Test and Evaluation Methods for Human-Machine Interfaces of Automated Vehicles

Today, OEMs and suppliers can rely on commonly agreed and standardized test and evaluation methods for in-vehicle human–machine interfaces (HMIs). These have traditionally focused on the context of manually driven vehicles and put the evaluation of minimizing distraction effects and enhancing usability at their core (e.g., AAM guidelines or NHTSA visual-manual distraction guidelines). However, advances in automated driving systems (ADS) have already begun to change the driver’s role from actively driving the vehicle to monitoring the driving situation and being ready to intervene in partially automated driving (SAE L2). Higher levels of vehicle automation will likely only require the driver to act as a fallback ready user in case of system limits and malfunctions (SAE L3) or could even act without any fallback within their operational design domain (SAE L4). During the same trip, different levels of automation might be available to the driver (e.g., L2 in urban environments, L3 on highways). These developments require new test and evaluation methods for ADS, as available test methods cannot be easily transferred and adapted. The shift towards higher levels of vehicle automation has also moved the discussion towards the interaction between automated and non-automated road users using exterior HMIs. This Special Issue includes theoretical papers a well as empirical studies that deal with these new challenges by proposing new and innovative test methods in the evaluation of ADS HMIs in different areas.

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Analysis of the Reasons of Driving Wandering and Research of Solution Methods

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.602-605.795 ◽

2014 ◽

Vol 602-605 ◽

pp. 795-798 ◽

Cited By ~ 1

Author(s):

Xuan Jiong Xu ◽

Xue Xun Guo

Keyword(s):

Evaluation Methods ◽

Feature Analysis ◽

Dynamic Feature ◽

Vehicle Dynamic ◽

Test And Evaluation ◽

Solution Methods

Through research of vehicle dynamic feature, analysis and research of the problem of driving wandering by user retroactions, the article put forward some test and evaluation methods of driving wandering. And the article is discussed about main reasons and solutions of driving wandering in-depth.

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Anthropomorphism: An Investigation of Its Effect on Trust in Human-Machine Interfaces for Highly Automated Vehicles

Advances in Intelligent Systems and Computing - Proceedings of the 20th Congress of the International Ergonomics Association (IEA 2018) ◽

10.1007/978-3-319-96074-6_37 ◽

2018 ◽

pp. 343-352 ◽

Cited By ~ 1

Author(s):

Erik Aremyr ◽

Martin Jönsson ◽

Helena Strömberg

Keyword(s):

Automated Vehicles ◽

Human Machine Interfaces

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DEVELOPMENT OF STRUCTURAL TEST AND EVALUATION METHODS FOR VERIFICATION OF WIND-RESISTANT PERFORMANCE OF STEEL WALL SYSTEM

AIJ Journal of Technology and Design ◽

10.3130/aijt.18.431 ◽

2012 ◽

Vol 18 (39) ◽

pp. 431-436

Author(s):

Hitomitsu KIKITSU ◽

Akihito YOSHIDA ◽

Yutaka MAEDA ◽

Hiroaki NISHIMURA ◽

Hisashi OKADA

Keyword(s):

Evaluation Methods ◽

Test And Evaluation ◽

Structural Test ◽

Wall System

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Comparing and Analysis of Test and Evaluation Methods for Connected Vehicle Communication Antenna System

Journal of Physics Conference Series ◽

10.1088/1742-6596/2108/1/012007 ◽

2021 ◽

Vol 2108 (1) ◽

pp. 012007

Author(s):

Tong Zhu ◽

Guotian Ji ◽

Guokai Jiang ◽

Yifu Ding ◽

Jiaxu Feng ◽

...

Keyword(s):

Fast Response ◽

Evaluation Methods ◽

Antenna System ◽

System Evaluation ◽

Connected Vehicle ◽

Evaluation Program ◽

Vehicle Communication ◽

Test And Evaluation ◽

Wide Range ◽

Antenna Systems

Abstract With the development of Connected Vehicle, various of on-board applications and functions rely on stable, reliable and fast-response wireless connections furtherly, making it more urgent and widespread for vehicles to be equipped with relevant antenna systems such as positioning and communication. There are many types of vehicle antenna systems, together with a wide range of installation locations and a complex electronic environment which brings a huge challenges to the development of antenna manufacturers and the matching of automobile OEMs. In order to carry out the R&D, matching and testing of the vehicle antenna system better, various parties have proposed a multi-dimensional test and evaluation methods, but there is still a lack of horizontal evaluation between them. This paper analyses the requirements of automotive antenna system evaluation, sorts out and compares the technical paths of various common solutions, summarizes the characteristics and differences of various solutions, and provides a research foundation for further optimizing the vehicle-level antenna system test and evaluation program.

