Published Journal Article: Time bomb or hidden treasure? Characteristics of junk TVs and of the US households who store them

conference paper

Formulations for optimal shared ownership and use of autonomous or driverless vehicles

Proceedings of the 95th annual meeting of the transportation research board

Publication Date

January 1, 2016

Abstract

Advances in the automobile industry and intelligent transportation systems in the recent decade have made what was once a dream, driver-less vehicles, closer than ever to reality now. Although autonomous vehicles introduce many benefits ranging from decreasing delay to higher levels of safety on roads, they will be priced relatively high once they enter the market. The high price and the consequent low demand may translate to less motivation for the automobile industry to move toward mass production, and it could take decades for the market to reach equilibrium. In this paper, the authors describe formulations for analyzing shared ownership and use of autonomous vehicles as well as some variants that they newly propose. Households interested in participating in the program will join together, forming clusters of households. Each cluster will share the ownership of a set of autonomous vehicles. The program also allows participants to rideshare together. Such a program will decrease the number of vehicles needed by households, and will therefore make the ownership of autonomous vehicles more economical. In addition, clusters of households can register their vehicles in a carsharing program when they are not being used, in order to partially cover the ownership cost. The authors implement this program for a sample of households in San Diego, California, and discuss the reduction in vehicle ownership as a result of participating in the program.

Suggested Citation
Neda Masoud and R. Jayakrishnan (2016) “Formulations for optimal shared ownership and use of autonomous or driverless vehicles”, in Proceedings of the 95th annual meeting of the transportation research board, p. 17p.

Phd Dissertation

Analysis of large truck crashes on freeway-to-freeway connectors

Suggested Citation
John Leonard (1991) Analysis of large truck crashes on freeway-to-freeway connectors. PhD Dissertation. UC Irvine. Available at: https://uci.primo.exlibrisgroup.com/permalink/01CDL_IRV_INST/1go3t9q/alma9940807143606533.

working paper

Is Jobs-Housing Balance a Transportation Issue?

Publication Date

October 30, 1991

Associated Project

Abstract

Jobs-housing balance has become a major planning and public policy issue. Despite its popularity and apparent acceptance among public policy makers as a solution for traffic congestion and air pollution problems, there is little consensus on what jobs-housing balance means and little evidence that a jobs-housing balance policy would have any significant effect on these problems. The jobs-housing balance policy is premised on the idea that job and housing location choices are closely linked, and that policy intervention is required to achieve a balance of housing and jobs. Existing evidence suggests that the relationship between where people choose to live and work is complex, and may have little to do with job access considerations. Further, patterns of urban growth and travel indicate that balancing occurs as part of the urban development process. It is concluded that jobs-housing balance is not an effective solution for traffic congestion and air pollution concerns. Rather, these problems are better addressed in a more direct way.

Suggested Citation
Genevieve Giuliano (1991) Is Jobs-Housing Balance a Transportation Issue?. Working Paper Reprint No. 133. Institute of Transportation Studies, UC Irvine: University of California Transportation Center. Available at: https://escholarship.org/uc/item/4874r4hg.

working paper

Predicting the Market Penetration of Electric and Clean-Fuel Vehicles

Publication Date

November 1, 1991

Author(s)

Thomas Golob, Ryuichi Kitamura, Mark Bradley, David Bunch

Working Paper

UCI-ITS-WP-91-13

Abstract

Air quality in Southern California and elsewhere could be substantially improved if some gasoline powered personal vehicles were replaced by vehicles powered by electricity or alternative fuels, such as methanol, ethanol, propane, or compressed natural gas. Quantitative market research information about how consumers are likely to respond to alternative-fuel vehicles is critical to the development of policies aimed at encouraging such technological change. In 1991, a three-phase stated preference (SP) survey was implemented in the South Coast Air Basin of California to predict the effect on personal vehicle purchases of attributes that potentially differentiate clean-fuel vehicles from conventional gasoline (or diesel) vehicles. These attributes included: limited availability of refueling stations, limited range between refueling or recharging, vehicle prices, fuel operating costs, emissions levels, multiple-fuel capability, and performance. Respondents were asked to choose one vehicle from each of five sets of hypothetical clean-fuel and conventional gasoline vehicles, each vehicle defined in terms of attributes manipulated according to a specific experimental design. Discrete choice models, such as the multinomial logit model, are then used to estimate how the values of the attribute levels influence purchase decisions. The SP survey choice sets were customized to each respondent’s situation, as determined in the preceding Phase of the survey. The final Phase of the survey involved fuel-choice SP tasks for multi-fuel vehicles that can run on either clean fuels or gasoline. Preliminary results from a pilot sample indicate that the survey responses are plausible and will indeed be useful for forecasting.

Suggested Citation
Thomas F. Golob, Ryuichi Kitamura, Mark Bradley and David S. Bunch (1991) Predicting the Market Penetration of Electric and Clean-Fuel Vehicles. Working Paper UCI-ITS-WP-91-13. Institute of Transportation Studies, Irvine. Available at: https://escholarship.org/uc/item/9jc2n56h.

policy brief

Will COVID-19 Worsen California’s Truck Driver Shortage?

