The aim of this paper is to provide a detailed description of a framework for the estimation of time-sliced origin-destination (OD) trip matrices in a transit network using counts and travel time data of Bluetooth Smartphone devices carried by passengers at equipped transit-stops. A Kalman filtering formulation defined by the authors has been included in the application. The definition of the input for building the space-state model is linked to network scenarios modeled with the transportation planning platform EMME. The transit assignment framework is optimal strategy-based, which determines the subset of paths related to the optimal strategies between all OD pairsPeer Reviewe
From the point of view of the information supplied by an ATIS to the motorists entering a freeway of...
Origin-Destination (OD) trip matrices describe traffic behavior patterns across the network and play...
Origin-Destination (OD) trip matrices describe the patterns of traffic behavior across the network a...
In this paper, we describe how to estimate time-sliced origin-destination (OD) matrices for passenge...
The primary data input used in principal traffic models comes from Origin-Destination (OD) trip matr...
Origin-Destination (OD) trip matrices are the primary data input used in principal traffic and tran...
Time-Dependent Origin-Destination (OD) matrices are a key input to Dynamic Traffic Models. Microscop...
Time-Dependent Origin-Destination (OD) matrices are a key input to Dynamic Traffic Models, microscop...
Time-Dependent Origin-Destination (OD) matrices are a key input to Dynamic Traffic Models, microscop...
Trip patterns in terms of origin-to-destination (OD) traffic flows are a key input to traffic assign...
Traffic management applications are supported by dynamic models whose input should be realistic real...
In this paper, the estimation of time-dependent origin-destination (O-D) matrices for transit networ...
In this paper, the estimation of time-dependent origin-destination (O-D) matrices for transit networ...
From the point of view of the information supplied by an ATIS to the motorists entering a freeway o...
Origin-Destination (OD) trip matrices describe the patterns of traffic behavior across the network a...
From the point of view of the information supplied by an ATIS to the motorists entering a freeway of...
Origin-Destination (OD) trip matrices describe traffic behavior patterns across the network and play...
Origin-Destination (OD) trip matrices describe the patterns of traffic behavior across the network a...
In this paper, we describe how to estimate time-sliced origin-destination (OD) matrices for passenge...
The primary data input used in principal traffic models comes from Origin-Destination (OD) trip matr...
Origin-Destination (OD) trip matrices are the primary data input used in principal traffic and tran...
Time-Dependent Origin-Destination (OD) matrices are a key input to Dynamic Traffic Models. Microscop...
Time-Dependent Origin-Destination (OD) matrices are a key input to Dynamic Traffic Models, microscop...
Time-Dependent Origin-Destination (OD) matrices are a key input to Dynamic Traffic Models, microscop...
Trip patterns in terms of origin-to-destination (OD) traffic flows are a key input to traffic assign...
Traffic management applications are supported by dynamic models whose input should be realistic real...
In this paper, the estimation of time-dependent origin-destination (O-D) matrices for transit networ...
In this paper, the estimation of time-dependent origin-destination (O-D) matrices for transit networ...
From the point of view of the information supplied by an ATIS to the motorists entering a freeway o...
Origin-Destination (OD) trip matrices describe the patterns of traffic behavior across the network a...
From the point of view of the information supplied by an ATIS to the motorists entering a freeway of...
Origin-Destination (OD) trip matrices describe traffic behavior patterns across the network and play...
Origin-Destination (OD) trip matrices describe the patterns of traffic behavior across the network a...