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Turning restriction is one of the commonest traffic management techniques and an effective low cost traffic improvement strategy in urban road networks. However, the literature has not paid much attention to the turning restriction design problem (TRDP), which aims to determine a set of intersections where turning restrictions should be implemented. In this paper, a bi-level programming model is proposed to formulate the TRDP. The upper level problem is to minimize the total travel cost from the viewpoint of traffic managers, and the lower level problem is to depict travelers ’ route choice behavior based on stochastic user equilibrium (SUE) theory. We propose a branch and bound method (BBM), based on the sensitivity analysis algorithm (SAA...
For oversized cargo transportation, traditional transportation schemes only consider road length, ro...
This thesis concerns Bilevel Nonlinear Programming (BNP) and its application to the Network Design P...
PDFTech Reporthttp://ntl.bts.gov/lib/56000/56700/56726/SPR766_RestrictVehicleTurningMovement_Final.p...
Turning restriction is one of the commonest traffic management techniques and an effective low cost ...
This paper investigates the turning restriction design problem that optimizes the turning restrictio...
AbstractThe direct left turn at intersections increases delays and causes more accidents in certain ...
Urban road networks may benefit from left turn prohibition at signalized intersections regarding cap...
<p>The left-turn of vehicles at intersections has significant impacts on urban traffic congestions a...
As a countermeasure to urban traffic congestion, alternate traffic restriction (ATR) involves a cert...
This paper proposes a biobjective continuous transportation network design problem concerning road c...
It is important for urban traffic micro-circulation to improve the density of urban branch road netw...
Urban road networks may bene�t from left turn prohibition at signalized intersections in terms of sa...
Left turns may generate efficiency problems which can be solved by appropriately prohibiting left tu...
The efficiency of congested urban transportation networks can be improved by implementing appropriat...
A protected left turn phase is often used at intersections with heavy left turns. This may induce a ...
For oversized cargo transportation, traditional transportation schemes only consider road length, ro...
This thesis concerns Bilevel Nonlinear Programming (BNP) and its application to the Network Design P...
PDFTech Reporthttp://ntl.bts.gov/lib/56000/56700/56726/SPR766_RestrictVehicleTurningMovement_Final.p...
Turning restriction is one of the commonest traffic management techniques and an effective low cost ...
This paper investigates the turning restriction design problem that optimizes the turning restrictio...
AbstractThe direct left turn at intersections increases delays and causes more accidents in certain ...
Urban road networks may benefit from left turn prohibition at signalized intersections regarding cap...
<p>The left-turn of vehicles at intersections has significant impacts on urban traffic congestions a...
As a countermeasure to urban traffic congestion, alternate traffic restriction (ATR) involves a cert...
This paper proposes a biobjective continuous transportation network design problem concerning road c...
It is important for urban traffic micro-circulation to improve the density of urban branch road netw...
Urban road networks may bene�t from left turn prohibition at signalized intersections in terms of sa...
Left turns may generate efficiency problems which can be solved by appropriately prohibiting left tu...
The efficiency of congested urban transportation networks can be improved by implementing appropriat...
A protected left turn phase is often used at intersections with heavy left turns. This may induce a ...
For oversized cargo transportation, traditional transportation schemes only consider road length, ro...
This thesis concerns Bilevel Nonlinear Programming (BNP) and its application to the Network Design P...
PDFTech Reporthttp://ntl.bts.gov/lib/56000/56700/56726/SPR766_RestrictVehicleTurningMovement_Final.p...
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