TY - BOOK
T1 - Dynamic access control for two-direction shared traffic lanes
AU - Ebben, M.J.R.
AU - van der Zee, D.J.
AU - van der Heijden, M.C.
N1 - Relation: http://www.rug.nl/
Rights: http://rs.ub.rug.nl/keur/
PY - 2000
Y1 - 2000
N2 - In specilic traflic situations, a single lane is available for traiffic from two directions. Examples are traffic accidents or road maintenance reducing thc number of available lanes on a road or, as we faced in a project on underground freight transportation, construction of a slnglc lane for two directions to reduce infrastructure investment. Access control rules arc required to manage vehicle flows such, that collision is avoided and waiting times are minimised. In contrast to standard traffic control at crossroads, these control rules should take into account significant driving times along the single lane (in our application up to S minutes).
In this paper, we discuss several heuristic control rules for access control, both simple periodic rules and intelligent adaptive rules (look ahead heuristics, dynamic programming solutions). Numerical experiments show that intelligent control rulcs reduce waiting times by 10-25%) compared to u straightforward periodic rule. The best adaptive control rule is a dynamic programming rule.
AB - In specilic traflic situations, a single lane is available for traiffic from two directions. Examples are traffic accidents or road maintenance reducing thc number of available lanes on a road or, as we faced in a project on underground freight transportation, construction of a slnglc lane for two directions to reduce infrastructure investment. Access control rules arc required to manage vehicle flows such, that collision is avoided and waiting times are minimised. In contrast to standard traffic control at crossroads, these control rules should take into account significant driving times along the single lane (in our application up to S minutes).
In this paper, we discuss several heuristic control rules for access control, both simple periodic rules and intelligent adaptive rules (look ahead heuristics, dynamic programming solutions). Numerical experiments show that intelligent control rulcs reduce waiting times by 10-25%) compared to u straightforward periodic rule. The best adaptive control rule is a dynamic programming rule.
M3 - Report
VL - 126
BT - Dynamic access control for two-direction shared traffic lanes
PB - University of Groningen, SOM research school
CY - Groningen
ER -