380.256 PEOPLE
| People | Locations | Statistics |
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| Seuring, Stefan |
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| Nor Azizi, S. |
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| Pato, Margarida Vaz |
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| Kölker, Katrin |
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| Huber, Oliver |
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| Király, Tamás |
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| Spengler, Thomas Stefan |
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| Al-Ammar, Essam A. |
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| Dargahi, Fatemeh |
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| Mota, Rui |
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| Mazalan, Nurul Aliah Amirah |
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| Macharis, Cathy | Brussels |
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| Arunasari, Yova Tri |
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| Nunez, Alfredo | Delft |
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| Bouhorma, Mohammed |
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| Bonato, Matteo |
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| Fitriani, Ira |
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| Autor Correspondente Coelho, Sílvia. |
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| Pond, Stephen |
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| Okwara, Ukoha Kalu |
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| Toufigh, Vahid |
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| Campisi, Tiziana | Enna |
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| Ermolieva, Tatiana |
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| Sánchez-Cambronero, Santos |
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| Agzamov, Akhror |
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De Winter, Joost
Delft University of Technology
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (112/112 displayed)
- 2024eHMI on the Vehicle or on the Infrastructure?
- 2024Phantom braking in automated vehicles: A theoretical outline and cycling simulator demonstration
- 2024Triangulating the futurecitations
- 2023From fear to forecastcitations
- 2023Augmented reality interfaces for pedestrian-vehicle interactionscitations
- 2023Which visual cues do drivers use to anticipate and slow down in freeway curve approach? An eye-tracking, think-aloud on-road studycitations
- 2023Which Visual Cues do Drivers Use to Anticipate and Slow Down in Freeway Curve Approach? An Eye-Tracking and Think-Aloud On-road Study - Dataset
- 2023Should an external human-machine interface flash or just show text?citations
- 2022Ipsilateral and contralateral warningscitations
- 2022Should Steering Settings be Changed by the Driver or by the Vehicle Itself?citations
- 2022Cyclist support systems for future traffic
- 2022Cycling in automated traffic
- 2022When terminology hinders researchcitations
- 2022Augmented reality concepts for pedestrian-vehicle interactions: An online study
- 2022Stopping by lookingcitations
- 2022Cyclist support systems for future automated trafficcitations
- 2022External human–machine interfacescitations
- 2022Get Out of The Way! Examining eHMIs in Critical Driver-Pedestrian Encounters in a Coupled Simulatorcitations
- 2022Shared control versus traded control in drivingcitations
- 2022Correction to: When terminology hinders research: the colloquialisms of transitions of control in automated driving (Cognition, Technology & Work, (2022), 10.1007/s10111-022-00705-3)
- 2022Do cyclists need HMIs in future automated traffic?citations
- 2022Do sport modes cause behavioral adaptation?citations
- 2022The effect of drivers’ eye contact on pedestrians’ perceived safetycitations
- 2022What Attracts the Driver’s Eye?citations
- 2021How should external human-machine interfaces behave? Examining the effects of colour, position, message, activation distance, vehicle yielding, and visual distraction among 1,434 participantscitations
- 2021Vulnerable road users and the coming wave of automated vehicles:Expert perspectivescitations
- 2021What driving style makes pedestrians think a passing vehicle is driving automatically?citations
- 2021Towards future pedestrian-vehicle interactionscitations
- 2021Automated vehicles that communicate implicitlycitations
- 2021A risk field-based metric correlates with driver's perceived risk in manual and automated drivingcitations
- 2021Creating the Illusion of Sportinesscitations
- 2021Vulnerable road users and the coming wave of automated vehiclescitations
- 2021Multivariate and location-specific correlates of fuel consumptioncitations
- 2021Do cyclists need HMIs in future automated traffic?