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How Do eHMIs Affect Pedestrians’ Crossing Behavior? A Study Using a Head-Mounted Display Combined with a Motion Suit

Information ◽

10.3390/info10120386 ◽

2019 ◽

Vol 10 (12) ◽

pp. 386 ◽

Cited By ~ 7

Author(s):

Lars Kooijman ◽

Riender Happee ◽

Joost de Winter

Keyword(s):

Urban Environment ◽

Motion Tracking ◽

Automated Vehicles ◽

Forward Motion ◽

The Road ◽

Head Mounted Display ◽

Human Machine Interfaces ◽

Do So

In future trac, automated vehicles may be equipped with external human-machine interfaces (eHMIs) that can communicate with pedestrians. Previous research suggests that, during first encounters, pedestrians regard text-based eHMIs as clearer than light-based eHMIs. However, in much of the previous research, pedestrians were asked to imagine crossing the road, and unable or not allowed to do so. We investigated the effects of eHMIs on participants’ crossing behavior. Twenty-four participants were immersed in a virtual urban environment using a head-mounted display coupled to a motion-tracking suit. We manipulated the approaching vehicles’ behavior (yielding, nonyielding) and eHMI type (None, Text, Front Brake Lights). Participants could cross the road whenever they felt safe enough to do so. The results showed that forward walking velocities, as recorded at the pelvis, were, on average, higher when an eHMI was present compared to no eHMI if the vehicle yielded. In nonyielding conditions, participants showed a slight forward motion and refrained from crossing. An analysis of participants’ thorax angle indicated rotation towards the approaching vehicles and subsequent rotation towards the crossing path. It is concluded that results obtained via a setup in which participants can cross the road are similar to results from survey studies, with eHMIs yielding a higher crossing intention compared to no eHMI. The motion suit allows investigating pedestrian behaviors related to bodily attention and hesitation.

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Checklist for Expert Evaluation of HMIs of Automated Vehicles—Discussions on Its Value and Adaptions of the Method within an Expert Workshop

Information ◽

10.3390/info11040233 ◽

2020 ◽

Vol 11 (4) ◽

pp. 233 ◽

Cited By ~ 3

Author(s):

Nadja Schömig ◽

Katharina Wiedemann ◽

Sebastian Hergeth ◽

Yannick Forster ◽

Jeffrey Muttart ◽

...

Keyword(s):

Evaluation Methods ◽

Assessment Method ◽

Evaluation Methodology ◽

Santa Fe ◽

Driver Assistance ◽

Automated Vehicles ◽

Automated Driving ◽

Driver Assistance Systems ◽

Hands On ◽

Assistance Systems

Within a workshop on evaluation methods for automated vehicles (AVs) at the Driving Assessment 2019 symposium in Santa Fe; New Mexico, a heuristic evaluation methodology that aims at supporting the development of human–machine interfaces (HMIs) for AVs was presented. The goal of the workshop was to bring together members of the human factors community to discuss the method and to further promote the development of HMI guidelines and assessment methods for the design of HMIs of automated driving systems (ADSs). The workshop included hands-on experience of rented series production partially automated vehicles, the application of the heuristic assessment method using a checklist, and intensive discussions about possible revisions of the checklist and the method itself. The aim of the paper is to summarize the results of the workshop, which will be used to further improve the checklist method and make the process available to the scientific community. The participants all had previous experience in HMI design of driver assistance systems, as well as development and evaluation methods. They brought valuable ideas into the discussion with regard to the overall value of the tool against the background of the intended application, concrete improvements of the checklist (e.g., categorization of items; checklist items that are currently perceived as missing or redundant in the checklist), when in the design process the tool should be applied, and improvements for the usability of the checklist.

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