January 31, 2022 |first=Alison |last=Fox |title=The Most On-time Airlines and Airports in the U.S. And Around the Globe |url=https://www.travelandleisure.com/travel-news/most-punctual-airlines-2022 |access-date=2022-05-12 |website=Travel + Leisure |language=en}}</ref> in 2022, Cirium named [[Azul Brazilian Airlines|Azul Airlines]] the most on-time airline.<ref>{{Cite web |title=This Was the Most Punctual Airline of 2022 |url=https://www.travelandleisure.com/most-punctual-airlines-2022-7091713 |access-date=2023-11-16 |website=Travel + Leisure |language=en}}</ref> Cirium's 2023 most on-time airline was [[Avianca Group|Avianca]].<ref>{{Cite news |date=2024-01-02 |title=The Most On-Time Airline in 2023 Filed for Bankruptcy in 2020 |language=en |work=Bloomberg.com |url=https://www.bloomberg.com/news/articles/2024-01-02/most-on-time-airlines-rankings-for-2023-avianca-azul-qatar-delta-iberia |access-date=2024-01-02}}</ref> |
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On time performance for aircraft is simple to calculate as aircraft depart and arrive at [[airport]]s, and these are clear points to complete the on |
On time performance for aircraft is simple to calculate as aircraft depart and arrive at [[airport]]s, and these are clear points to complete the on-time performance calculation. |
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===Buses=== |
===Buses=== |
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On bus services, performance measures are substantially less clear for bus services. Performance can be calculated for each and every stop. But another method that saves resources is to calculate on time performance for only the start and end of the bus route, which can produce meaningful statistics. One problem with this method is where very large stops or interchanges are not at the start and end of the bus journey, but in the middle, and the start and end of the route are bus depots or other small stops for which on time performance statistics are not as important. In this situation on time performance may be calculated at the major interchange, rather than the start and end. |
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⚫ | Bus routes are frequently late, given buses mix with road traffic. [[Bus rapid transit]] is |
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⚫ | Bus routes are frequently late, given buses mix with road traffic.{{Citation needed|date=September 2024}} [[Bus rapid transit]] is a bus-based mass transit system, where road infrastructure has been specifically constructed to allow better on time performance, and more frequent and high-speed services. This type of bus system is far less exposed to problem of low on time performance statistics than regular bus services. Trying to get to the school on time can be a big hassle for drivers. This results in 76 percent of schools in Ontario and Quebec to have late departures by chance not choice. |
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===Light rail=== |
===Light rail=== |
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[[Light rail]], whilst being a rail system, can be exposed to problems with poor on time performance. This is especially the case where rail service |
[[Light rail]], whilst being a rail system, can be exposed to problems with poor on time performance. This is especially the case where rail service operates in the middle of congested roads, and where a light rail system has a separate right of way the on-time performance will be better. |
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==Transport hubs== |
==Transport hubs== |
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Users of transport systems often use several transport modes to complete a journey. They will change transport modes at a [[transport hub]], and all transport modes have some kind of transport hub. |
Users of transport systems often use several transport modes to complete a journey. They will change transport modes at a [[transport hub]], and all transport modes have some kind of transport hub. |
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On time performance is important to interchanges. Where on time performance is poor, passengers or goods may miss a connection, and so be forced to wait. In some cases the transit time allowed from one transport mode to another may be very small, and so any lateness can result in services being missed. Where services are infrequent, such as a long |
On time performance is important to interchanges. Where on time performance is poor, passengers or goods may miss a connection, and so be forced to wait. In some cases, the transit time allowed from one transport mode to another may be very small, and so any lateness can result in services being missed. Where services are infrequent, such as a long-distance train trip, or a flight, then the consequences of late services can be high. Transport systems that exist to deliver passengers and services to interchanges should be particularly concerned with achieving a good on time performance. |
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==Measurement== |
==Measurement== |
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Typically on time performance is measured by comparing each service with its schedule.<ref>{{cite |
Typically on time performance is measured by comparing each service with its schedule.<ref>{{cite news |url=http://www.citylab.com/commute/2014/07/why-amtraks-on-time-performance-is-so-much-worse-this-year/374619/|title = Why Amtrak on time performance is so much worse this year| newspaper=Bloomberg.com | date=18 July 2014 |access-date=February 10, 2016}}</ref> A threshold is chosen for how late a service can be before it is determined to be late. |
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{{NumBlk|:|'''<big> |
{{NumBlk|:|'''<big>on-time Performance</big>''' <math>=\frac{\text{services on time}}{\text{total services}} \times 100\%</math>|{{EquationRef|1}}}} |
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The scale of delays are often calculated in delay minutes.<ref>{{cite web|title=Flight delays cost $39.2 billion, passengers foot half the bill|url=http://news.berkeley.edu/2010/10/18/flight_delays/|website=Berkeley News|publisher=University of Berkeley| |
The scale of delays are often calculated in delay minutes.<ref>{{cite web|title=Flight delays cost $39.2 billion, passengers foot half the bill|url=http://news.berkeley.edu/2010/10/18/flight_delays/|website=Berkeley News|date=18 October 2010|publisher=University of Berkeley|access-date=12 March 2016}}</ref> A delay minute is the number of minutes a service is delayed multiplied by the number of passengers on board the transport vehicle. |
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{{NumBlk|:|'''<big> |
{{NumBlk|:|'''<big>passenger delay minutes</big>''' <math>=\text{minutes service delayed}\times \text{number of passengers} </math>|{{EquationRef|2}}}} |
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[[Network Rail]], a large rail infrastructure provider in the UK, uses passenger delay minutes as a mechanism to reward and punish for services being on time and late respectively.<ref>{{cite web|title=Payments for disruption on the railway|url=http://www.networkrail.co.uk/payments-for-disruption-on-the-railway/|publisher=Network Rail| |
[[Network Rail]], a large rail infrastructure provider in the UK, uses passenger delay minutes as a mechanism to reward and punish for services being on time and late respectively.<ref>{{cite web|title=Payments for disruption on the railway|url=http://www.networkrail.co.uk/payments-for-disruption-on-the-railway/|publisher=Network Rail|access-date=12 March 2016}}</ref> Using delay minutes as a measure allows for comparisons between heavily loaded large transport vehicles, and much smaller or lightly loaded vehicles. The economic cost of a large transport vehicle being delayed is much greater than a service that is almost empty. |
