Using Phenomenology to Assess Risk Perception of a New Technology in Public Transportation the Case of the Autonomous Vehicles as Mobility as a Service (MaaS) in Switzerland

Abstract Background This paper provides insight into the opportunity offered by shared autonomous vehicles (SAVs) to improve urban populations’ spatial equity in accessibility. It provides a concrete implementation model for SAVs set to improve equity in accessibility and highlights the need of regulation in order for SAVs to help overcome identified spatial mismatches. Methodology Through the formulation of linear regression models, the relationship between land-use and transportation accessibility (by car and public transport) and socio-economic well-being indicators is tested on district-level in four European cities: Paris, Berlin, London and Vienna. Accessibility data is used to analyse access to points of interest within given timespans by both car and public transport. To measure equity in socio-economic well-being, three district-level proxies are introduced: yearly income, unemployment rate and educational attainment. Results In the cities of Paris, London and Vienna, as well as partially in Berlin, positive effects of educational attainment on accessibility are evidenced. Further, positive effects on accessibility by yearly income are found in Paris and London. Additionally, negative effects of an increased unemployment rate on accessibility are observed in Paris and Vienna. Through the comparison between accessibility by car and public transportation in the districts of the four cities, the potential for SAVs is evidenced. Lastly, on the basis of the findings a ‘SAV identification matrix’ is created, visualizing the underserved districts in each of the four cities and the need of equity enhancing policy for the introduction of SAVs is emphasized.

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Psychological Structure of Human Trust Toward Autonomous Vehicles—Structural Equation Model Including Interpersonal, System Feature, Risk Perception, and Behavioral Intention with Trust

SSRN Electronic Journal ◽

10.2139/ssrn.3981316 ◽

2021 ◽

Author(s):

Hyunjae Park ◽

Hyunjoo Park ◽

Kyungwon (Kyung) Lee ◽

Sang-Hwan Kim

Keyword(s):

Risk Perception ◽

Structural Equation Model ◽

Behavioral Intention ◽

Autonomous Vehicles ◽

Structural Equation ◽

Equation Model ◽

Psychological Structure ◽

System Feature

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Exploring Concerns and Preferences towards Using Autonomous Vehicles as a Public Transportation Option: Perspectives from a Public Focus Group Study

International Conference on Transportation and Development 2021 ◽

10.1061/9780784483534.030 ◽

2021 ◽

Author(s):

Roya Etminani-Ghasrodashti ◽

Ronik Ketankumar Patel ◽

Sharareh Kermanshachi ◽

Jay Michael Rosenberger ◽

David Weinreich

Keyword(s):

Focus Group ◽

Public Transportation ◽

Autonomous Vehicles ◽

Focus Group Study

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Future Blockchain Technology for Autonomous Applications/Autonomous Vehicle

10.4018/978-1-6684-3694-3.ch050 ◽

2022 ◽

pp. 1027-1038

Author(s):

Arnab Kumar Show ◽

Abhishek Kumar ◽

Achintya Singhal ◽

Gayathri N. ◽

K. Vengatesan

Keyword(s):

Autonomous Vehicles ◽

New Technology ◽

Autonomous Vehicle ◽

The Self ◽

Third Party ◽

Traffic Information ◽

Online Transactions ◽

The Third ◽

Blockchain Technology ◽

Self Driving Cars

The autonomous industry has rapidly grown for self-driving cars. The main purpose of autonomous industry is trying to give all types of security, privacy, secured traffic information to the self-driving cars. Blockchain is another newly established secured technology. The main aim of this technology is to provide more secured, convenient online transactions. By using this new technology, the autonomous industry can easily provide more suitable, safe, efficient transportation to the passengers and secured traffic information to the vehicles. This information can easily gather by the roadside units or by the passing vehicles. Also, the economical transactions can be possible more efficiently since blockchain technology allows peer-to-peer communications between nodes, and it also eliminates the need of the third party. This chapter proposes a concept of how the autonomous industry can provide more adequate, proper, and safe transportation with the help of blockchain. It also examines for the possibility that autonomous vehicles can become the future of transportation.