- 2021How do pedestrians distribute their visual attention when walking through a parking garage? An eye-tracking studycitations
- 2021External human-machine interfacescitations
- 2021What makes a good driver on public roads and race tracks? An interview studycitations
- 2021Bio-inspired intent communication for automated vehiclescitations
- 2021Towards the detection of driver–pedestrian eye contactcitations
- 2020External Human–Machine Interfaces Can Be Misleadingcitations
- 2020Coupled simulator for research on the interaction between pedestrians and (automated) vehicles
- 2020External Human–Machine Interfacescitations
- 2020Which parts of the road guide obstacle avoidance? Quantifying the driver's risk fieldcitations
- 2020Takeover Qualitycitations
- 2020How do drivers merge heavy goods vehicles onto freeways? A semi-structured interview unveiling needs for communication and supportcitations
- 2020External Human-Machine Interfacescitations
- 2020PC-based hazard anticipation training for experienced cyclistscitations
- 2020Take over! A video-clip study measuring attention, situation awareness, and decision-making in the face of an impending hazardcitations
- 2020Prediction of effort and eye movement measures from driving scene componentscitations
- 2020Human-like driving behaviour emerges from a risk-based driver modelcitations
- 2020Risk perceptioncitations
- 2020Redesigning Today’s Driving Automation Toward Adaptive Backup Control With Context-Based and Invisible Interfacescitations
- 2020Augmented visual feedbackcitations
- 2019Pitfalls of automation: A faulty narrative?citations
- 2019External human-machine interfaces on automated vehiclescitations
- 2019How do driving modes affect the vehicle’s dynamic behaviour? Comparing Renault’s Multi-Sense sport and comfort modes during on-road naturalistic drivingcitations
- 2019How to keep drivers engaged while supervising driving automation? A literature survey and categorisation of six solution areascitations
- 2019Blind driving by means of the track angle error
- 2019Survey on eHMI conceptscitations
- 2019Behavior-based Predictive Safety Analytics
- 2019Determinants of take-over time from automated drivingcitations
- 2019Acclimatizing to automationcitations
- 2019Correlates of self-reported driving aberrations in Tehrancitations
- 2019Continuous auditory feedback on the status of adaptive cruise control, lane deviation, and time headwaycitations
- 2019How Do eHMIs Affect Pedestrians’ Crossing Behavior? A Study Using a Head-Mounted Display Combined with a Motion Suitcitations
- 2019Conceptual testing of visual HMIs for merging of truckscitations
- 2019Will vehicle data be shared to address the how, where, and who of traffic accidents?citations
- 2018Adaptive automationcitations
- 2018Supplementary material for the paper: The effect of steering-system linearity, simulator motion, and truck driving experience on steering of an articulated tractor-semitrailer combination
- 2018The 4D LINT model of function allocationcitations
- 2018Cyclists’ expectations when encountering automated vehicles
- 2018Graded auditory feedback based on headway
- 2018Interactions between cyclists and automated vehicles
- 2018Development and evaluation of a PC-based hazard anticipation training for cyclists
- 2018The relationship between the Driver Behavior Questionnaire, Sensation Seeking Scale, and recorded crashescitations
- 2018Validity and reliability of naturalistic driving scene categorization Judgments from crowdsourcingcitations
- 2018Take-over requests in highly automated drivingcitations
- 2018Cyclists’ eye movements and crossing judgments at uncontrolled intersectionscitations
- 2017Pleasure in using adaptive cruise controlcitations
- 2017Cyclists’ predictions of what a car driver will do next at intersections
- 2017Concurrent audio-visual feedback for supporting drivers at intersectionscitations
- 2017Effects of platooning on signal-detection performance, workload, and stresscitations
- 2017Does haptic steering guidance instigate speeding? A driving simulator study into causes and remediescitations
- 2017The design of a vibrotactile seat for conveying take-over requests in automated drivingcitations
- 2017Blind driving by means of a steering-based predictor algorithmcitations
- 2017A human-like steering modelcitations
- 2017Usefulness and satisfaction of take-over requests for highly automated driving
- 2017Driving characteristics and adaptive cruise controlcitations
- 2016Cyclists' eye movements at uncontrolled intersections
- 2016Highly automated platooning
- 2015The effect of haptic support systems on driver performance: A literature surveycitations
- 2015A literature review on human factors research using motorcycle simulators
- 2015Effects of automated driving on traffic flow efficiency: challenges and recent developments
- 2015Effects of automated driving on traffic flow efficiency: challenges and recent developments
- 2014Factors contributing to pedelec crashes in the Netherlands
- 2013Obstacle avoidance, visual detection performance, and eye-scanning behavior of glaucoma patients in a driving simulatorcitations
- 2010Training effectiveness of whole body flight simulator motion: a comprehensive meta-analysis
- 2009The Effect of Brake Pedal Stiffness on Race Car Driving Performance
- 2009An analysis of braking measures
- 2008The search for higher fidelity in fixed-base driving simulation: six feedback systems evaluated
- 2008Feedback on Mirror-checking during simulation-based driver training
- 2007Driving simulator fidelity and training effectiveness
- 2007Didactics In Simulator-Based Driver Training: Current State Of Affairs And Future Potential
- 2007A Two-Dimensional Weighting Function for a Driver Assistance System
- 2007The Fun of Engineering: A Motion Seat in A Driving Simulator
- 2006Factor Analysis For Driving Assessment Applied To Car Following In A Simulator
- 2006The effect of route-instruction modality on drving performance in a simulator
- 2006Performance assessment during simulation-based driver training
- 2006Driver Assessment During Self And Forced-Paced Simulation-Based Training
- 2006The effects Of Route-Instruction Modality On Driving Performance in A Simulator
- 2005Driving behaviour in low-cost driving simulators: the influence of vibrations on braking and concerning behaviour
- 2005Gender differences in driving performancedurign simulation-based training distinguishing between operation and motivation
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