Phd Dissertation

Deployment of Fuel Cell Electric Buses in Transit Agencies : Hydrogen Demand Allocation and Preferable Hydrogen Infrastructure Rollout Scenarios

Abstract

Aiming to reduce criteria air pollutant and greenhouse gas emissions, several initiatives have been announced throughout the world to incorporate zero emission buses into public transit agencies within the next 15 years. One example is the California Air Resources Board “Innovative Clean Transit Regulation” with the goal to transform the statewide transit bus fleet by 2040 with zero emission buses. In response, transit authorities face decisions between multiple bus technologies, each with different strengths and weaknesses as well as infrastructure requirements. Furthermore, because the performance of new bus technologies depends on the operating conditions of each transit agency, the results from demonstration projects are not typically applicable to another district. This dissertation addresses the use of Life Cycle Assessment (LCA) to compare different zero-emission bus (ZEB) technologies for transit districts in the State of California. For LCAs conducted to date, the focus has been on one-on-one bus technology comparisons rather than a combination of bus technologies integrated into bus fleets (mixed fleet). This dissertation extends the traditional LCA approach by using Multi-Objective Linear Programming (MOLP) to identify the optimal ZEB technology mix. The novelty of this extended LCA is the use of a consistent framework across multiple powertrain types with the same operating conditions. The fleet optimization incorporates essential aspects of a fleet operation such as operational constraints, route length, required infrastructure, and cost. Additionally, a Multi-Criteria Decision Analysis (MCDA) is incorporated to evaluate parameter weighting in the optimization problem, thereby creating an optimization solution that considers real constraints and priorities from stakeholders, users, and regulatory agencies. The combination of these capabilities (LCA, MOLP, and MCDA) provides a comprehensive tool, including a variety of energy supply chains, which can inform transit agencies in the design of an electric bus fleet comprised by a mix of available and emerging ZEB technologies.

Suggested Citation
Analy Munoz (2019) Deployment of Fuel Cell Electric Buses in Transit Agencies : Hydrogen Demand Allocation and Preferable Hydrogen Infrastructure Rollout Scenarios. PhD Dissertation. UC Irvine. Available at: https://escholarship.org/uc/item/90j4v96g#author.

conference paper

Calibration of a family of car-following models with retarded linear regression methods

Proceedings of the 90th annual meeting of the transportation research board annual meeting

Publication Date

January 1, 2011
Suggested Citation
Hao Yang, Qijian Gan and W.-L. Jin (2011) “Calibration of a family of car-following models with retarded linear regression methods”, in Proceedings of the 90th annual meeting of the transportation research board annual meeting.

working paper

A Knowledge-Based Decision Support Architecture for Advanced Traffic Management

Publication Date

January 1, 1990

Associated Project

Author(s)

Working Paper

Reprint No. 31

Areas of Expertise

Abstract

Fundamental to the operation of most currently envisioned Intelligent Vehicle-Roadway System (IVRS) projects are advanced systems for surveillance, control and management of integrated freeway and arterial networks. A major concern in the development of such Smart Roads, and the focus of this paper, is the provision of decision support for traffic management center personnel, particularly for addressing nonrecurring congestion in large or complex networks. Decision support for control room staff is necessary to effectively detect, verify and develop response strategies for traffic incidents. The purpose of this paper is to suggest a novel artificial intelligence-based solution approach to the problem of providing operator decision support in integrated freeway and arterial traffic management systems, as part of a more general IVRS. A conceptual design is presented that is based on multiple real-time knowledge-based expert systems (KBES) integrated by a distributed blackboard problem-solving architecture. The paper expands on the notions of artificial intelligence and Smart Roads, and in particular the role, characteristics and requirements of KBES for real-time decision support. The overall concept of a decision support architecture is discussed and the blackboard approach is defined. A conceptual design for the proposed distributed blackboard architecture is presented, and discussed in terms of the component KBES functions at an areawide level, as well as at the subnetwork or individual traffic control center level.

