published journal article

Driver’s Licenses for Undocumented Immigrants and Bus Ridership in Orange County, California

Transportation Research Record

Abstract

We investigate the impact of California Assembly Bill 60 (AB 60) that allows undocumented immigrants to obtain a California driver’s license on the ridership of buses operated by the Orange County Transportation Authority (OCTA). OCTA bus ridership has fallen every year since 2012. Between 2012 and 2016, it dropped by 19% despite the launch of OCTA Bravo! in 2013 and OC Bus 360 in 2015. Changing socioeconomic conditions, poor connectivity, poor service quality, and increased competition from transport network companies are possible reasons behind this negative trend. Another potential cause is the implementation in 2015 of AB 60. In this context, this article examines the association between changes in OCTA bus ridership and the inception of AB 60 while controlling for differences in transit supply, socioeconomic variables, gas prices, multi-family rent, and single-family home value. To explain changes in monthly average weekday ridership, we estimated four route-level fixed-effect panel regression models. We analyzed ridership data for 2014 (just before the implementation of AB 60) and 2015–2016 (the first two years after the enactment of AB 60) for local, community, express, and station link routes. For local and community routes, we find decreases in the monthly OCTA bus ridership coefficients. For local routes, they range from a low of 1.7% in the winter to a high of 7.7% in the fall of 2015–2016 compared to 2014.

Suggested Citation
Farzana Khatun and Jean-Daniel Saphores (2025) “Driver’s Licenses for Undocumented Immigrants and Bus Ridership in Orange County, California”, Transportation Research Record, 2679(6), pp. 409–425. Available at: 10.1177/03611981251318344.

conference paper

Activity pattern recognition by using support vector machines with multiple classes

Proceedings of the 92nd annual meeting of the transportation research board

Publication Date

January 1, 2013

Abstract

The focus of this paper is to learn the daily activity engagement patterns of travelers by using a nontraditional model called Support Vector Machines (SVM) that is widely used in Artificial intelligence and Machine Learning. It is postulated that an individualâ??s choice of activities depends not only on socio-demographic characteristics but also on previous activities of individual at the same day. In the paper, Markov Chain models are used to study the sequential choice of activities. The dependency between activity type, activity sequence and socio-demographic data are captured by employing Conditional Random Fields. In order to learn model parameters, we use sequential multinomial logit model and multiclass Support Vector Machines (K-SVM) with two different dependency structures. In the first dependency structure, it is assumed that type of activity at time t depends on the last previous activity and sociodemographic data, whereas in the second structure we assume activity selection at time t depends on all previous activity types of the individual on the same day and her sociodemographic characteristics. The models are applied to data drawn from Orange County and San Diego County households and a comparison of the accuracy of estimation indicates the superiority of K-SVM with first dependency structure over the other models tested. Additionally, we show that by using different sets of explanatory variables or tuning parameters of the kernel function in K-SVM, its accuracy in estimating activity patterns increases.

Suggested Citation
Mahdieh Allahviranloo and Will Recker (2013) “Activity pattern recognition by using support vector machines with multiple classes”, in Proceedings of the 92nd annual meeting of the transportation research board, p. 20p.

book/book chapter

Activity based travel analysis

Publication Date

January 1, 1985

Author(s)

Will Recker, R. Kitamura
Suggested Citation
W. W. Recker and R. Kitamura (1985) “Activity based travel analysis”, in G.R.M. Jansen, P. Nikampand G.J. Ruijgrok (eds.) Transportation and Mobility in an Era of Transition. Amsterdam: North Holland/Elsevier, pp. 157–183. Available at: https://archive.org/details/transportationmo0000unse.

Phd Dissertation

Scheduled Individual Vehicle Movements for Efficient Traffic Flow with a New Link-based Control Paradigm

Abstract

Traditional traffic control has been based on collective stop-and-go movements for over a century. This dissertation explores the potential integration of scheduling for individual vehicle movements as a new paradigm for next-generation traffic control, which can be developed to avoid forced vehicle stoppage and queuing that is inherent in current urban traffic control. Inspired by its proven efficiency and safety in various transportation modes such as railway systems and air traffic controls, individual scheduling shows a promising perspective in urban traffic management to optimize traffic throughput, reduce traffic congestion, and enhance the overall traffic system performance. Supported by the rapid developments in driver assistance technologies and advanced real-time communication systems, such as in-vehicle indication devices and vehicle-to-everything communications, the integration of individual scheduling into urban traffic management holds the potential for improving the traffic efficiency under current traffic control schemes through eco-driving schemes, and ushering in a new paradigm of smart and efficient transportation systems in the future through the Link-based traffic control concept. Furthermore, this dissertation proposes a mathematical model, i.e., the Vehicle Tube Model, for traffic safety analysis under various vehicle behaviors. The individual scheduling is first implemented for various traffic scenarios under traditional urban traffic control management. The scheduled information for individual vehicles includes the speed and time, and each vehicle is guided by an eco-driving vehicle control approach to fulfill its scheduled information. Considering various levels and requirements on vehicle connectivity and control complexity, this dissertation proposes three vehicle control approaches that respectively provide the advisory speed, two-stage advisory speed limits, as well as the optimal acceleration rates to adjust individual vehicle movements. Each approach can be independently implemented for each vehicle to improve the speed and decrease the speed oscillations. Through a set of simulation studies, the dissertation demonstrates significant improvements in vehicle speed, fuel consumption, and emissions reduction, underscoring the benefits of adopting individual scheduling under signalized intersection controls as well as for traffic flows on a freeway after a slowly moving vehicle.With the implementation of scheduled individual vehicle movements, the dissertation introduces the innovative concept of Link-based traffic control, which represents a paradigm in contrast to the traditional node-based control such as the signalized control. The new paradigm further improves travel times and mobility and leads to smoother eco-driving through the development of optimized schemes to schedule movements that use traffic stream gaps. Emphasizing vehicle controls along the traffic links rather than at individual intersections as nodes, the Link-based traffic control schedules each vehicle movements to enable traffic flows from conflicting directions to pass through the intersections within the same period, thereby significantly enhancing the overall traffic throughput and fuel efficiency. This dissertation proposes four Link-based control models to schedule the speed and time for each vehicle when entering the intersection, and the comprehensive simulated results show that the traffic efficiency is dramatically increased with the Link-based control concept. Moreover, the dissertation proposes the Vehicle Tube Model, as a dynamic representation of vehicle movement and theory for analytical traffic safety analysis. By quantifying the risk probabilities associated with potential collisions under current and future traffic scenarios, this framework provides valuable insights into the safety performance of future urban traffic management systems. This dissertation contributes to advancing understanding of the potential benefits and challenges associated with integrating the individual scheduling and innovative traffic management concepts into urban transportation systems, and proposing a way, as a dual perspective of traffic control, for more sustainable, efficient, and safe urban mobility solutions with the intelligent transportation system.

