479.575 PEOPLE
People | Locations | Statistics |
---|---|---|
Ziakopoulos, Apostolos | Athens |
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Vigliani, Alessandro | Turin |
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Catani, Jacopo | Rome |
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Statheros, Thomas | Stevenage |
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Utriainen, Roni | Tampere |
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Guglieri, Giorgio | Turin |
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Martínez Sánchez, Joaquín |
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Tobolar, Jakub |
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Volodarets, M. |
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Piwowar, Piotr |
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Tennoy, Aud | Oslo |
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Matos, Ana Rita |
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Cicevic, Svetlana |
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Sommer, Carsten | Kassel |
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Liu, Meiqi |
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Pirdavani, Ali | Hasselt |
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Niklaß, Malte |
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Lima, Pedro | Braga |
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Turunen, Anu W. |
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Antunes, Carlos Henggeler |
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Krasnov, Oleg A. |
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Lopes, Joao P. |
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Turan, Osman |
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Lučanin, Vojkan | Belgrade |
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Tanaskovic, Jovan |
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Birrell, Stewart A.
Loughborough University
in Cooperation with on an Cooperation-Score of 37%
Topics
- autonomous vehicle
- driver
- driving
- variable
- monitoring
- automobile industry
- sensor
- automation
- workload
- breath
- information processing
- infrastructure
- design
- airport
- virtual reality
- electric vehicle
- industry
- highway traffic
- behavior
- stakeholder
- decision making
- charging infrastructure
- market
- positioning
- electrification
- road network
- engineering
- electric vehicle charging
- qualitative analysis
- perception
- autonomous driving
- reliability
- expected value
- tampering
- interface
- cladding
- customer
- railway train
- train crew
- safety
- pedestrian
- camera
- prototype
- volunteer
- commodity
- data
- vehicle
- road
- road tunnel
- traffic simulation
- traffic model
- planning
- geography
- automobile
- transportation engineering
- taxicab
- implementation
- vehicle fleet
- employed
- accumulator
- gasoline
- human being
- plant
- environmental impact
- environmental science
- renewable energy source
- law
- supervisor
- tracking system
- focus group
- earnings
- cable
- hour of labor
- battery charging time
- gasoline engine
- range extender
- extender
- driving behavior
- computer science
- survey
- vehicle occupant
- railway traffic
- transit rider
- commuter
- technological innovation
- intelligent vehicle
- machinery
- learning
- machine learning
- antenna
- position fixing
- traffic platooning
- gap acceptance
- human factor
- assessment
- braking
- case study
- emergency
- automotive engineering
- driver support system
- cruise control
- safety analysis
- risk assessment
- autonomous intelligent cruise control
- hazard analysis
- automatic braking
- attention
- chain
- supply chain
- validation
- coding system
- definition
- hazard
- test procedure
- interviewing
- driving simulator
- simulation
- automatic control
- calibration
- crash data
- human error
- consumer
- indicating instrument
- validity
- system safety
- electronic equipment
- safety engineering
- electronics
- data fusion
- street
- acceleration
- fuel consumption
- fuel
- experiment
- throttle
- accelerator pedal
- weather condition
- pedal
- vehicle performance
- operations research
- fee
- management science
- electrical engineering
- inductive interference
- parking
- potential energy
- bay
- alignment
- electromagnetic field
- inductive charging system
- magnetic induction
- electromagnetic induction
- electric potential
- beltway
- drive in restaurant
- eye
- guideline
- passenger
- video
- traffic safety
- seat
- administration
- highway
- distraction
- information system
- base line
- driver information system
- field test
- navigation system
- foot
- navigation device
- estimating
- job analysis
- costs
- constraint
- bottleneck
- risk analysis
- hub
- language
- ergonomics
- benchmark
- driver performance
- railway wagon
- kinetics
- kinematics
- lower extremity
- comfort
- questionnaire
- design method
- highway safety
- government
- ecodriving
- consultant
- injury
- show 164 more
Publications
- 2023A Systematic Review of In-Vehicle Physiological Indices and Sensor Technology for Driver Mental Workload Monitoringcitations
- 2022Urban air mobility infrastructure design: Using virtual reality to capture user experience within the world's first urban airport