Suggested Citation
Stephen G. Ritchie (1990) A Knowledge-Based Decision Support Architecture for Advanced Traffic Management. Working Paper Reprint No. 31. ITS-Irvine. Available at: https://escholarship.org/uc/item/7qv4w8kj.

published journal article

Vehicle choice and utilization: Improving estimation with partially observed choices and hybrid pairs

Journal of Choice Modelling

Publication Date

September 1, 2018
Suggested Citation
Alicia Lloro and David Brownstone (2018) “Vehicle choice and utilization: Improving estimation with partially observed choices and hybrid pairs”, Journal of Choice Modelling, 28, pp. 137–152. Available at: 10.1016/j.jocm.2018.05.005.

published journal article

Characteristics of speed dispersion and its relationship to fundamental traffic flow parameters

Transportation Planning and Technology

Publication Date

August 1, 2014
Suggested Citation
Chih-Lin Chung and Will W. Recker (2014) “Characteristics of speed dispersion and its relationship to fundamental traffic flow parameters”, Transportation Planning and Technology, 37(7), pp. 581–597. Available at: 10.1080/03081060.2014.921404.

Phd Dissertation

Case Studies in Secure Contracting and Communication in Transportation Systems

Abstract

Advancements in Information and Communication Technologies have led to the proliferation of Intelligent Transportation Systems (ITS). These systems leverage emerging technologies to address the challenges of traditional transportation systems. As the number of connected devices continues to increase, smart cities and communities are reliant on ITS as apart of their ecosystems. ITS are efficient and sustainable mobility systems that leverage emerging technologies to securely interact with other transportation systems and entities. This dis- sertation explores three case studies in privacy preserving contracting and communication among vehicles in transportation systems. The first case involves paratransit systems where we explore paratransit agency adoption of complementary ride-hailing services through se- cure contracting. The second case involves Vehicular Ad-hoc Networks in which we analyze the communication and data exchange between vehicles in the network. In the last case, we introduce smart infrastructure in the analysis of ITS and traffic in smart city environments by modeling the shift in traffic behaviors through the use of dynamic traffic lights. The major contributions of this dissertation are in the analysis of the communication, security and sustainability in the three case studies.

Suggested Citation
Amari Lewis (2021) Case Studies in Secure Contracting and Communication in Transportation Systems. PhD Dissertation. UC Irvine. Available at: https://escholarship.org/uc/item/26c366rk.

working paper

Modelling non-ignorable attrition and measurement error in panel surveys: an application to travel demand modeling

Abstract

Modern panel surveys frequently suffer from high and likely non-ignorable attrition, and transportation surveys suffer from poor travel time estimates. This paper examines new methods for adjusting forecasts and model estimates to account for these problems. The methods we describe are illustrated using a new panel survey of 1500 commuters in San Diego, California. These data are being collected to evaluate a federally-funded “Congestion Pricing” experiment investigating the impacts of allowing solo drivers to pay use freeway carpool lanes. The panel survey, begun in Fall 1997, collects data on travel behavior and attitudes at six-month intervals through telephone interviews. The panel sample is refreshed with new respondents at each wave to counteract the attrition between waves. Both the original and refreshment samples are stratified on commuters’ mode choices (solo drive in free lanes, pay to solo drive in the carpool lanes, or carpool for free in carpool lanes) to insure sufficient sample size for estimating our models.

conference paper

Observability analysis of opportunistic navigation with pseudorange measurements

AIAA guidance, navigation, and control conference

Publication Date

August 1, 2012

Author(s)

Zaher Kassas, Todd Humphreys
Suggested Citation
Zaher Kassas and Todd Humphreys (2012) “Observability analysis of opportunistic navigation with pseudorange measurements”, in AIAA guidance, navigation, and control conference. American Institute of Aeronautics and Astronautics. Available at: 10.2514/6.2012-4760.

published journal article

Stable Day-to-Day Dynamics for Departure Time Choice

Transportation Science

Publication Date

January 1, 2020

Author(s)