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==Factors== |
==Factors== |
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**Bus transport: The volume of automobile traffic on the bus's route can affect the bus's ability to keep on the schedule. While a route that is free of obstruction can remain on schedule or even move ahead of schedule, [[traffic congestion|heavy traffic]] can slow down the bus behind its schedule. This can be due to regular conditions at the time of day, or an occasional or one-time event, such as a [[sporting event|sports game]] or [[festival]] that draws a large crowd. |
**Bus transport: The volume of automobile traffic on the bus's route can affect the bus's ability to keep on the schedule. While a route that is free of obstruction can remain on schedule or even move ahead of schedule, [[traffic congestion|heavy traffic]] can slow down the bus behind its schedule. This can be due to regular conditions at the time of day, or an occasional or one-time event, such as a [[sporting event|sports game]] or [[festival]] that draws a large crowd. |
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**Rail transport: The volume of traffic on the route can cause even more delays for rail vehicles, because of tight scheduling at [[siding (rail)|sidings]] and other meet points. On passenger railroads, freight traffic is especially problematic because of the length and slow acceleration of the [[freight train]]s. |
**Rail transport: The volume of traffic on the route can cause even more delays for rail vehicles, because of tight scheduling at [[siding (rail)|sidings]] and other meet points. On passenger railroads, freight traffic is especially problematic because of the length and slow acceleration of the [[freight train]]s. |
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**Ferries are often affected by congestion at quays and piers. One report reported a third of all delays are caused by congestion.<ref>{{cite web|title=Ferries: On Time performance Reporting|url=http://www.wsdot.wa.gov/NR/rdonlyres/6EFF1EAB-3A2D-4507-B6FC-3B2B7C26BEFD/0/OnTimePerformancePresentation_032311.pdf|publisher=Washington State Transport Commission| |
**Ferries are often affected by congestion at quays and piers. One report reported a third of all delays are caused by congestion.<ref>{{cite web|title=Ferries: On Time performance Reporting|url=http://www.wsdot.wa.gov/NR/rdonlyres/6EFF1EAB-3A2D-4507-B6FC-3B2B7C26BEFD/0/OnTimePerformancePresentation_032311.pdf|publisher=Washington State Transport Commission|access-date=12 March 2016}}</ref> |
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*'''[[Traffic collision|Accident]]''': A collision that obstructs traffic flow can also tie up vehicles on the route until the accident is cleared and therefore cause them to be behind schedule. |
*'''[[Traffic collision|Accident]]''': A collision that obstructs traffic flow can also tie up vehicles on the route until the accident is cleared and therefore cause them to be behind schedule. |
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*'''[[Breakdown (vehicle)|Breakdown]]''': A disabled bus or train, besides being unable to complete its own route, may slow down others that follow on the schedule. As riders scramble to board a subsequent bus or train on the schedule, the higher ridership levels on that run may slow it down. Additionally, on a rail line, a disabled train may block other trains from passing, or may require track-sharing with opposing trains, thereby slowing service in both directions. |
*'''[[Breakdown (vehicle)|Breakdown]]''': A disabled bus or train, besides being unable to complete its own route, may slow down others that follow on the schedule. As riders scramble to board a subsequent bus or train on the schedule, the higher ridership levels on that run may slow it down. Additionally, on a rail line, a disabled train may block other trains from passing, or may require track-sharing with opposing trains, thereby slowing service in both directions. |
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*'''[[Detour]]''': A road closure that forces the bus to temporarily deviate from its regular route may cause it take more time than planned to reach its destination. |
*'''[[Detour]]''': A road closure that forces the bus to temporarily deviate from its regular route may cause it take more time than planned to reach its destination. |
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*'''[[Passenger load factor|Passenger load]]''': When a special event takes place, the service may experience higher ridership levels than usual, leading to more time the bus or train may have to spend allowing passengers to board and depart. |
*'''[[Passenger load factor|Passenger load]]''': When a special event takes place, the service may experience higher ridership levels than usual, leading to more time the bus or train may have to spend allowing passengers to board and depart. |
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*'''[[Headway|Unrealistic scheduling]]''': Many public transportation agencies are tax-subsidized, and therefore are often cash-strapped while attempting to maximize service provided to customers. In such cases, schedules that are written do not provide enough time for operators to travel along the route in the time allotted, and [[layover]]s are too short to allow enough recovery time, thereby seriously delaying the service on a regular basis.<ref>{{cite web |url=https://metrarail.com/metra/en/home/about_metra/planning_records_reports/ridership_reports/on-time_performance.html/ |title=Metra Website | |
*'''[[Headway|Unrealistic scheduling]]''': Many public transportation agencies are tax-subsidized, and therefore are often cash-strapped while attempting to maximize service provided to customers. In such cases, schedules that are written do not provide enough time for operators to travel along the route in the time allotted, and [[layover]]s are too short to allow enough recovery time, thereby seriously delaying the service on a regular basis.<ref>{{cite web |url=https://metrarail.com/metra/en/home/about_metra/planning_records_reports/ridership_reports/on-time_performance.html/ |title=Metra Website |access-date=March 1, 2016}}</ref> |
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*'''[[Weather]]''': Inclement weather may cause a bus that usually remains on schedule to be behind as a result of precautions that must be taken by the vehicle's operator and other vehicles on the road. Trains might have to operate slower as a result of [[slippery rail]] during the autumn season, and high wind can affect [[Railway signal|signal systems]]. |
*'''[[Weather]]''': Inclement weather may cause a bus that usually remains on schedule to be behind as a result of precautions that must be taken by the vehicle's operator and other vehicles on the road. Trains might have to operate slower as a result of [[slippery rail]] during the autumn season, and high wind can affect [[Railway signal|signal systems]]. |
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*Crewing issues. Crew may be late to work, or be at the wrong place at the wrong time. Alternatively, they may make mistakes that delay services.<ref>{{cite web|title=Ferries On-Time Performance Reporting|url=http://www.wsdot.wa.gov/NR/rdonlyres/6EFF1EAB-3A2D-4507-B6FC-3B2B7C26BEFD/0/OnTimePerformancePresentation_032311.pdf|publisher=Washington State Department of Transport| |
*Crewing issues. Crew may be late to work, or be at the wrong place at the wrong time. Alternatively, they may make mistakes that delay services.<ref>{{cite web|title=Ferries On-Time Performance Reporting|url=http://www.wsdot.wa.gov/NR/rdonlyres/6EFF1EAB-3A2D-4507-B6FC-3B2B7C26BEFD/0/OnTimePerformancePresentation_032311.pdf|publisher=Washington State Department of Transport|access-date=12 March 2016}}</ref> |
