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)

Qi Alfred Chen

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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.

research report

Reimagining Transportation as a Social Service to Build Resilience and Support Community Power

Publication Date

January 1, 2025

Associated Project

Exploring Opportunities to Improve Transit Access to Community Resilience Centers for Safety and Evacuation Planning

Author(s)

Jeannine Pearce, Nicola Ulibarri, Elisa Borowski

Areas of Expertise

Public Transit, Shared Mobility, & Active Transportation

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Abstract

This study develops guidance for public transit agencies in Los Angeles, California to better prepare for hazards and address challenges, including climate and safety concerns. Using a community-based participatory research methodology in partnership with the local non-profit organization Climate Resolve, three listening sessions were conducted with 26 community members involved with the Boyle Heights Arts Conservatory, a community-serving resilience hub that supports residents in accessing resources both during everyday conditions and extreme events, to explore their experiences related to public transit and how it could be better integrated with existing social systems to increase systems’ resilience to extreme weather disruptions. Based on several recurring themes drawn from the participants’ statements, a framework was developed named Cascading Vulnerabilities, Ascending Strengths to explore the connections between infrastructure systems’ vulnerabilities and strengths. The study concluded with a reexamination of the traditional Four Rs of resilience framework, expanding these measures to include both physical and social infrastructure through a multisystemic resilience lens.

Suggested Citation

Jeannine Marie Pearce, Nicola Ulibarri and Elisa Borowski (2025) Reimagining Transportation as a Social Service to Build Resilience and Support Community Power. Final Report. Available at: https://ezid.cdlib.org/id/doi:10.7922/G24Q7SCW (Accessed: September 16, 2025).

Related Publications

policy brief | Jan 2025

Evaluating Equity in Transportation and Hazard Preparedness Plans: A Multi-Level Governance Approach

policy brief | Jan 2025

Resilience Hubs are a Community Resilience Strategy That Should be Better Integrated Into Los Angeles’ Public Transit System

Preprint Journal Article | Apr 2025

Beyond Infrastructure: Patterns of Environmental Justice and Multi-Level Governance in Greater Los Angeles Transportation and Hazard Planning

presentation | Mar 2025

Equity in Transportation Resilience

published journal article

Freight industry attitudes towards policies to reduce congestion

Transportation Research Part E: Logistics and Transportation Review

Publication Date

March 1, 2000

Author(s)

Thomas Golob, Amelia Regan

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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.

working paper

Modelling Worker Residence Distribution in the Los Angeles Region

Publication Date

December 1, 1993

Associated Project

UCTC: (1991) ISTEA version

Author(s)

Shunfeng Song

Working Paper

No. 196

Areas of Expertise

Travel Behavior, Land Use, & the Built Environment

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Abstract

This paper examines the spatial pattern of worker residences with three different density functions: monocentric, polycentric, and dispersive. Analysis of the 1980 journey-to-work census data for the Los Angeles region reveals that the polycentric density function statistically explains the actual distribution better than the monocentric density function, but the dispersive density function fits best. These findings confirm a polycentric spatial pattern, and also imply that overall accessibility to employment opportunities is the primary determinant of residential location choices.

Suggested Citation

Shunfeng Song (1993) Modelling Worker Residence Distribution in the Los Angeles Region. Working Paper No. 196. Institute of Transportation Studies, UC Irvine: University of California Transportation Center. Available at: https://escholarship.org/uc/item/33s027ms.

Related Publications

working paper | Aug 1992

Private Toll Roads: Learning from the 19th Century

working paper | Aug 1997

Project Evaluation

working paper | Mar 1995

A Dynamic Forecasting System for Vehicle Markets with Clean-Fuel Vehicles

working paper | Mar 1999

A Simultaneous Model of Household Activity Participation and Trip Chain Generation

Phd Dissertation | Jan 1996

An Empirical Study of Alternative Fuel Vehicle Choice by Commercial Fleets: Lessons in Transportation Choices, and Public Agencies' Organization

Preprint Journal Article

SLAMSpoof: Practical LiDAR Spoofing Attacks on Localization Systems Guided by Scan Matching Vulnerability Analysis

Publication Date

February 19, 2025

Author(s)

Rokuto Nagata, Kenji Koide, Yuki Hayakawa, Ryo Suzuki, Kazuma Ikeda, Ozora Sako, Qi Alfred Chen, Takami Sato, Kentaro Yoshioka

Areas of Expertise

Intelligent Transportation Systems, Emerging Technologies, & Big Data

View Preprint Journal Article

Abstract

Accurate localization is essential for enabling modern full self-driving services. These services heavily rely on map-based traffic information to reduce uncertainties in recognizing lane shapes, traffic light locations, and traffic signs. Achieving this level of reliance on map information requires centimeter-level localization accuracy, which is currently only achievable with LiDAR sensors. However, LiDAR is known to be vulnerable to spoofing attacks that emit malicious lasers against LiDAR to overwrite its measurements. Once localization is compromised, the attack could lead the victim off roads or make them ignore traffic lights. Motivated by these serious safety implications, we design SLAMSpoof, the first practical LiDAR spoofing attack on localization systems for self-driving to assess the actual attack significance on autonomous vehicles. SLAMSpoof can effectively find the effective attack location based on our scan matching vulnerability score (SMVS), a point-wise metric representing the potential vulnerability to spoofing attacks. To evaluate the effectiveness of the attack, we conduct real-world experiments on ground vehicles and confirm its high capability in real-world scenarios, inducing position errors of $geq$4.2 meters (more than typical lane width) for all 3 popular LiDAR-based localization algorithms. We finally discuss the potential countermeasures of this attack. Code is available at https://github.com/Keio-CSG/slamspoof

Suggested Citation

Rokuto Nagata, Kenji Koide, Yuki Hayakawa, Ryo Suzuki, Kazuma Ikeda, Ozora Sako, Qi Alfred Chen, Takami Sato and Kentaro Yoshioka (2025) “SLAMSpoof: Practical LiDAR Spoofing Attacks on Localization Systems Guided by Scan Matching Vulnerability Analysis”. arXiv. Available at: 10.48550/arXiv.2502.13641.

