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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Revell, Kirsten
in Cooperation with on an Cooperation-Score of 37%
Topics
Publications (30/30 displayed)
- 2023Partially automated driving has higher workload than manual drivingcitations
- 2023A new approach for Training Needs Analysis: A case study using an Automated Vehiclecitations
- 2023Training for the safe activation of Automated Vehicles matters: Revealing the benefits of online training to creating glaringly better mental models and behaviourcitations
- 2023What does an Automated Vehicle class as a hazard? Using online video-based training to improve drivers’ trust and mental models for activating an Automated Vehiclecitations
- 2022‘It’s a man’s world’: A gender-equitable scoping review of gender, transportation and workcitations
- 2022‘It’s a man’s world’citations
- 2021A control system for a vehicle
- 2021The iconography of vehicle automation - a focus group studycitations
- 2021Design Constraints and Guidelines for the Automation–Human Interface
- 2021Effects of customisable HMI on subjective evaluation of takeover experience on the road
- 2021Semi-automated driving Has higher workload and Is less acceptable to drivers than manual vehicles: an on-road comparison of three contemporary SAE Level 2 vehicles
- 2021Human-automation interaction design: developing a vehicle automation assistant
- 2021Challenges for automated vehicle driver training: A thematic analysis from manual and automated drivingcitations
- 2021How was It for you? Comparing how different levels of multimodal situation awareness feedback are experienced by human agents during transfer of control of the driving task in a semi-autonomous vehiclecitations
- 2021What can we learn from Automated Vehicle collisions? A deductive thematic analysis of five Automated Vehicle collisionscitations
- 2020Feedback in highly automated vehicles: what do drivers rely on?
- 2020Drivers’ interaction with, and perception toward semi-autonomous vehicles in naturalistic settingscitations
- 2020Developing an abstraction hierarchy for visual displays in semi-automated vehicles
- 2020Automated vehicle handover interface design: Focus groups with learner, intermediate and advanced driverscitations
- 2020Application of Cognitive Work Analysis to Explore Passenger Behaviour Change Through Provision of Information to Help Relieve Train Overcrowdingcitations
- 2020Signs symbols & displays in automated vehicles: a focus group studycitations
- 2019Investigating the effect of train occupancy information
- 2019UCEID - the best of both worldscitations
- 2019Handover assist in highly automated vehiclescitations
- 2019A review of the physical, psychological and psychophysiological effects of motorsport on drivers and their potential influences on cockpit interface designcitations
- 2018An evaluation of inclusive dialogue-based interfaces for the takeover of control in autonomous carscitations
- 2018The usability of F1 interfaces
- 2017Systems Theoretic Accident Model and Process (STAMP) safety modelling applied to an aircraft rapid decompression eventcitations
- 2012Task and error analysis for battlefield technology evaluation: a battle management systems case study
- 2009Digitising command and control: A human factors and ergonomics analysis of mission planning and battlespace management
Places of action
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