Technologies - Passenger information to reduce boarding time at stations

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Passenger information to reduce boarding time at stations

evaluated

The average boarding time at stations has a strong impact on overall punctuality which in return is relevant for the realization of energy efficient driving. Passenger information systems on platforms are expected to yield improvements in this field.

Technology field: Energy efficient driving



General information

	Description
		The boarding time at stations has a strong impact on punctuality. This is relevant for energy efficiency because delays reduce the potential for energy efficient driving. There are several conceivable causes for delayed departure at a station: "Internal" railway reasons High passenger numbers leaving or entering the train Passengers looking for the "right" car (according to their seat reservation) An investigation carried out by DSB showed that delayed boarding at stations is one of the key factors for train delays. Furthermore, DSB found out, that passengers looking for their car is one of the main causes for boarding delays. This problem can be effectively reduced by better platform information indicating the exact position of the individual cars. The Danish TRIT system At DSB, this (among other reasons) led to the introduction of the TRIT system. It involves electronic boards at platforms displaying information on the exact stopping position of all cars. This information allows passengers to find their car before the arrival of the train. This is expected to be more effective and have higher acceptance than the usual permanent information on car positions displayed on special plans at the station. The TRIT system is a modern telematics system which allows for flexible and highly automated train formation processes. Each train has an on-board unit with updated information on the train configuration and door numbers. This information is sent to a central computer which then provides all stations with the relevant information to be displayed on the electronic information boards (train constellation and position of numbered cars and doors as well as the corrected arrival time in case of delay). In contrast to permanent information on the stopping positions of passenger coaches, an electronic on-line information system can be adapted to varying train length, train configurations etc. This creates more flexibility in the formation of trains and facilitates a stronger adaptation of train length to actual demand.

General criteria

	Status of development: in use

	Time horizon for broad application: 2 - 5 years

	Expected technological development: dynamic

	Benefits (other than environmental): medium

	Barriers: medium

	Applicability for railway segments: high
	Type of traction: electric - DC, electric - AC, diesel
	Type of transportation: passenger - main lines, passenger - high speed, passenger - regional lines, passenger - suburban lines, freight

	Grade of diffusion into railway markets:
	Diffusion into relevant segment of fleet: not applicable
	Share of newly purchased stock: not applicable

	Market potential (railways): medium

Environmental criteria

	Impacts on energy efficiency:
	Energy efficiency potential for single vehicle: 2 - 5%
	Energy efficiency potential throughout fleet: 1 - 2%
		If a reduced standing time at stations is achieved and the time savings are used for energy efficient driving strategies, there could be energy efficiency effects in the order of up to 5%.

	Other environmental impacts: neutral
		(no details available)

Economic criteria

	Vehicle - fix costs: low
		The vehicle fix costs highly depend on the specific strategy to reduce boarding times in stations. In the case of the TRIT information system deployed at DSB, on-board units were installed in the trains to transmit train information to a central server. The corresponding costs were relatively low (~2000 EURO per vehicle).

	Vehicle - running costs: significant reduction
		(no details available)

	Infrastructure - fix costs: low
		Infrastructure fix costs highly depend on the specific strategy to reduce boarding times at stations. In the case of the TRIT information system deployed at DSB, electronic display boards were installed at stations. Costs were medium (~10.000 EURO per board, several boards per platform).

	Infrastructure - running costs: unchanged
		(no details available)

	Scale effects: medium
		(no details available)

	Amortisation: 1 - 2 years
		If a system like TRIT in Denmark shows the desired effects on punctuality and flexibility of train formation, amortisation will be fast.

Application outside railway sector (this technology is railway specific)

Overall rating