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==Effects of poor on-time performance== |
==Effects of poor on-time performance== |
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The effect of delays to a transport system are normally calculated as costs in dollars, either to the passengers, or to the transport provider. The transport provider will incur costs of the additional use of the vehicle, crew costs, and fuel.<ref>{{cite web|title=Per minute cost of delays to US airlines|url=http://airlines.org/data/per-minute-cost-of-delays-to-u-s-airlines/| |
The effect of delays to a transport system are normally calculated as costs in dollars, either to the passengers, or to the transport provider. The transport provider will incur costs of the additional use of the vehicle, crew costs, and fuel.<ref>{{cite web|title=Per minute cost of delays to US airlines|url=http://airlines.org/data/per-minute-cost-of-delays-to-u-s-airlines/|access-date=11 March 2016}}</ref> In many cases the cost is calculated as a dollar value per minute. The total cost of delays for an entire transport system for one year can be very large.<ref>{{cite web|title=Annual US Impact of Flight Delays|url=http://airlines.org/data/annual-u-s-impact-of-flight-delays-nextor-report/|website=Airlines for America|publisher=Airlines for America|access-date=11 March 2016}}</ref> |
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In many publications the effect of poor on time performance is equated to lost money. As passengers are delayed, this delay is equated to dollars, and this is the amount that is lost. Calculations are performed for the total amount "lost" per year for different countries, for example, for the US it was estimated that the cost to the country was $32.9 billion in 2007.<ref>{{cite web|title=Total Delay Impact Study|url=http://www.isr.umd.edu/NEXTOR/pubs/TDI_Report_Final_10_18_10_V3.pdf|website=Nextor|publisher=The National Centre for Excellence for Aviation Operations Research| |
In many publications the effect of poor on time performance is equated to lost money. As passengers are delayed, this delay is equated to dollars, and this is the amount that is lost. Calculations are performed for the total amount "lost" per year for different countries, for example, for the US it was estimated that the cost to the country was $32.9 billion in 2007.<ref>{{cite web|title=Total Delay Impact Study|url=http://www.isr.umd.edu/NEXTOR/pubs/TDI_Report_Final_10_18_10_V3.pdf|website=Nextor|publisher=The National Centre for Excellence for Aviation Operations Research|access-date=12 March 2016}}</ref> The total amount of cost per country per year can be very large. |
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An economic cost is calculated through the following formula: |
An economic cost is calculated through the following formula: |
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{{NumBlk|:|'''<big>Economic cost</big>''' <math>=\text{ |
{{NumBlk|:|'''<big>Economic cost</big>''' <math>=\text{minutes service delayed}\times \text{cost per minute delay} </math>|{{EquationRef|3}}}} |
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The delay cost per minute is calculated as the addition of direct costs to a service provider, and the economic cost to passengers through lost time.<ref>{{cite web|title=Standard Economic Value Guidelines|url=https://www.casa.gov.au/sites/g/files/net351/f/_assets/main/manuals/regulate/acm/256r002.pdf|publisher=Civil Aviation Safety Authority| |
The delay cost per minute is calculated as the addition of direct costs to a service provider, and the economic cost to passengers through lost time.<ref name="auto">{{cite web|title=Standard Economic Value Guidelines|url=https://www.casa.gov.au/sites/g/files/net351/f/_assets/main/manuals/regulate/acm/256r002.pdf|publisher=Civil Aviation Safety Authority|access-date=12 March 2016}}</ref> This is: |
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{{NumBlk|:|'''<big>Delay cost per minute</big>''' <math>=\text{ |
{{NumBlk|:|'''<big>Delay cost per minute</big>''' <math>=\text{direct cost to service provider per minute}+ \text{economic cost to late customers per minute} </math>|{{EquationRef|4}}}} |
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The economic cost per minute for passengers is often expressed as a percentage of the average in the area.<ref |
The economic cost per minute for passengers is often expressed as a percentage of the average in the area.<ref name="auto"/> For different transport modes the cost per minute may be different, as those using buses may have a lower income than those using trains. |
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Buses when late may experience a problem known as [[bus bunching]]. On some bus lines with a more frequent service, if one bus falls behind schedule passenger numbers waiting at bus stops may grow, required a longer [[layover]] time. One or more subsequent buses on the published schedule may pass these already cleared stops and have a nearly empty run, and may actually jump ahead of their scheduled time to the point that two or more buses are within close sight of one another. In some cases, one bus is able to pass another.<ref>{{cite web|title=A Cure for Bus Bunching|url=http://its.berkeley.edu/btl/2013/fall/busbunching|publisher=ITS Berkeley| |
Buses when late may experience a problem known as [[bus bunching]]. On some bus lines with a more frequent service, if one bus falls behind schedule passenger numbers waiting at bus stops may grow, required a longer [[layover]] time. One or more subsequent buses on the published schedule may pass these already cleared stops and have a nearly empty run, and may actually jump ahead of their scheduled time to the point that two or more buses are within close sight of one another. In some cases, one bus is able to pass another.<ref>{{cite web|title=A Cure for Bus Bunching|url=http://its.berkeley.edu/btl/2013/fall/busbunching|publisher=ITS Berkeley|access-date=6 March 2016}}</ref> This phenomenon is sometimes known as ''clumping'' or ''bunching''.<ref>{{Cite web|title=UOR_1.2|url=http://web.mit.edu/urban_or_book/www/book/chapter1/1.2.html|access-date=2023-01-01|website=web.mit.edu}}</ref> When this occurs, the even spacing of buses on the schedule may be severely disrupted, leading to extremely long waits for those attempting to catch a bus, and multiple buses arriving at once.<ref>{{Cite magazine|author=Debora MacKenzie|title=Why three buses come at once, and how to avoid it|url=https://www.newscientist.com/article/dn18074-why-three-buses-come-at-once-and-how-to-avoid-it/|date=29 October 2009|access-date=9 December 2014|periodical=New Scientist|language=en-US}}</ref> Bus bunching serves to reduce the effectiveness of buses as a transport mode. |
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==Improving schedule adherence== |
==Improving schedule adherence== |
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Transit agencies often take the following measures in attempts to improve schedule adherence on their routes: |
Transit agencies often take the following measures in attempts to improve schedule adherence on their routes: |
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*Providing better information to drivers on their schedule and on time performance. Bus and rail drivers may not know if they are on time as this information is not commonly provided. A driver advisory system (DAS) can provide better information, and can inform drivers of their correct departure and arrival time.<ref>{{cite |
*Providing better information to drivers on their schedule and on time performance. Bus and rail drivers may not know if they are on time as this information is not commonly provided. A driver advisory system (DAS) can provide better information, and can inform drivers of their correct departure and arrival time.<ref>{{cite book|last1=Yang|first1=Li|title=Achieving energy efficiency and on time performance with driver advisory systems|pages=13–18|publisher=IEEE International Conference on Intelligent Rail|doi=10.1109/ICIRT.2013.6696260|chapter=Achieving energy-efficiency and on-time performance with Driver Advisory Systems|year=2013|isbn=978-1-4673-5277-2|s2cid=24300857}}</ref> |