Suggested Citation
Pengyuan Sun (2024) Scheduled Individual Vehicle Movements for Efficient Traffic Flow with a New Link-based Control Paradigm. Ph.D.. UC Irvine. Available at: https://uci.primo.exlibrisgroup.com/permalink/01CDL_IRV_INST/u4evf/cdi_proquest_journals_3117864602 (Accessed: October 23, 2024).

conference paper

Assessing the environmental and health impacts of port-related freight movement in a major urban transportation corridor

Proceedings of the 89th annual meeting of the transportation research board

Abstract

The San Pedro Bay Ports (SPBP) complex of Los Angeles and Long Beach is the largest container port in the U.S., and a very important contributor to both California’s and the nation’s economies. Although the benefits of the SPBP activities are enjoyed by the whole country, the burden of the congestion and air pollution it generates falls mostly on the shoulders of people who live and work in the transportation corridor serving the SPBP. This corridor includes two busy freeways, the I-710 and the I-110, and a busy rail link, the Alameda corridor. The objective of this paper is to explore an integrated approach for evaluating the environmental and health impacts of freight operations between the SPBP complex and downtown Los Angeles, some 22 miles north. The authors integrated approach combines a number of models, including a microscopic traffic simulation model and an emissions model to better estimate the impacts of congestion on air pollution, emission estimates from line-haul and switching train activities, a spatial dispersion model, and a health impact model. We analyze emissions for year 2005, which serves as a baseline in various air pollution inventories of the SPBP complex. The results show that emissions concentrations are strongly affected by meteorological conditions and seasonal variations (winter is worse than summer); moreover, we found that health impacts from NOx and PM exposure exceed 200 million dollars, which justifies a number of regional initiatives to improve air quality. The analysis is a starting point for analyzing the economic efficiency of these initiatives, which include modal shift (from trucks to trains) and the Clean Trucks Program.

Suggested Citation
Gunwoo Lee, Mana Sangkapichai, Stephen G. Ritchie, Jean-Daniel Saphores, Oladele Ogunseitan, Roberto Ayala, R. Jayakrishnan and Rodolfo Torres (2010) “Assessing the environmental and health impacts of port-related freight movement in a major urban transportation corridor”, in Proceedings of the 89th annual meeting of the transportation research board, p. 15p.

published journal article

Security of emergent automotive systems: A tutorial introduction and perspectives on practice

IEEE Design & Test

Publication Date

December 1, 2019

Author(s)

Anthony Lopez, Arnav Vaibhav Malawade, Mohammad Al Faruque, Srivalli Boddupalli, Sandip Ray
Suggested Citation
Anthony Lopez, Arnav Vaibhav Malawade, Mohammad Abdullah Al Faruque, Srivalli Boddupalli and Sandip Ray (2019) “Security of emergent automotive systems: A tutorial introduction and perspectives on practice”, IEEE Design & Test, 36(6), pp. 10–38. Available at: 10.1109/mdat.2019.2944086.

published journal article

A dense background representation method for traffic surveillance based on roadside LiDAR

Optics and Lasers in Engineering

Publication Date

May 1, 2022
Suggested Citation
Yingji Xia, Zhe Sun, Andre Tok and Stephen Ritchie (2022) “A dense background representation method for traffic surveillance based on roadside LiDAR”, Optics and Lasers in Engineering, 152, p. 106982. Available at: 10.1016/j.optlaseng.2022.106982.

conference paper

Gender differences in travel patterns of the elderly in the united states

Proceedings of the 99th annual meeting of the transportation research board

Publication Date

January 1, 2020
Suggested Citation
Suman Mitra, Mingqi Yao and Stephen Ritchie (2020) “Gender differences in travel patterns of the elderly in the united states”, in Proceedings of the 99th annual meeting of the transportation research board.

conference paper

Assessing the Employment Accessibility Benefits of Shared Automated Vehicle Mobility Services in Southern California

100th Transportation Research Board (TRB) Annual Meeting

Publication Date

January 1, 2021
Suggested Citation
Tanjeeb Ahmed, Michael F. Hyland, Suman Kumar Mitra and Arash Ghaffar (2021) “Assessing the Employment Accessibility Benefits of Shared Automated Vehicle Mobility Services in Southern California”. 100th Transportation Research Board (TRB) Annual Meeting, Washington, DC.