Your search keyword '"Yuetong Lin"' showing total 3 results

1. A Parallel Transportation Management and Control System for Bus Rapid Transit Using the ACP Approach

Author

Bin Hu, Gang Xiong, Dayong Shen, Fenghua Zhu, Xisong Dong, Zhengxi Li, Yuetong Lin, and Dong Fan

Subjects

050210 logistics & transportation, Engineering, business.industry, Mechanical Engineering, Distributed computing, 05 social sciences, Real-time computing, Complex system, 02 engineering and technology, Computer Science Applications, Scheduling (computing), SAFER, Control system, 0502 economics and business, Automotive Engineering, Artificial systems, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, business, Bus rapid transit

Abstract

Bus rapid transit (BRT) has been proved to be an effective tool to improve mass transit services. However, BRT's adaptive operations like management and scheduling under different scenarios are too complicated to implement using traditional methods. The ACP approach, which is based on holism and complex system theory and consists of artificial systems (A), computational experiments (C) and parallel execution (P), offers an efficient new method to cope with these complex systems, including BRT. In this paper, the parallel transportation management and control system for BRT (PTMS-BRT) is presented, which is designed and implemented using the ACP approach. PTMS-BRT integrates such functions as BRT's monitoring, warning, forecasting, incident management, and real-time scheduling, to provide its operations smoother, safer, more efficient, and reliable. It has been piloted successfully in Guangzhou BRT to demonstrate it as another successful example of parallel transportation systems.

Published

2017

2. Trend Modeling for Traffic Time Series Analysis: An Integrated Study

Author

Yi Zhang, Li Li, Xiaonan Su, Zhiheng Li, and Yuetong Lin

Subjects

Series (mathematics), Computer science, Mechanical Engineering, Data detection, computer.software_genre, Computer Science Applications, Data modeling, Spatial relation, Data point, Automotive Engineering, Principal component analysis, Data mining, Time series, computer, Data compression

Abstract

This paper discusses the trend modeling for traffic time series. First, we recount two types of definitions for a long-term trend that appeared in previous studies and illustrate their intrinsic differences. We show that, by assuming an implicit temporal connection among the time series observed at different days/locations, the PCA trend brings several advantages to traffic time series analysis. We also describe and define the so-called short-term trend that cannot be characterized by existing definitions. Second, we sequentially review the role that trend modeling plays in four major problems in traffic time series analysis: abnormal data detection, data compression, missing data imputation, and traffic prediction. The relations between these problems are revealed, and the benefit of detrending is explained. For the first three problems, we summarize our findings in the last ten years and try to provide an integrated framework for future study. For traffic prediction problem, we present a new explanation on why prediction accuracy can be improved at data points representing the short-term trends if the traffic information from multiple sensors can be appropriately used. This finding indicates that the trend modeling is not only a technique to specify the temporal pattern but is also related to the spatial relation of traffic time series.

Published

2015

3. Collaborations Patterns and Productivity Analysis for IEEE T-ITS Between 2010 and 2013

Author

Yanqing Gao, Yuetong Lin, Shaohu Tang, Xueliang Zhao, Tao Wang, Zhong Liu, Wenli Liu, Dayong Shen, Baoxin Xiu, and Xiao Wang

Subjects

Joint research, Engineering, Expediting, Knowledge management, business.industry, Mechanical Engineering, Automotive Engineering, Norm (social), business, China, Commercialization, Intelligent transportation system, Computer Science Applications

Abstract

This paper investigates the productivity and collaborations patterns in the publications of IEEE Transactions on Intelligent Transportation Systems (T-ITS) between 2010 and 2013. Our findings show that industry is playing a more important role in research cooperation. Such a trend is particularly beneficial for expediting the commercialization of scientific and technological advances. In addition, growing international collaborations have become a norm as researchers in the U.S., China, and Europe are increasingly involved in joint research endeavors.

Published

2014