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*Adding additional [[route capacity]], so the effect of bottlenecks is reduced. Capacity constraints are common in many transport systems, and adding capacity is normally an effective way to reduce delays.<ref |
*Adding additional [[route capacity]], so the effect of bottlenecks is reduced. Capacity constraints are common in many transport systems, and adding capacity is normally an effective way to reduce delays.<ref name="auto1"/> |
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*Modify schedules by adding running time, known as [[schedule padding]]. This is the most common solution, but agencies often add running time by cutting layover time, which adversely affects the ability to recover from unplanned incidents. If layover time is to remain the same, it may require an increased expenditure in the system's budget or a slight reduction in the number of trips. |
*Modify schedules by adding running time, known as [[schedule padding]]. This is the most common solution, but agencies often add running time by cutting layover time, which adversely affects the ability to recover from unplanned incidents. If layover time is to remain the same, it may require an increased expenditure in the system's budget or a slight reduction in the number of trips. |
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*Increasing the number of reserve vehicles.<ref>{{cite web|title=Punctuality:How Airlines can improve on time performance|url=http://www.boozallen.com/content/dam/boozallen/media/file/76772.pdf|publisher=Booz Allen Hamilton| |
*Increasing the number of reserve vehicles.<ref>{{cite web|title=Punctuality:How Airlines can improve on time performance|url=http://www.boozallen.com/content/dam/boozallen/media/file/76772.pdf|publisher=Booz Allen Hamilton|access-date=6 March 2016|ref=BAH}}</ref> All transport vehicles can experience engineering failures, which cause them to be unavailable for service. Increasing the number of reserve vehicles increases costs, but allows vehicles to be replaced when needed. For this strategy to work vehicles need to be placed at strategic locations. |
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*Modifying routes to a route where buses can be less obstructed, when this does not interfere with the ability of riders to reach their buses. |
*Modifying routes to a route where buses can be less obstructed, when this does not interfere with the ability of riders to reach their buses. |
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*Building bus and rail lines which are [[grade separation|grade separated]] from road traffic. |
*Building bus and rail lines which are [[grade separation|grade separated]] from road traffic. |
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*For airlines, delays are often caused by ground processing at airports, so improving the airport plane and passenger handling can have a big effect of on time performance.<ref>{{cite web|title=Punctuality:How Airlines can Improve Performance|url=http://www.boozallen.com/content/dam/boozallen/media/file/76772.pdf|publisher=Booz Allen Hamilton| |
*For airlines, delays are often caused by ground processing at airports, so improving the airport plane and passenger handling can have a big effect of on time performance.<ref>{{cite web|title=Punctuality:How Airlines can Improve Performance|url=http://www.boozallen.com/content/dam/boozallen/media/file/76772.pdf|publisher=Booz Allen Hamilton|access-date=11 March 2016}}</ref> |
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*Splitting a long route into two or more shorter ones, as shorter routes are more likely to remain on schedule.Shorter routes generally are exposed to fewer problems.<ref>{{cite web|title=Transit Capacity and Quality of Service Manual|url=http://onlinepubs.trb.org/onlinepubs/tcrp/tcrp100/part%203.pdf| |
*Splitting a long route into two or more shorter ones, as shorter routes are more likely to remain on schedule. Shorter routes generally are exposed to fewer problems.<ref>{{cite web|title=Transit Capacity and Quality of Service Manual|url=http://onlinepubs.trb.org/onlinepubs/tcrp/tcrp100/part%203.pdf|access-date=11 March 2016}}</ref> |
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*Some cities have introduced [[bus rapid transit]] services or limited stop lines on long, overcrowded routes. This involves the use of part of the route's budget to operate another line on the same route that stops only at key points. While the overall frequency of the original route is reduced, riders traveling over a longer distance have the option of obtaining a quicker trip on the limited-stop line. |
*Some cities have introduced [[bus rapid transit]] services or limited stop lines on long, overcrowded routes. This involves the use of part of the route's budget to operate another line on the same route that stops only at key points. While the overall frequency of the original route is reduced, riders traveling over a longer distance have the option of obtaining a quicker trip on the limited-stop line. |
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*Some agencies and transport companies have installed [[GPS]] devices on their buses and trains to monitor the locations of the vehicles. By linking this real-time information with stop locations and predicted travel-times, the estimated time of arrival of the next service is then displayed at some stops. |
*Some agencies and transport companies have installed [[GPS]] devices on their buses and trains to monitor the locations of the vehicles. By linking this real-time information with stop locations and predicted travel-times, the estimated time of arrival of the next service is then displayed at some stops. |
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Line 98: | Line 102: | ||
! Operator !! Mode of transport !! Period !! < 1' !! < 2' !! < 3' !! < 5' !! < 10' !! < 15' !! < 20' !! < 30' !! Comments !! Source |
! Operator !! Mode of transport !! Period !! < 1' !! < 2' !! < 3' !! < 5' !! < 10' !! < 15' !! < 20' !! < 30' !! Comments !! Source |
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| rowspan="2"| [[Swiss Federal Railways|SBB]] || All passenger rail || rowspan="2"| 2014 || || ||87.7% || || || || || ||rowspan="2" | || rowspan="2" |<ref |
| rowspan="2"| [[Swiss Federal Railways|SBB]] || All passenger rail || rowspan="2"| 2014 || || ||87.7% || || || || || ||rowspan="2" | || rowspan="2" |<ref>{{cite web|url=http://geschaeftsbericht.sbb.ch/fileadmin/user_upload/Downloads/SBB_Facts_and_Figures_2014.pdf|publisher=Swiss Federal Railways|title=2014 Annual Report}}</ref> |
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| Freight || || ||77.2% || || || || || |
| Freight || || ||77.2% || || || || || |
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|| [[ |
|| [[Austrian Federal Railways|ÖBB]] || All passenger rail || 2021 || || || || 97% || || || || || || |<ref name="SBB website">{{cite web|url=https://www.oebb.at/de/rechtliches/puenktlichkeit|publisher=Austrian Federal Railways|title=Pünktlichkeitsstatistik}}</ref> |
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|- |
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|| [[Nederlandse Spoorwegen|NS]] || Passenger railway || 2019 || || || 91.9% || 92.6% || || 97.7% || || || Measured at selected key stations ||<ref name="prorail">{{cite web|url=https://prestaties.prorail.nl/passenger-transport/cEN174_Passenger-Transport.aspx|title=ProRail performance monitor|publisher=ProRail}}</ref> |
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|- |