Abstract

The trucking industry serves as the backbone of the nation’s economy. In 2018, approximately 3.5 million truck drivers were delivering over 70% of all freight tonnage in the United States, generating close to $800 billion in gross revenue annually. While 3.5 million truck drivers represents a significant number of jobs, it is not enough to satisfy demand. The trucking industry suffers from a chronic shortage of drivers. Nearly 70,000 additional heavy-duty tractor-trailer drivers in the United States were needed at the end of 2018, according to the American Trucking Associations. And COVID-19 has brought new challenges that may amplify or dampen the driver shortage and in turn impact supply chains. For example, what if a small percentage of long-haul truck drivers became ill? Would it cripple the industry? Would it significantly delay the delivery of essential medical supplies and equipment? This policy brief summarizes a study from UC Irvine exploring the challenges imposed by COVID-19 on truck drivers, looking at past crises, and interviewing academic and industry experts.

Suggested Citation
Amelia Regan and Jean-Daniel Saphores (2020) Will COVID-19 Worsen California’s Truck Driver Shortage?. Policy Brief. UC ITS. Available at: https://doi.org/10.7922/g2x63k72.

published journal article

Freight industry attitudes towards policies to reduce congestion

Transportation Research Part E: Logistics and Transportation Review

Publication Date

March 1, 2000

Abstract

This paper presents an analysis of the perceptions held by for-hire and private trucking company logistics and operations managers about the impacts of congestion on their operations and the feasibility and effectiveness of actual and potential congestion mitigation policies. Responses to an extensive survey of nearly 1200 California-based or large national carriers are examined using confirmatory factor analysis. The method applied facilitates both the grouping of congestion relief policies into classes and the identification of characteristics of companies which lead them to favor one set of policies over others. This research comes at a time when California government leaders and transportation policy analysts are struggling with key resource allocation issues that will impact the short and long term future of goods movement in the state. To the greatest extent possible, insights of commercial vehicle operations users of the transportation network should be included in the policy analysis process. (C) 1999 Elsevier Science Ltd. All rights reserved.

Suggested Citation
Thomas F. Golob and Amelia C. Regan (2000) “Freight industry attitudes towards policies to reduce congestion”, Transportation Research Part E: Logistics and Transportation Review, 36(1), pp. 55–77. Available at: 10.1016/s1366-5545(99)00017-4.

published journal article

Analytical models of rail transportation service in the grain supply chain: Deconstructing the operational and economic advantages of shuttle train service

Transportation Research Part E: Logistics and Transportation Review

Publication Date

September 1, 2016

Author(s)

Michael Hyland, Hani Mahmassani, Lama Bou Mjahed
Suggested Citation
Michael F. Hyland, Hani S. Mahmassani and Lama Bou Mjahed (2016) “Analytical models of rail transportation service in the grain supply chain: Deconstructing the operational and economic advantages of shuttle train service”, Transportation Research Part E: Logistics and Transportation Review, 93, pp. 294–315. Available at: 10.1016/j.tre.2016.06.008.

conference paper

The price of anarchy in active signal landscape map building

2013 IEEE global conference on signal and information processing

Publication Date

December 1, 2013

Author(s)

Zaher Kassas, Todd E. Humphreys
Suggested Citation
Zaher M. Kassas and Todd E. Humphreys (2013) “The price of anarchy in active signal landscape map building”, in 2013 IEEE global conference on signal and information processing. IEEE, pp. 165–168. Available at: 10.1109/globalsip.2013.6736841.

conference paper

Towards Secure and Robust Autonomy Software in Autonomous Driving and Smart Transportation

Proceedings of the 7th ACM on Cyber-Physical System Security Workshop

Publication Date

May 25, 2021

Author(s)

Abstract

Autonomous Driving (AD) technology has always been an international pursuit due to its significant benefit in driving safety, efficiency, and mobility. Over 15 years after the first DARPA Grand Challenge, its development and deployment are becoming increasingly mature and practical, with some AD vehicles already providing services on public roads (e.g., Google Waymo One in Phoenix and Baidu Apollo Go in China). In AD technology, the autonomy software stack, or the AD software, is highly security critical: it is in charge of safety-critical driving decisions such as collision avoidance and lane keeping, and thus any security problems in it can directly impact road safety. In this talk, I will describe my recent research that initiates the first systematic effort towards understanding and addressing the security problems in production AD software. I will be focusing on two critical modules: perception and localization, and talk about how we are able to discover novel and practical sensor/physical-world attacks that can cause end-to-end safety impacts such as crashing into obstacles or driving off road. Besides AD software, I will also briefly talk about my recent research on autonomy software security in smart transportation in general, especially those enabled by Connected Vehicle (CV) technology. I will conclude with a discussion on defense and future research directions.

Suggested Citation
Alfred Qi Chen (2021) “Towards Secure and Robust Autonomy Software in Autonomous Driving and Smart Transportation”, in Proceedings of the 7th ACM on Cyber-Physical System Security Workshop. New York, NY, USA: Association for Computing Machinery (CPSS '21), p. 1. Available at: 10.1145/3457339.3457978.