Your search keyword '"Mao, Xinhua"' showing total 2 results

1. Resilience-Based Optimization of Postdisaster Restoration Strategy for Road Networks

Author

Mao, Xinhua, Zhou, Jibiao, Yuan, Changwei, and Liu, Dan

Abstract

This work proposes a framework for the optimization of postdisaster road network restoration strategies from a perspective of resilience. The network performance is evaluated by the total system travel time (TSTT). After the implementation of a postdisaster restoration schedule, the network flows in a certain period of days are on a disequilibrium state; thus, a link-based day-to-day traffic assignment model is employed to compute TSTT and simulate the traffic evolution. Two indicators are developed to assess the road network resilience, i.e., the resilience of performance loss and the resilience of recovery rapidity. The former is calculated based on TSTT, and the latter is computed according to the restoration makespan. Then, we formulate the restoration optimization problem as a resilience-based bi-objective mixed integer programming model aiming to maximize the network resilience. Due to the NP-hardness of the model, a genetic algorithm is developed to solve the model. Finally, a case study is conducted to demonstrate the effectiveness of the proposed method. The effects of key parameters including the number of work crews, travelers' sensitivity to travel time, availability of budget, and decision makers' preference on the values of the two objectives are investigated as well., Author(s): Xinhua Mao [1]; Jibiao Zhou (corresponding author) [2]; Changwei Yuan [3]; Dan Liu [1] 1. Introduction Road infrastructure forms the backbone of transport activities, which plays an important role [...]

Published

2021

2. Modified Maintenance Network Model for Urban Rail Transit Systems Based on the Variable Coverage Radius: Evidence from Changchun City in China

Author

Jiang, Yuan, Sun, Baofeng, Zheng, Lili, Cui, Wankun, and Mao, Xinhua

Subjects

Algorithm, Extinction (Biology) -- Research -- Analysis, Light rail transit -- Research -- Analysis, Algorithms -- Analysis -- Research

Abstract

Network-wide maintenance lacks strong theoretical support and practical cases. However, research on this topic has entered an extensive exploratory stage; for example, new network design methods are being sought, and successful practices from traditional maintenance by line and by profession are being incorporated. This paper proposes a novel set-covering model with the variable coverage radius for the maintenance network of urban rail transit systems in the context of network-wide maintenance. The concepts of network-wide maintenance follow principles that are similar to those of bio-geography-based optimization (BBO), i.e., patterns of migration, variation, and extinction of different populations in different habitats. Therefore, a BBO algorithm is implemented with combinatorial optimization programming. Experiments from Changchun city in China show that the proposed model and algorithm are effective in fulfilling network-wide requirements through a direct tradeoff between the coverage radius and maintenance response time. In addition, the maintenance capacity and variable coverage radius of each maintenance point influence both the maintenance timeliness and resource utilization of maintenance units., 1. Introduction As of December 31, 2018, according to a statistical analysis of urban rail transit lines, 169 urban lines in 32 cities in mainland China were in operation, having [...]

Published

2020