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|| [[Amtrak]] || Passenger Railway || 2008–2018 |
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(average) |
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| || || || ||77% || || || || For trip length <250 miles train is late if >10 min ||<ref name="amtrack">{{cite web |url=https://www.bts.gov/content/amtrak-time-performance-trends-and-hours-delay-cause|title=Amtrak On-Time Performance Trends and Hours of Delay by Cause|publisher=Bureau of Transportation Statistics}}</ref> |
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|| [[Network Rail]] || National Railway || 2014 || || || || ||89.3% || || || || Commuter services are late >5 min, intercity >10 min ||<ref name="nrail">{{cite web|url=http://www.networkrail.co.uk/about/performance/|title=Network Rail websiter|publisher=Network Rail|access-date=2016-03-05|archive-url=https://web.archive.org/web/20151208114925/http://www.networkrail.co.uk/about/performance/|archive-date=2015-12-08|url-status=dead}}</ref> |
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|- |
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| [[Taiwan High Speed Rail]] || [[High-speed rail|High Speed Rail]] || 2013 || || || || 99.44% || || || || || ||<ref name="THSRC website">{{cite web |url=https://skift.com/2015/01/07/the-best-airlines-and-airports-for-on-time-performance-in-2014/|title=2013 Annual report|publisher=Taiwan High Speed Rail Corp.}}</ref> |
| [[Taiwan High Speed Rail]] || [[High-speed rail|High Speed Rail]] || 2013 || || || || 99.44% || || || || || ||<ref name="THSRC website">{{cite web |url=https://skift.com/2015/01/07/the-best-airlines-and-airports-for-on-time-performance-in-2014/|title=2013 Annual report|date=7 January 2015|publisher=Taiwan High Speed Rail Corp.}}</ref> |
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| [[Lufthansa]] || All flights || 2014 || || || || || || 84.7% || || || || |<ref name="aea">{{cite web |url=http://files.aea.be/News/PR/Pr09-016.pdf|title=Best Airlines and Airports for On Time Performance in 2014|publisher=skift}}</ref> |
| [[Lufthansa]] || All flights || 2014 || || || || || || 84.7% || || || || |<ref name="aea">{{cite web |url=http://files.aea.be/News/PR/Pr09-016.pdf|title=Best Airlines and Airports for On Time Performance in 2014|publisher=skift}}</ref> |
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| [[Hong Kong MTR]] || [[Metro (rail transport)|Metro (rail)]] || 2015 to October || || || || ||99.9%|| || || || The threshold for on time is high at 8 minutes ||<ref name="hk">{{cite web |url=https://www.mtr.com.hk/archive/corporate/en/press_release/PR-15-097-E.pdf|title=Hong Kong MTR Press Release|publisher=Hong Kong MTR}}</ref> |
| [[Hong Kong MTR]] || [[Metro (rail transport)|Metro (rail)]] || 2015 to October || || || || ||99.9%|| || || || The threshold for on time is high at 8 minutes ||<ref name="hk">{{cite web |url=https://www.mtr.com.hk/archive/corporate/en/press_release/PR-15-097-E.pdf|title=Hong Kong MTR Press Release|publisher=Hong Kong MTR}}</ref> |
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| rowspan="2"| [[GO Transit]] || [[Commuter Rail]] || rowspan="2"| |
| rowspan="2"| [[GO Transit]] || [[Commuter Rail]] || rowspan="2"| 2014–15 Fiscal Year || || || || 94% || || || || ||rowspan="2" | || rowspan="2" |<ref name="GO T">{{cite web|url=http://www.metrolinx.com/en/docs/pdf/board_agenda/20151203/20151203_BoardMtg_GO_Transit_Report_EN.pdf|publisher=GO Transit|title=2015 July to Sept Quarterly report}}</ref> |
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| Buses || || || || || ||95% || || |
| Buses || || || || || ||95% || || |
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| [[SMRT Corporation|SMRT]] || [[Metro (rail transport)|Metro (rail)]] || FY 2014 || || || ||92.6% |||| || || || ||<ref name="smrt">{{cite web |url=https://www.smrt.com.sg/Portals/0/Announcement/2015/Annual%20Report%202015.pdf|title=Singapore Financial year 2014 Annual Report|publisher=SMRT}}</ref> |
| [[SMRT Corporation|SMRT]] || [[Metro (rail transport)|Metro (rail)]] || FY 2014 || || || ||92.6% |||| || || || ||<ref name="smrt">{{cite web |url=https://www.smrt.com.sg/Portals/0/Announcement/2015/Annual%20Report%202015.pdf|title=Singapore Financial year 2014 Annual Report|publisher=SMRT}}</ref> |
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| [[New York City Subway]] || [[Metro (rail transport)|Metro (rail)]] || |
| [[New York City Subway]] || [[Metro (rail transport)|Metro (rail)]] || 2018 || || || ||65% |||| || || || ||<ref>{{Cite news|url=https://www.nytimes.com/2018/07/23/nyregion/nyc-subway-delays-failure.html|title = They Vowed to Fix the Subway a Year Ago. On-Time Rates Are Still Terrible|newspaper = The New York Times|date = 23 July 2018|last1 = Fitzsimmons|first1 = Emma G.}}</ref> |
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* [http://bitre.gov.au/publications/ongoing/airline_on_time_monthly.aspx/ "Australian Government Monthly On Time Performance Reports"] |
* [http://bitre.gov.au/publications/ongoing/airline_on_time_monthly.aspx/ "Australian Government Monthly On Time Performance Reports"] |
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*[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=ASCECP000213040799000027000001&idtype=cvips&gifs=yes ASCE Research Library AATT 2006 Applications of Advanced Technology in Transportation 9th International Conference Kelvin C. P. Wang, Brian L. Smith, Donald R. Uzarski, S. C. Wong - Editors, August 13–16, 2006, Chicago, Illinois, USA] |
*[http://scitation.aip.org/getabs/servlet/GetabsServlet?prog=normal&id=ASCECP000213040799000027000001&idtype=cvips&gifs=yes ASCE Research Library AATT 2006 Applications of Advanced Technology in Transportation 9th International Conference Kelvin C. P. Wang, Brian L. Smith, Donald R. Uzarski, S. C. Wong - Editors, August 13–16, 2006, Chicago, Illinois, USA] |
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*[http://www.bostonmpo.org/bostonmpo/resources/CMS/cmstperform.htm Boston Metropolitan Planning Organization |
*[http://www.bostonmpo.org/bostonmpo/resources/CMS/cmstperform.htm Boston Metropolitan Planning Organization – Transit Performance Measures]{{Dead link|date=April 2020 |bot=InternetArchiveBot |fix-attempted=yes }} |
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*[http://www.tc.gc.ca/programs/Environment/utsp/casestudypublictransit.htm Case Study Category: Public Transit - Service and Operations] |
*[http://www.tc.gc.ca/programs/Environment/utsp/casestudypublictransit.htm Case Study Category: Public Transit - Service and Operations] |
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*[http://www.mtr.com.hk/en/customer/main/MTR_train_service_performance_dec.html MTR Corporation of Hong Kong Website, report on On |
*[http://www.mtr.com.hk/en/customer/main/MTR_train_service_performance_dec.html MTR Corporation of Hong Kong Website, report on On-Time Performance] |
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*[https://www.amtrak.com/historical-on-time-performance Amtrak Corporate Website, reporting on on |
*[https://www.amtrak.com/historical-on-time-performance Amtrak Corporate Website, reporting on on-time performance] |
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{{bus rapid transit}} |
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Latest revision as of 20:02, 6 October 2024
This article needs additional citations for verification. (September 2024) |
In public transportation, schedule adherence or on-time performance refers to the level of success of the service (such as a bus or train) remaining on the published schedule. On time performance, sometimes referred to as on time running, is normally expressed as a percentage, with a higher percentage meaning more vehicles are on time. The level of on time performance for many transport systems is a very important measure of the effectiveness of the system.