- 2022Determining the Social, Economic, Political and Technical Factors Significant to the Success of Dynamic Wireless Charging Systems through a Process of Stakeholder Engagementcitations
- 2022Physiological Measures of Risk Perception in Highly Automated Drivingcitations
- 2022Driver State Monitoringcitations
- 2022Driver State Monitoring: Manipulating Reliability Expectations in Simulated Automated Driving Scenarioscitations
- 2020The interface challenge for partially automated vehicles
- 2020How technology can impact customer-facing train crew experiences?citations
- 2020Pedestrian Attitudes to Shared-Space Interactions with Autonomous Vehicles – A Virtual Reality Studycitations
- 2020Traffic Simulation of Connected and Autonomous Freight Vehicles (CAV-F) using a data-driven traffic model of a real-world road tunnelcitations
- 2020How technology can impact customer-facing train crew experiencescitations
- 2020Wireless Charging of Electric Taxis: Understanding the Facilitators and Barriers to Its Introductioncitations
- 2019The interface challenge for semi-automated vehiclescitations
- 2019What passengers really want : assessing the value of rail innovation to improve experiencescitations
- 2019Evaluating Machine Learning & Antenna Placement for Enhanced GNSS Accuracy for CAVscitations
- 2019Infrastructure Wi-Fi for connected autonomous vehicle positioningcitations
- 2019Gap acceptance study of pedestrians crossing between platooning autonomous vehicles in a virtual environmentcitations
- 2019Driving stylecitations
- 2019The comparison of auditory, tactile, and multimodal warnings for the effective communication of unexpected events during an automated driving scenariocitations
- 2019Infrastructure Wi-Fi for connected autonomous vehicle positioning: A review of the state-of-the-artcitations
- 2019Driving Style: How Should an Automated Vehicle Behave?citations
- 2019Pedestrian Decision-Making Responses to External Human-Machine Interface Designs for Autonomous Vehiclescitations
- 2019Pedestrian Attitudes to Shared-Space Interactions with Autonomous Vehicles – A Virtual Reality Studycitations
- 2019A Human Factors Approach to Defining Requirements for Low-speed Autonomous Vehicles to Enable Intelligent Platooningcitations
- 2018Using the ideas café to explore trust in autonomous vehiclescitations
- 2018Introducing ASIL inspired dynamic tactical safety decision framework for automated vehiclescitations
- 2018Evaluating How Interfaces Influence the User Interaction with Fully Autonomous Vehiclescitations
- 2018The science of testing : an automotive perspectivecitations
- 2018Effect of Knowledge of Automation Capability on Trust and Workload in an Automated Vehicle: A Driving Simulator Studycitations
- 2018The Science of Testingcitations
- 2018Haptic Feedback in Eco Driving Interfaces for Electric Vehicles: Effects on Workload and Acceptancecitations
- 2017Calibrating Trust to Increase the Use of Automated Systems in a Vehiclecitations
- 2017Towards increased reliability by objectification of Hazard Analysis and Risk Assessment (HARA) of automated automotive systemscitations
- 2016Towards hybrid driver state monitoring : review, future perspectives and the role of consumer electronicscitations
- 2016Comparative study between Korea and UK: relationship between driving style and real-world fuel consumptioncitations
- 2015How driver behaviour and parking alignment affects inductive charging systems for electric vehiclescitations
- 2015Development of a drive-in driver-in-the-loop fully immersive driving simulator for virtual validation of automotive systemscitations
- 2015Identifying a gap in existing validation methodologies for intelligent automotive systems: Introducing the 3xD simulatorcitations
- 2015Distraction effects of navigation and green-driving systems – results from field operational tests (FOTs) in the UKcitations
- 2014Defining the accuracy of real-world range estimations of an electric vehiclecitations
- 2012Cognitive Work Analysis for safe and efficient drivingcitations
- 2011Cognitive work analysis for safe and efficient drivingcitations
- 2011Safe driving in a green world: A review of driver performance benchmarks and technologies to support 'smart' drivingcitations
- 2010The effect of load distribution within military load carriage systems on the kinetics of human gaitcitations
- 2009The effect of military load carriage on 3-D lower limb kinematics and spatiotemporal parameterscitations
- 2009Subjective skeletal discomfort measured using a comfort questionnaire following a load carriage exercise
- 2009Design for Smart Driving: A Tale of Two Interfacescitations
- 2008Military load carriage injuries and discomfort: A questionnaire survey
- 2008The influence of rifle carriage on the kinetics of human gaitcitations
- 2008Improving driver behaviour by design: a cognitive work analysis methodology
- 2008Safe and fuel efficient driving: Definingthe benchmarks
- 2007The effect of military load carriage on ground reaction forcescitations
- 2007Initial subjective load carriage injury data collected with interviews and questionnaires
- 2005The effect of military load carriage on ground reaction forces
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