Screenline-Based Two-Step Calibration and its Application to an Agent-Based Urban Freight Simulator

Author(s)

Hara, Yusuke; Sakai, Takanori; Alho, André Romano; Ben-Akiva, Moshe

Abstract

<jats:p> Calibration is an essential process in making an agent-based simulator operational. In particular, the calibration for freight demand is challenging because of the model complexity and the shortage of available freight demand data compared with passenger data. This paper proposes a novel calibration method that relies solely on screenline counts, named screenline-based two-step calibration (SLTC). SLTC consists of two parts: (1) tour-based demand adjustment; and (2) model parameter updates. The former generates screenline-based tours by cloning/removing instances of the simulated goods vehicle tours, aiming to minimize the gaps between the observed and the simulated screenline counts. The latter updates the parameters of the commodity flow model which generates inputs to simulate goods vehicle tours. To demonstrate the practicality of the proposed method, we apply it to an agent-based urban freight simulator, SimMobility Freight. The result shows that SLTC allows the simulator to replicate the observed screenline counts with reasonable computational cost for calibration. </jats:p>

Date issued

2022

URI

https://hdl.handle.net/1721.1/148400

Department

Massachusetts Institute of Technology. Department of Civil and Environmental Engineering

Journal

Transportation Research Record

Publisher

SAGE Publications

Citation

Hara, Yusuke, Sakai, Takanori, Alho, André Romano and Ben-Akiva, Moshe. 2022. "Screenline-Based Two-Step Calibration and its Application to an Agent-Based Urban Freight Simulator." Transportation Research Record.

Version: Original manuscript