Published Journal Article: Structural equation modeling for travel behavior research

Abstract

Structural equation modeling (SEM) is an extremely flexible linear-in-parameters multivariate statistical modeling technique. It has been used in modeling travel behavior and values since about 1980, and its use is rapidly accelerating, partially due to the availability of improved software. The number of published studies, now known to be more than 50, has approximately doubled in the past three years. This review of SEM is intended to provide an introduction to the field for those who have not used the method, and a compendium of applications for those who wish to compare experiences and avoid the pitfall of reinventing previous research.

published journal article

A switching regression analysis of urban population densities: Preliminary results

Papers in Regional Science

Publication Date

January 1, 1985

Author(s)

Jan Brueckner

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Suggested Citation

Jan Brueckner (1985) “A switching regression analysis of urban population densities: Preliminary results”, Papers in Regional Science, 56(1), pp. 71–87. Available at: 10.1111/j.1435-5597.1985.tb00839.x.

published journal article

How households use different types of vehicles: A structural driver allocation and usage model

Transportation Research Part A: Policy and Practice

Publication Date

March 1, 1996

Author(s)

Thomas Golob, Seyoung Kim, Weiping Ren

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Abstract

The vehicle miles of travel for each vehicle in multi-vehicle households is modelled as a function of household characteristics, vehicle characteristics, and the matches of vehicle to driver in the satisfaction of travel desires. A structural equations model is developed in which principal driver characteristics, as well as vehicle miles of travel, are endogenous. There are links between how each vehicle is used and who in the household is each vehicle’s principal driver. Each vehicle’s usage can then be expressed in reduced-form equations as a function of exogenous household and vehicle type variables for forecasting purpose’s. The model is estimated on a 1993 sample of approximately 2000 multi-vehicle households in California.

Suggested Citation

Thomas F. Golob, Seyoung Kim and Weiping Ren (1996) “How households use different types of vehicles: A structural driver allocation and usage model”, Transportation Research Part A: Policy and Practice, 30(2), pp. 103–118. Available at: 10.1016/0965-8564(95)00022-4.

published journal article

Some general results on the optimal ramp control problem

Transportation Research Part C: Emerging Technologies

Publication Date

April 1, 1996

Author(s)

Michael Zhang, Stephen Ritchie, Will Recker

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Abstract

In an effort to relieve peak hour congestion on freeways, various ramp metering algorithms have been employed to regulate the inputs to freeways from entry ramps. In this paper, we consider a freeway system comprised of a freeway section and its entry/exit ramps, and formulate the ramp control problem as a dynamic optimal process to minimize the total time spent in this system. Within this framework, we are able to show when ramp metering is beneficial to the system in terms of total time savings, and when it is not, under the restriction that the controlled freeway has to serve all of its ramp demand, and the traffic flow process follows the rules prescribed by the LWR theory with a triangular flow-density relationship. We also provide solution techniques to the problem and present some preliminary numerical results and empirical validation.

Suggested Citation

H. Zhang, S. G. Ritchie and W. W. Recker (1996) “Some general results on the optimal ramp control problem”, Transportation Research Part C: Emerging Technologies, 4(2), pp. 51–69. Available at: 10.1016/0968-090X(96)00002-2.

conference paper

Context-sensitive synthesis of executable functional models of cyber-physical systems

Proceedings of the ACM/IEEE 4th international conference on cyber-physical systems - ICCPS '13

Publication Date

January 1, 2013

Author(s)

Arquimedes Canedo, Eric Schwarzenbach, Mohammad Al Faruque

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Abstract

The high complexity of cross-domain engineering in combination with the pressure for product innovation, higher quality, time-to-market, and budget constraints make it imperative for companies to use integrated engineering methods and tools. Computer engineering tools are mainly focused on a particular domain and therefore it is difficult to combine different tools for system-level analysis. This paper presents a novel approach and tool for integrated cyber-physical systems (CPS) design based on the FBS (Function-Behavior-State) methodology where multi-domain simulation models capturing both the behavioral-structural aspects of a system are automatically generated from its functional description. Our approach focuses on simulation-enabled FBS models using automatic and context-sensitive mappings of standard Functional Basis elementary functions to simulation components described in physical modeling languages (i.e. Modelica). Using a real electromechanical CPS application we demonstrate how our context-sensitive synthesis approach generates industry-quality executable functional models of higher quality than state-of-the-art approaches using manual mapping.

Suggested Citation

Arquimedes Canedo, Eric Schwarzenbach and Mohammad Abdullah Al Faruque (2013) “Context-sensitive synthesis of executable functional models of cyber-physical systems”, in Proceedings of the ACM/IEEE 4th international conference on cyber-physical systems - ICCPS '13. ACM Press (ACM-IEEE international conference on cyber-physical systems), pp. 99–108. Available at: 10.1145/2502524.2502539.