PrT capacity, speed and travel time

If there is free traffic flow in an unloaded network, the travel time t0 of a link can be determined from the link length and the free flow speed v0.

  • Input: Length L [m]
  • Input: Free flow speed, v0 [km/h]
  • Result: Free flow travel time for t0 [s] = L • 3.6 / v0

The free flow speed v0-TSys of vehicles of a particular transport system can be lower than the free flow speed v0 of a link, because special speed limits might apply to these vehicles or because the vehicles cannot drive faster. The maximum speed of a PrT transport system vMax-TSys is an attribute of the link type.

Therefore, for speed v0-TSys and travel time t0-TSys applies:

  • v0-TSys = MIN (v0, vMax-TSys)
  • t0-TSys = L x 3,6 / v0-TSys

In a loaded network, travel time of a link is determined through a so-called volume-delay function (also known as capacity restraint function) which describes the correlation between the current traffic volume q and the capacity qmax. The result of the VD function is the travel time in the loaded network tcur.

  • Input: Free flow travel time t0 [s]
  • Input: Traffic volume q [car units/time interval]
  • Input: Capacity qmax [car units/time interval]
  • Input: VD function, for example BPR function from U.S. Bureau of Public Roads
  • Result: Current in-vehicle time in the loaded network, for example

(dependent on VD function type)

  • Result: Current travel time of a T-Sys = MAX (tcur, t0-TSys)

The Image 7 illustrates how speeds vcur of two PrT transport systems develop depending on the volume.

Link type Motorway

  • vmax (car) = 150 km/h
  • vmax (HGV) = 100 km/h

Link

v0 =130 km/h

Free traffic flow

  • vcur (car) = 130 km/h
  • vcur (HGV) = 100 km/h

partially linked traffic flow

  • vcur (car) = 110 km/h
  • vcur(HGV) = 100 km/h

linked traffic flow

  • vcur (car) = 80 km/h
  • vcur (HGV) = 80 km/h

Image 7: Example for the different speeds of two PrT transport systems depending on the volume