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注意:仅列出部分参考文献,下载原文获取全部文献信息。Road users rarely use explicit communication when interacting in today's traffic: implications for automated vehicles
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P. Bazilinskyy et al.
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INFORMATION (2020)
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Debargha Dey et al.
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Dylan Moore et al.
AUTOMOTIVEUI'19: PROCEEDINGS OF THE 11TH ACM INTERNATIONAL CONFERENCE ON AUTOMOTIVE USER INTERFACES AND INTERACTIVE VEHICULAR APPLICATIONS (2019)
Deceleration parameters and their applicability as informal communication signal between pedestrians and automated vehicles
Claudia Ackermann et al.
TRANSPORTATION RESEARCH PART F-TRAFFIC PSYCHOLOGY AND BEHAVIOUR (2019)
How Do eHMIs Affect Pedestrians' Crossing Behavior? A Study Using a Head-Mounted Display Combined with a Motion Suit
Lars Kooijman et al.
INFORMATION (2019)
Crowdsourced Measurement of Reaction Times to Audiovisual Stimuli With Various Degrees of Asynchrony
Pavlo Bazilinskyy et al.
HUMAN FACTORS (2018)
Pedestrian-driver communication and decision strategies at marked crossings
Matus Sucha et al.
ACCIDENT ANALYSIS AND PREVENTION (2017)
How Can People Be so Good at Intercepting Accelerating Objects if They Are so Poor at Visually Judging Acceleration?
Eli Brenner et al.
I-PERCEPTION (2016)
The effect of motion and signalling on drivers' ability to predict intentions of other road users
Yee Mun Lee et al.
ACCIDENT ANALYSIS AND PREVENTION (2016)
The estimation of vehicle speed and stopping distance by pedestrians crossing streets in a naturalistic traffic environment
Rouxian Sun et al.
TRANSPORTATION RESEARCH PART F-TRAFFIC PSYCHOLOGY AND BEHAVIOUR (2015)
jsPsych: A JavaScript library for creating behavioral experiments in a Web browser
Joshua R. de Leeuw
BEHAVIOR RESEARCH METHODS (2015)
On the relationship between pedestrian gap acceptance and time to arrival estimates
Tibor Petzoldt
ACCIDENT ANALYSIS AND PREVENTION (2014)
Pedestrians at the kerb - Recognising the action intentions of humans
S. Schmidt et al.
TRANSPORTATION RESEARCH PART F-TRAFFIC PSYCHOLOGY AND BEHAVIOUR (2009)
Crossing roads safely: An experimental study of age differences in gap selection by pedestrians
JA Oxley et al.
ACCIDENT ANALYSIS AND PREVENTION (2005)
Time-to-contact estimation of accelerated stimuli is based on first-order information
N Benguigui et al.
JOURNAL OF EXPERIMENTAL PSYCHOLOGY-HUMAN PERCEPTION AND PERFORMANCE (2003)
An investigation of road crossing in a virtual environment
G Simpson et al.
ACCIDENT ANALYSIS AND PREVENTION (2003)
Perception of acceleration with short presentation times: Can acceleration be used in interception?
AM Brouwer et al.
PERCEPTION & PSYCHOPHYSICS (2002)
Discerning intentions in dynamic human action
DA Baldwin et al.
TRENDS IN COGNITIVE SCIENCES (2001)