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Factors Influencing Adoption of Information Technologies for Public Transportation Project Inspection: A WSDOT Case Study

Transportation Research Record Journal of the Transportation Research Board ◽

10.1177/0361198118823198 ◽

2019 ◽

Vol 2673 (2) ◽

pp. 1-12

Author(s):

Julian Yamaura ◽

Stephen T. Muench ◽

Kim Willoughby

Keyword(s):

Organizational Change ◽

Change Management ◽

Public Transportation ◽

Information Technologies ◽

User Study ◽

New Technology ◽

Management Program ◽

Lessons Learned ◽

Structured Interviews

This paper presents a case study of the organizational change process associated with the Washington State Department of Transportation (WSDOT) year-long research program that implemented a cloud-based mobile project inspection application to 18 project engineering offices (PEO) across the state. Ultimately, four out of the 18 PEOs decided to adopt the new technology. Data from semi-structured interviews and a user study conducted two months after implementation are used to identify organizational change strategies used by WSDOT, and how those relate to ideas from the general literature on change management. The loss of upper management program leaders, inadequate communication and training to prepare personnel for the change, and policy and procedural uncertainties in integrating the change with other systems and operations were found to be factors that may have influenced the outcome of the program. While this paper focuses on one DOT’s efforts, other DOTs may have similar organizational structures and implementation efforts, and the findings and lessons learned could serve as a representative model for how such implementation might best be accomplished in a DOT and how that might differ from traditional change management guidance.

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What Affects Social Acceptance and Use Intention for Autonomous Vehicles --Benefits, Risk Perception, or Experience? -Meta-Analysis in Japan-

International Journal of Intelligent Transportation Systems Research ◽

10.1007/s13177-018-0170-x ◽

2018 ◽

Vol 18 (1) ◽

pp. 22-34

Author(s):

Yasuhide Nishihori ◽

Kota Kimura ◽

Ayako Taniguchi ◽

Takayuki Morikawa

Keyword(s):

Risk Perception ◽

Autonomous Vehicles ◽

Social Acceptance ◽

Meta Analysis

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Will the Thai ABC Car Owners, Buy a Smart ABC Car? a Case Study in Bangkok Metropolis

International Journal of Engineering & Technology ◽

10.14419/ijet.v7i3.30.18229 ◽

2018 ◽

Vol 7 (3.30) ◽

pp. 202

Author(s):

Keerati Sittichainarong ◽

Aaron Loh ◽

Preecha Methavasaraphak ◽

John Barnes

Keyword(s):

Automobile Industry ◽

Autonomous Vehicles ◽

New Technology ◽

Influential Factors ◽

Self Identity ◽

Factors Affecting ◽

Intent To Purchase ◽

Intention To Purchase ◽

Near Future

Thailand is the biggest manufacturer of trucks and cars outside of Japan and China in Asia. Many had reported that "smart" technology especially that which leads towards driverless or autonomous vehicles will be the most important single development that will affect the automobile industry both domestically and globally. Hence this research is therefore on the readiness of Thai car owners to adopt the new technology and the intention to purchase a smart car in the near future. Specifically, it is a case study on the influential factors affecting the intent to purchase a smart car by owners of a top Japanese brand in Bangkok. A questionnaire survey was conducted on 385 existing car owners of the Japanese brand under consideration in metropolitan areas of Bangkok and the data returned analyzed by multiple linear regression. The outcome of the research pointed towards ‘Self-identity” and ‘Emotional connection’ as the most influential factors towards the intent to purchase a smart car.

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Human-Like Lane Change Decision Model for Autonomous Vehicles that Considers the Risk Perception of Drivers in Mixed Traffic

Sensors ◽

10.3390/s20082259 ◽

2020 ◽

Vol 20 (8) ◽

pp. 2259 ◽

Cited By ~ 3

Author(s):

Chang Wang ◽

Qinyu Sun ◽

Zhen Li ◽

Hongjia Zhang

Keyword(s):