Abstract

All existing day-to-day dynamics of departure time choice at a single bottleneck are unstable, and this has led to doubt over the existence of a stable user equilibrium in the real world. However, empirical observations and our personal driving experience suggest stable stationary congestion patterns during a peak period. In this paper, we attempt to reconcile the discrepancy by presenting a stable day-to-day dynamical system for drivers’ departure time choice at a single bottleneck. In our model, the decision variable in the execution stage is still drivers’ departure times on the next day, but in the planning stage before the execution stage, drivers determine their departure times in order to arrive at the destination at better times with lower scheduling costs. We first define within-day traffic dynamics with the point queue model, costs, the departure time user equilibrium (DTUE), and the arrival time user equilibrium (ATUE). We then identify three behavioral principles in the planning stage: (i) drivers choose their departure and arrival times in a backward fashion (backward choice principle); (ii) after choosing the arrival times, they update their departure times to balance the total costs (cost-balancing principle); (iii) they choose their arrival times to reduce their scheduling costs or gain their scheduling payoffs (scheduling cost–reducing or scheduling payoff–gaining principle). In this sense, drivers’ departure and arrival time choices are driven by their scheduling payoff choice. With a single tube or imaginary road model, we convert the nonlocal day-to-day arrival time shifting problem to a local scheduling payoff shifting problem. After introducing a new variable for the imaginary density, we apply the Lighthill–Whitham–Richards (LWR) model to describe the day-to-day dynamics of scheduling payoff choice and present splitting and cost-balancing schemes to determine arrival and departure flow rates accordingly. We define the scheduling payoff user equilibrium (SPUE) as the stationary state of the LWR model, formulate a new optimization problem for the SPUE, and prove the global stability of the SPUE and, therefore, ATUE and DTUE by using Lyapunov’s second method in which the objective function in the optimization formulation is the potential function. We also develop the corresponding discrete models for numerical solutions and use one numerical example to demonstrate the effectiveness and stability of the new day-to-day dynamical model. Different from existing ones, the new adjustment mechanism leads to stable day-to-day departure time choice dynamics by guaranteeing that drivers have better choices of departure/arrival times with larger scheduling payoffs on the next day, and such better choices are not over-chosen because of the constraint imposed by the single tube’s cross-section area, which is equal to the jam density in the LWR model. This study is the first step for understanding stable day-to-day dynamics for departure time choice, and many follow-up studies are possible and warranted.

Suggested Citation
Wen-Long Jin (2020) “Stable Day-to-Day Dynamics for Departure Time Choice”, Transportation Science, 54(1), pp. 42–61. Available at: 10.1287/trsc.2019.0919.

research report

The effectiveness of state and local incentives on household ownership of alternative fuel vehicles - a SEM analysis

Abstract

California, where transportation accounts for over half of ozone precursors and particulate matter emissions, as well as nearly 40 percent of greenhouse gas emissions, has adopted the ambitious goal of reducing petroleum use in transportation by 50 percent by 2030. One of the proposed strategies to achieve this goal is to increase the number of alternative fuel vehicles (AFVs) on the road. In California, incentives to foster the addition of AFVs include the removal of occupancy requirements to access high occupancy vehicle (HOV) lanes and parking privileges with charging facilities for Plug-in Hybrid Electric and Battery Electric vehicles. Although popular, the effectiveness of these incentives is not well known. In this context,this paper analyzes the 2012 California Household Travel Survey using a generalized structural equation model that accounts for residential self-selection, household demographic characteristics, and a measure of environmentalism. Our findings suggest that increased proximity to HOV lanes without occupancy requirement or to preferred parking/refueling facilities have a statistically significant but quite small impact (with odds ratios of 1.004 and 1.017 respectively). Pro-environmental beliefs reflected in voting behavior for environmental propositions are also statistically significant, but they have a potentially larger impact with an odds ratio of 4.733. This suggests the need to continue educating the public about the environmental impacts of fossil fuels while working with car manufacturers to make their products more attractive compared to conventional vehicles.

Suggested Citation
Jean-Daniel Saphores (2017) The effectiveness of state and local incentives on household ownership of alternative fuel vehicles - a SEM analysis. Final Report CA 16-2918. California. Dept. of Transportation / ITS-Irvine. Available at: https://dot.ca.gov/-/media/dot-media/programs/research-innovation-system-information/documents/f0016832-ca16-2918-finalreport-a11y.pdf.