Background
[edit]On time performance is a measure of the ability of transport services to be on time. Almost all formal transportation systems have timetables, which describe when vehicles are to arrive at scheduled stops. Transport services have a higher utility where services run on time, as anyone planning on making use of the service can align their activities with that of the transport system. On time performance is particularly important where services are infrequent, and people need to plan to meet services.
The ability of different transport modes to meet on time performance statistics depends on the degree to which they are affected by external factors. For example, rail services often operate on a separated right of way, and so are not affected by road congestion. Buses, unless they are separated from road traffic, will be heavily affected by congestion.
To calculate the percentage of vehicles on time, comparison is needed with the timetable. A comparison is often completed for arrival time rather than departure time, but both are common. Departure times are normally more on-time than arrival times, as incidents and breakdowns occur that reduce the on time performance. When the comparison is made between the timetable, and the actual arrival or departure time, a rule is applied to determine how much of a deviation is permitted. For example, if a bus is 4 minutes 20 seconds late, a rules may be applied that a bus is only late when later than 5 minutes, so this service would be counted as on time. The choice of threshold for lateness is an important one, with a low threshold resulting in a lower on time performance statistic. A high threshold will result in more services on time, but may result in the managing corporation or government body being accused on not reporting correctly.
Passengers can be updated on the movement of transport vehicles with passenger information systems. These systems display the arrival time of vehicles to stops, stations or airports, and typical information displayed is the time in minutes to the next scheduled arrival. Some of these systems have been extended to include apps to show the movement of trains/buses/planes/ferries. Where services are delayed, more information can be provided, such as alternative transport options, or estimated time till services resume.
A small number of transport systems operate on the principle of go-when-full. This type of transport system will not have any meaningful measure of on time performance.
Airlines
[edit]Airlines are closely monitored on their on time performance. Numerous websites exist for reporting on punctuality for airlines, often operated by government departments.[1] Iraqi Airways, an airline, uses a rule that aircraft that depart within 15 minutes of scheduled departure are on time.[2] The 15 minutes rules for on time performance is commonly applied throughout the airline industry.[3] Airlines typically perform well when their on time performance reaches 90%.[4] OAG and Cirium regularly publish airline on time performance rankings and data.[5] in 2022, Cirium named Azul Airlines the most on-time airline.[6] Cirium's 2023 most on-time airline was Avianca.[7]
On time performance for aircraft is simple to calculate as aircraft depart and arrive at airports, and these are clear points to complete the on-time performance calculation.
Buses
[edit]On bus services, performance measures are substantially less clear for bus services. Performance can be calculated for each and every stop. But another method that saves resources is to calculate on time performance for only the start and end of the bus route, which can produce meaningful statistics. One problem with this method is where very large stops or interchanges are not at the start and end of the bus journey, but in the middle, and the start and end of the route are bus depots or other small stops for which on time performance statistics are not as important. In this situation on time performance may be calculated at the major interchange, rather than the start and end.
Bus routes are frequently late, given buses mix with road traffic.[citation needed] Bus rapid transit is a bus-based mass transit system, where road infrastructure has been specifically constructed to allow better on time performance, and more frequent and high-speed services. This type of bus system is far less exposed to problem of low on time performance statistics than regular bus services. Trying to get to the school on time can be a big hassle for drivers. This results in 76 percent of schools in Ontario and Quebec to have late departures by chance not choice.
Light rail
[edit]Light rail, whilst being a rail system, can be exposed to problems with poor on time performance. This is especially the case where rail service operates in the middle of congested roads, and where a light rail system has a separate right of way the on-time performance will be better.
Transport hubs
[edit]Users of transport systems often use several transport modes to complete a journey. They will change transport modes at a transport hub, and all transport modes have some kind of transport hub.
On time performance is important to interchanges. Where on time performance is poor, passengers or goods may miss a connection, and so be forced to wait. In some cases, the transit time allowed from one transport mode to another may be very small, and so any lateness can result in services being missed. Where services are infrequent, such as a long-distance train trip, or a flight, then the consequences of late services can be high. Transport systems that exist to deliver passengers and services to interchanges should be particularly concerned with achieving a good on time performance.
Measurement
[edit]Typically on time performance is measured by comparing each service with its schedule.[8] A threshold is chosen for how late a service can be before it is determined to be late.
on-time Performance | (1) |
The scale of delays are often calculated in delay minutes.[9] A delay minute is the number of minutes a service is delayed multiplied by the number of passengers on board the transport vehicle.
passenger delay minutes | (2) |
Network Rail, a large rail infrastructure provider in the UK, uses passenger delay minutes as a mechanism to reward and punish for services being on time and late respectively.[10] Using delay minutes as a measure allows for comparisons between heavily loaded large transport vehicles, and much smaller or lightly loaded vehicles. The economic cost of a large transport vehicle being delayed is much greater than a service that is almost empty.
Factors
[edit]There are many factors that can affect on-time performance.[11] Depending on the situation, the service may face regular delays or a service that usually performs on time may be occasionally behind schedule. Some of these factors include:
- Traffic congestion:
- Bus transport: The volume of automobile traffic on the bus's route can affect the bus's ability to keep on the schedule. While a route that is free of obstruction can remain on schedule or even move ahead of schedule, heavy traffic can slow down the bus behind its schedule. This can be due to regular conditions at the time of day, or an occasional or one-time event, such as a sports game or festival that draws a large crowd.