Risk Perception ◽

Autonomous Vehicles ◽

Decision Model ◽

Signal Detection Theory ◽

Critical Issue ◽

Lane Change ◽

Mixed Traffic ◽

Driving System ◽

Lane Changes ◽

The Subject

Determining an appropriate time to execute a lane change is a critical issue for the development of Autonomous Vehicles (AVs).However, few studies have considered the rear and the front vehicle-driver’s risk perception while developing a human-like lane-change decision model. This paper aims to develop a lane-change decision model for AVs and to identify a two level threshold that conforms to a driver’s perception of the ability to safely change lanes with a rear vehicle approaching fast. Based on the signal detection theory and extreme moment trials on a real highway, two thresholds of safe lane change were determined with consideration of risk perception of the rear and the subject vehicle drivers, respectively. The rear vehicle’s Minimum Safe Deceleration (MSD) during the lane change maneuver of the subject vehicle was selected as the lane change safety indicator, and was calculated using the proposed human-like lane-change decision model. The results showed that, compared with the driver in the front extreme moment trial, the driver in the rear extreme moment trial is more conservative during the lane change process. To meet the safety expectations of the subject and rear vehicle drivers, the primary and secondary safe thresholds were determined to be 0.85 m/s2 and 1.76 m/s2, respectively. The decision model can help make AVs safer and more polite during lane changes, as it not only improves acceptance of the intelligent driving system, but also further ensures the rear vehicle’s driver’s safety.

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Local Climate Action Planning as a Tool to Harness Greenhouse Gas Emissions Mitigation and the Equity Potential of Autonomous Vehicles and On-Demand Mobility

Transportation Research Record Journal of the Transportation Research Board ◽

10.1177/03611981211052541 ◽

2021 ◽

pp. 036119812110525

Author(s):

Serena Alexander ◽

Asha Weinstein Agrawal ◽

Benjamin Clark

Keyword(s):

Content Analysis ◽

Greenhouse Gas ◽

Public Transportation ◽

Autonomous Vehicles ◽

Ghg Emissions ◽

Action Planning ◽

Transportation System ◽

Emissions Reduction ◽

On Demand ◽

Climate Action

This paper focuses on how cities can use climate action plans (CAPs) to ensure that on-demand mobility and autonomous vehicles (AVs) help reduce, rather than increase, greenhouse gas (GHG) emissions and inequitable impacts from the transportation system. We employed a three-pronged research strategy involving: (1) an analysis of the current literature on on-demand mobility and AVs; (2) a systematic content analysis of 23 CAPs and general plans (GPs) developed by municipalities in California; and (3) a comparison of findings from the literature and content analysis of plans to identify opportunities for GHG emissions reduction and mobility equity. Findings indicate that policy and planning discussions should consider the synergies between AVs and on-demand mobility as two closely related emerging mobility trends, as well as the key factors (e.g., vehicle electrification, fuel efficiency, use and ownership, access, and distribution, etc.) that determine whether the deployment of AVs would help reduce GHG emissions from transportation. Additionally, AVs and on-demand mobility have the potential to contribute to a more equitable transportation system by improving independence and quality of life for individuals with disabilities and the elderly, enhancing access to transit, and helping alleviate the geographic gap in public transportation services. Although many municipal CAPs and GPs in California have adopted several strategies and programs relevant to AVs and on-demand mobility, several untapped opportunities exist to harness the GHG emissions reduction and social benefits potential of AVs and on-demand mobility.

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CO-CREATION WORKSHOP FOR INTERFACE DESIGN - DESIGNING INNOVATIVE HMI FOR AUTOMATED VEHICLES

Revista ErgodesignHCI ◽

10.22570/ergodesignhci.v7iespecial.1305 ◽

2019 ◽

Vol 7 (Especial) ◽

pp. 24

Author(s):

Manuela Quaresma ◽

Isabela Motta

Keyword(s):

Interface Design ◽

Autonomous Vehicles ◽

New Technology ◽

Information Design ◽

Innovative Product ◽

Human Machine Interfaces ◽

Wide Range ◽

Design Students ◽

Group Brainstorming

The increasing growth in the development of new technology is changing the way users interact with products. Thus, designers must re-think the human-machine interfaces (HMI) for communicating information regularly. Co-creation – the process of joint creation of users and designers – is an approach to product and experience development that can substantially benefit the generation of innovative product proposals. The present paper aims to assess the feasibility of co-creation workshops for the development of proposals for interfaces of Artificial Intelligence derived products through a case study on interfaces for autonomous vehicles. For this purpose, two sessions of co-creation workshops using group brainstorming techniques were conducted with undergraduate and graduate Design students and professors, who are specialists in interaction and information design. The results showed that the interfaces proposed by the designers were communicated information in a wide range of ways, making use of existing technologies to present messages in an innovative manner, meeting autonomous vehicles’ users’ needs.

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