Dwell Time Delays for Commuter Trains in Stockholm and Tokyo

Palmqvist, Carl-William; Tomii, Norio; Ochiai, Yasufumi

Dwell Time Delays for Commuter Trains in Stockholm and Tokyo

Mark

Palmqvist, Carl-William ^LU

; Tomii, Norio and Ochiai, Yasufumi (2019) RailNorrköping

Abstract: The paper analyses dwell time delays for commuter trains in Stockholm and
Tokyo. In both cities, small dwell time delays of at most five minutes make
up around 90% of the total delays. Therefore, it is valuable to understand
and deal with these disturbances. To this end, we use high resolution data on
dwell times and passenger counts from both countries over the last several
years. We find that these data alone can explain about 40% of the variation
in dwell time delays and produce simple models which can be used in
practice to assign more appropriate dwell times. A change of 15 passengers
per car, in Tokyo translates to a delay of about one second. For every 10
remaining passengers per door in... (More); The paper analyses dwell time delays for commuter trains in Stockholm and
Tokyo. In both cities, small dwell time delays of at most five minutes make
up around 90% of the total delays. Therefore, it is valuable to understand
and deal with these disturbances. To this end, we use high resolution data on
dwell times and passenger counts from both countries over the last several
years. We find that these data alone can explain about 40% of the variation
in dwell time delays and produce simple models which can be used in
practice to assign more appropriate dwell times. A change of 15 passengers
per car, in Tokyo translates to a delay of about one second. For every 10
remaining passengers per door in Stockholm, the delay increases by about
one second, and one boarding or alighting passenger per door corresponds
to about 0.4 seconds of delay. We also find that trains in Tokyo are much
more congested than in Sweden, and that at most stations in the latter, the
exchange of passengers is modest. In both cities, the range of dwell time
delays is quite narrow, with between 40 and 50 seconds separating the 5th
and 95th percentiles. This indicates further that most delays, by far, are very
small, and that even small adjustments to dwell times can make a big
difference in the overall picture. To facilitate such improvements, key
stakeholders and practitioners are closely involved with the research. (Less)
Abstract (Swedish): The paper analyses dwell time delays for commuter trains in Stockholm and Tokyo. In both cities, small dwell time delays of at most five minutes make up around 90% of the total delays. Therefore, it is valuable to understand and deal with these disturbances. To this end, we use high resolution data on dwell times and passenger counts from both countries over the last several years. We find that these data alone can explain about 40% of the variation in dwell time delays and produce simple models which can be used in practice to assign more appropriate dwell times. A change of 15 passengers per car, in Tokyo translates to a delay of about one second. For every 10 remaining passengers per door in Stockholm, the delay increases by about one... (More); The paper analyses dwell time delays for commuter trains in Stockholm and Tokyo. In both cities, small dwell time delays of at most five minutes make up around 90% of the total delays. Therefore, it is valuable to understand and deal with these disturbances. To this end, we use high resolution data on dwell times and passenger counts from both countries over the last several years. We find that these data alone can explain about 40% of the variation in dwell time delays and produce simple models which can be used in practice to assign more appropriate dwell times. A change of 15 passengers per car, in Tokyo translates to a delay of about one second. For every 10 remaining passengers per door in Stockholm, the delay increases by about one second, and one boarding or alighting passenger per door corresponds to about 0.4 seconds of delay. We also find that trains in Tokyo are much more congested than in Sweden, and that at most stations in the latter, the exchange of passengers is modest. In both cities, the range of dwell time delays is quite narrow, with between 40 and 50 seconds separating the 5th and 95th percentiles. This indicates further that most delays, by far, are very small, and that even small adjustments to dwell times can make a big difference in the overall picture. To facilitate such improvements, key stakeholders and practitioners are closely involved with the research. (Less)

Please use this url to cite or link to this publication: https://lup.lub.lu.se/record/f7611d0e-0a04-4230-a362-7bd1ca75eefb

author

Palmqvist, Carl-William ^LU

; Tomii, Norio and Ochiai, Yasufumi

organization

alternative title

Uppehållsförseningar för pendeltåg i Stockholm och Tokyo

publishing date

2019-06-19

type

Contribution to conference

publication status

published

subject

Transport Systems and Logistics

keywords

Urban transport, Rail, Public transport, Commuter train, Dwell time, Delay, Timetable, Station, Congestion, Passenger

pages

15 pages

conference name

RailNorrköping

conference location

Norrköping, Sweden

conference dates

2019-06-17 - 2019-06-20

language

English

LU publication?

yes

id

f7611d0e-0a04-4230-a362-7bd1ca75eefb

date added to LUP

2019-06-24 20:50:28

date last changed

2023-03-28 02:29:43

@misc{f7611d0e-0a04-4230-a362-7bd1ca75eefb,
  abstract     = {{The paper analyses dwell time delays for commuter trains in Stockholm and<br/>Tokyo. In both cities, small dwell time delays of at most five minutes make<br/>up around 90% of the total delays. Therefore, it is valuable to understand<br/>and deal with these disturbances. To this end, we use high resolution data on<br/>dwell times and passenger counts from both countries over the last several<br/>years. We find that these data alone can explain about 40% of the variation<br/>in dwell time delays and produce simple models which can be used in<br/>practice to assign more appropriate dwell times. A change of 15 passengers<br/>per car, in Tokyo translates to a delay of about one second. For every 10<br/>remaining passengers per door in Stockholm, the delay increases by about<br/>one second, and one boarding or alighting passenger per door corresponds<br/>to about 0.4 seconds of delay. We also find that trains in Tokyo are much<br/>more congested than in Sweden, and that at most stations in the latter, the<br/>exchange of passengers is modest. In both cities, the range of dwell time<br/>delays is quite narrow, with between 40 and 50 seconds separating the 5th<br/>and 95th percentiles. This indicates further that most delays, by far, are very<br/>small, and that even small adjustments to dwell times can make a big<br/>difference in the overall picture. To facilitate such improvements, key<br/>stakeholders and practitioners are closely involved with the research.}},
  author       = {{Palmqvist, Carl-William and Tomii, Norio and Ochiai, Yasufumi}},
  keywords     = {{Urban transport; Rail; Public transport; Commuter train; Dwell time; Delay; Timetable; Station; Congestion; Passenger}},
  language     = {{eng}},
  month        = {{06}},
  title        = {{Dwell Time Delays for Commuter Trains in Stockholm and Tokyo}},
  url          = {{https://lup.lub.lu.se/search/files/66516050/7_Palmqvist_et_al_2019_RailNorrk_ping.pdf}},
  year         = {{2019}},
}

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Dwell Time Delays for Commuter Trains in Stockholm and Tokyo