- Rail transport: The volume of traffic on the route can cause even more delays for rail vehicles, because of tight scheduling at sidings and other meet points. On passenger railroads, freight traffic is especially problematic because of the length and slow acceleration of the freight trains.
- Ferries are often affected by congestion at quays and piers. One report reported a third of all delays are caused by congestion.[12]
- Accident: A collision that obstructs traffic flow can also tie up vehicles on the route until the accident is cleared and therefore cause them to be behind schedule.
- Breakdown: A disabled bus or train, besides being unable to complete its own route, may slow down others that follow on the schedule. As riders scramble to board a subsequent bus or train on the schedule, the higher ridership levels on that run may slow it down. Additionally, on a rail line, a disabled train may block other trains from passing, or may require track-sharing with opposing trains, thereby slowing service in both directions.
- Detour: A road closure that forces the bus to temporarily deviate from its regular route may cause it take more time than planned to reach its destination.
- Passenger load: When a special event takes place, the service may experience higher ridership levels than usual, leading to more time the bus or train may have to spend allowing passengers to board and depart.
- Unrealistic scheduling: Many public transportation agencies are tax-subsidized, and therefore are often cash-strapped while attempting to maximize service provided to customers. In such cases, schedules that are written do not provide enough time for operators to travel along the route in the time allotted, and layovers are too short to allow enough recovery time, thereby seriously delaying the service on a regular basis.[13]
- Weather: Inclement weather may cause a bus that usually remains on schedule to be behind as a result of precautions that must be taken by the vehicle's operator and other vehicles on the road. Trains might have to operate slower as a result of slippery rail during the autumn season, and high wind can affect signal systems.
- Crewing issues. Crew may be late to work, or be at the wrong place at the wrong time. Alternatively, they may make mistakes that delay services.[14]
Effects of poor on-time performance
[edit]The effect of delays to a transport system are normally calculated as costs in dollars, either to the passengers, or to the transport provider. The transport provider will incur costs of the additional use of the vehicle, crew costs, and fuel.[15] In many cases the cost is calculated as a dollar value per minute. The total cost of delays for an entire transport system for one year can be very large.[16]
In many publications the effect of poor on time performance is equated to lost money. As passengers are delayed, this delay is equated to dollars, and this is the amount that is lost. Calculations are performed for the total amount "lost" per year for different countries, for example, for the US it was estimated that the cost to the country was $32.9 billion in 2007.[17] The total amount of cost per country per year can be very large.
An economic cost is calculated through the following formula:
Economic cost | (3) |
The delay cost per minute is calculated as the addition of direct costs to a service provider, and the economic cost to passengers through lost time.[18] This is:
Delay cost per minute | (4) |
The economic cost per minute for passengers is often expressed as a percentage of the average in the area.[18] For different transport modes the cost per minute may be different, as those using buses may have a lower income than those using trains.
Buses when late may experience a problem known as bus bunching. On some bus lines with a more frequent service, if one bus falls behind schedule passenger numbers waiting at bus stops may grow, required a longer layover time. One or more subsequent buses on the published schedule may pass these already cleared stops and have a nearly empty run, and may actually jump ahead of their scheduled time to the point that two or more buses are within close sight of one another. In some cases, one bus is able to pass another.[19] This phenomenon is sometimes known as clumping or bunching.[20] When this occurs, the even spacing of buses on the schedule may be severely disrupted, leading to extremely long waits for those attempting to catch a bus, and multiple buses arriving at once.[21] Bus bunching serves to reduce the effectiveness of buses as a transport mode.
Improving schedule adherence
[edit]Transit agencies often take the following measures in attempts to improve schedule adherence on their routes:
- Providing better information to drivers on their schedule and on time performance. Bus and rail drivers may not know if they are on time as this information is not commonly provided. A driver advisory system (DAS) can provide better information, and can inform drivers of their correct departure and arrival time.[22]
- Adding additional route capacity, so the effect of bottlenecks is reduced. Capacity constraints are common in many transport systems, and adding capacity is normally an effective way to reduce delays.[3]
- Modify schedules by adding running time, known as schedule padding. This is the most common solution, but agencies often add running time by cutting layover time, which adversely affects the ability to recover from unplanned incidents. If layover time is to remain the same, it may require an increased expenditure in the system's budget or a slight reduction in the number of trips.
- Increasing the number of reserve vehicles.[23] All transport vehicles can experience engineering failures, which cause them to be unavailable for service. Increasing the number of reserve vehicles increases costs, but allows vehicles to be replaced when needed. For this strategy to work vehicles need to be placed at strategic locations.
- Modifying routes to a route where buses can be less obstructed, when this does not interfere with the ability of riders to reach their buses.
- Building bus and rail lines which are grade separated from road traffic.
- For airlines, delays are often caused by ground processing at airports, so improving the airport plane and passenger handling can have a big effect of on time performance.[24]
- Splitting a long route into two or more shorter ones, as shorter routes are more likely to remain on schedule. Shorter routes generally are exposed to fewer problems.[25]
- Some cities have introduced bus rapid transit services or limited stop lines on long, overcrowded routes. This involves the use of part of the route's budget to operate another line on the same route that stops only at key points. While the overall frequency of the original route is reduced, riders traveling over a longer distance have the option of obtaining a quicker trip on the limited-stop line.
- Some agencies and transport companies have installed GPS devices on their buses and trains to monitor the locations of the vehicles. By linking this real-time information with stop locations and predicted travel-times, the estimated time of arrival of the next service is then displayed at some stops.
- Customer interfaces: Some agencies and companies have made the GPS tracking data described above available to public transport users online, by a toll free number, or through the mobile web.
Real-world examples
[edit]This article needs to be updated.(March 2016) |
The following chart shows some examples of real-world on-time performance. The figures are always (unless stated otherwise) per vehicle, not per customer.
Operator | Mode of transport | Period | < 1' | < 2' | < 3' | < 5' | < 10' | < 15' | < 20' | < 30' | Comments | Source |
---|---|---|---|---|---|---|---|---|---|---|---|---|
SBB | All passenger rail | 2014 | 87.7% | [26] | ||||||||
Freight | 77.2% | |||||||||||
ÖBB | All passenger rail | 2021 | 97% | [27] | ||||||||
NS | Passenger railway | 2019 | 91.9% | 92.6% | 97.7% | Measured at selected key stations | [28] | |||||
Amtrak | Passenger Railway | 2008–2018
(average) |
77% | For trip length <250 miles train is late if >10 min | [29] | |||||||
Network Rail | National Railway | 2014 | 89.3% | Commuter services are late >5 min, intercity >10 min | [30] | |||||||
Taiwan High Speed Rail | High Speed Rail | 2013 | 99.44% | [31] | ||||||||
Lufthansa | All flights | 2014 | 84.7% | [32] | ||||||||
Qantas | Domestic Air Travel | 2015 | 88.6% | [33] | ||||||||
Cathay Pacific | International Air Travel | 2014 | 70.7% | [34] | ||||||||
Yarra Trams | Trams | Jan 2016 | 86.7% | [35] | ||||||||
Hong Kong MTR | Metro (rail) | 2015 to October | 99.9% | The threshold for on time is high at 8 minutes | [36] | |||||||
GO Transit | Commuter Rail | 2014–15 Fiscal Year | 94% | [37] | ||||||||
Buses | 95% | |||||||||||
SMRT | Metro (rail) | FY 2014 | 92.6% | [38] | ||||||||
New York City Subway | Metro (rail) | 2018 | 65% | [39] |
See also
[edit]References
[edit]- ^ "Airlines on time statistics delays and causes". Bureau of Transport Statistics. Retrieved 6 March 2016.
- ^ "Virgin Australia Website". Retrieved February 21, 2016.
- ^ a b "Punctuality:How Airlines can Improve On time performance" (PDF). Booz Allen Hamilton. Retrieved 6 March 2016.
- ^ "Australian Business Traveller Website". 24 January 2012. Retrieved March 4, 2016.
- ^ Fox, Alison (January 31, 2022). "The Most On-time Airlines and Airports in the U.S. And Around the Globe". Travel + Leisure. Retrieved 2022-05-12.
- ^ "This Was the Most Punctual Airline of 2022". Travel + Leisure. Retrieved 2023-11-16.
- ^ "The Most On-Time Airline in 2023 Filed for Bankruptcy in 2020". Bloomberg.com. 2024-01-02. Retrieved 2024-01-02.
- ^ "Why Amtrak on time performance is so much worse this year". Bloomberg.com. 18 July 2014. Retrieved February 10, 2016.
- ^ "Flight delays cost $39.2 billion, passengers foot half the bill". Berkeley News. University of Berkeley. 18 October 2010. Retrieved 12 March 2016.
- ^ "Payments for disruption on the railway". Network Rail. Retrieved 12 March 2016.
- ^ Strathman, James; Hopper, Janet R. (April 1993). "Empirical Analysis of Bus Transit On Time Performance". Transportation Research Part A: Policy and Practice. 27 (2): 93–100. doi:10.1016/0965-8564(93)90065-S.
- ^ "Ferries: On Time performance Reporting" (PDF). Washington State Transport Commission. Retrieved 12 March 2016.
- ^ "Metra Website". Retrieved March 1, 2016.
- ^ "Ferries On-Time Performance Reporting" (PDF). Washington State Department of Transport. Retrieved 12 March 2016.
- ^ "Per minute cost of delays to US airlines". Retrieved 11 March 2016.
- ^ "Annual US Impact of Flight Delays". Airlines for America. Airlines for America. Retrieved 11 March 2016.
- ^ "Total Delay Impact Study" (PDF). Nextor. The National Centre for Excellence for Aviation Operations Research. Retrieved 12 March 2016.
- ^ a b "Standard Economic Value Guidelines" (PDF). Civil Aviation Safety Authority. Retrieved 12 March 2016.
- ^ "A Cure for Bus Bunching". ITS Berkeley. Retrieved 6 March 2016.
- ^ "UOR_1.2". web.mit.edu. Retrieved 2023-01-01.
- ^ Debora MacKenzie (29 October 2009). "Why three buses come at once, and how to avoid it". New Scientist. Retrieved 9 December 2014.
- ^ Yang, Li (2013). "Achieving energy-efficiency and on-time performance with Driver Advisory Systems". Achieving energy efficiency and on time performance with driver advisory systems. IEEE International Conference on Intelligent Rail. pp. 13–18. doi:10.1109/ICIRT.2013.6696260. ISBN 978-1-4673-5277-2. S2CID 24300857.
- ^ "Punctuality:How Airlines can improve on time performance" (PDF). Booz Allen Hamilton. Retrieved 6 March 2016.
- ^ "Punctuality:How Airlines can Improve Performance" (PDF). Booz Allen Hamilton. Retrieved 11 March 2016.
- ^ "Transit Capacity and Quality of Service Manual" (PDF). Retrieved 11 March 2016.
- ^ "2014 Annual Report" (PDF). Swiss Federal Railways.
- ^ "Pünktlichkeitsstatistik". Austrian Federal Railways.
- ^ "ProRail performance monitor". ProRail.
- ^ "Amtrak On-Time Performance Trends and Hours of Delay by Cause". Bureau of Transportation Statistics.
- ^ "Network Rail websiter". Network Rail. Archived from the original on 2015-12-08. Retrieved 2016-03-05.
- ^ "2013 Annual report". Taiwan High Speed Rail Corp. 7 January 2015.
- ^ "Best Airlines and Airports for On Time Performance in 2014" (PDF). skift.
- ^ "Domestic Airline On Time Performance 2015" (PDF). Australian Government, Department of Infrastructure and Regional Development.
- ^ "Cathay Pacific Interim 2014 Report" (PDF). Cathay Pacific.
- ^ "Yarra Trams Monthly Report". Yarra Trams.
- ^ "Hong Kong MTR Press Release" (PDF). Hong Kong MTR.
- ^ "2015 July to Sept Quarterly report" (PDF). GO Transit.
- ^ "Singapore Financial year 2014 Annual Report" (PDF). SMRT.
- ^ Fitzsimmons, Emma G. (23 July 2018). "They Vowed to Fix the Subway a Year Ago. On-Time Rates Are Still Terrible". The New York Times.
- The compilation of statistics for on time performance is possible only for transport providers that publish these statistics. Where the performance is poor, they tend to be reluctant to publish anything. For example, Amtrak was having legal issues in 2013 with track access, and so on time performance dropped. It was very difficult to find any recent figures on the performance for Amtrak.
External links
[edit]- "Australian Government Monthly On Time Performance Reports"
- ASCE Research Library AATT 2006 Applications of Advanced Technology in Transportation 9th International Conference Kelvin C. P. Wang, Brian L. Smith, Donald R. Uzarski, S. C. Wong - Editors, August 13–16, 2006, Chicago, Illinois, USA
- Boston Metropolitan Planning Organization – Transit Performance Measures[permanent dead link ]
- Case Study Category: Public Transit - Service and Operations
- MTR Corporation of Hong Kong Website, report on On-Time Performance
- Amtrak Corporate Website, reporting on on-time performance