Your search keyword '"Cocron P"' showing total 6 results

1. Regenerative braking failures in battery electric vehicles and their impact on the driver

Author

Cocron, P., Neumann, I., Kreußlein, M., Wanner, Daniel, Bierbach, M., Krems, J. F., Cocron, P., Neumann, I., Kreußlein, M., Wanner, Daniel, Bierbach, M., and Krems, J. F.

Abstract

A unique feature of battery electric vehicles (BEV) is their regenerative braking system (RBS) to recapture kinetic energy in deceleration maneuvers. If such a system is triggered via gas pedal, most deceleration maneuvers can be executed by just using this pedal. This impacts the driving task as different deceleration strategies can be applied. Previous research has indicated that a RBS failure leading to a sudden reduced deceleration represents an adverse event for BEV drivers. In the present study, we investigated such a failure's impact on the driver's evaluation and behavior. We conducted an experiment on a closed-off test track using a modified BEV that could temporarily switch off the RBS. One half of the 44 participants in the study received information about an upcoming RBS failure whereas the other half did not. While 91% of the drivers receiving prior information noticed the RBS failure, only 48% recognized it in the “uniformed” group. In general, the failure and the perception of its occurrence influenced the driver's evaluation and behavior more than receiving prior information. Nevertheless, under the tested conditions, drivers kept control and were able to compensate for the RBS failure. As the participants drove quite simple maneuvers in our experiment, further studies are needed to validate our findings using more complex driving settings. Given that RBS failures could have severe consequences, appropriate information and warning strategies for drivers are necessary., QC 20180515

Published

2018

2. Methods of evaluating electric vehicles from a user's perspective – the MINI E field trial in Berlin

Author

Cocron, P., primary, Bühler, F., additional, Neumann, I., additional, Franke, T., additional, Krems, J.F., additional, Schwalm, M., additional, and Keinath, A., additional

Published

2011

3. Regenerative braking failures in battery electric vehicles and their impact on the driver.

Author

Cocron P, Neumann I, Kreußlein M, Wanner D, Bierbach M, and Krems JF

Subjects

Adult, Deceleration, Female, Humans, Male, Reaction Time, Automobile Driving psychology, Automobiles, Electric Power Supplies adverse effects, Equipment Failure

Abstract

A unique feature of battery electric vehicles (BEV) is their regenerative braking system (RBS) to recapture kinetic energy in deceleration maneuvers. If such a system is triggered via gas pedal, most deceleration maneuvers can be executed by just using this pedal. This impacts the driving task as different deceleration strategies can be applied. Previous research has indicated that a RBS failure leading to a sudden reduced deceleration represents an adverse event for BEV drivers. In the present study, we investigated such a failure's impact on the driver's evaluation and behavior. We conducted an experiment on a closed-off test track using a modified BEV that could temporarily switch off the RBS. One half of the 44 participants in the study received information about an upcoming RBS failure whereas the other half did not. While 91% of the drivers receiving prior information noticed the RBS failure, only 48% recognized it in the "uniformed" group. In general, the failure and the perception of its occurrence influenced the driver's evaluation and behavior more than receiving prior information. Nevertheless, under the tested conditions, drivers kept control and were able to compensate for the RBS failure. As the participants drove quite simple maneuvers in our experiment, further studies are needed to validate our findings using more complex driving settings. Given that RBS failures could have severe consequences, appropriate information and warning strategies for drivers are necessary., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

4. Hazard detection in noise-related incidents - the role of driving experience with battery electric vehicles.

Author

Cocron P, Bachl V, Früh L, Koch I, and Krems JF

Subjects

Accidents, Traffic, Adult, Automobiles, Case-Control Studies, Electric Power Supplies, Female, Humans, Male, Middle Aged, Perception, Reaction Time, Attention, Auditory Perception, Automobile Driving, Safety, Sound

Abstract

The low noise emission of battery electric vehicles (BEVs) has led to discussions about how to address potential safety issues for other road users. Legislative actions have already been undertaken to implement artificial sounds. In previous research, BEV drivers reported that due to low noise emission they paid particular attention to pedestrians and bicyclists. For the current research, we developed a hazard detection task to test whether drivers with BEV experience respond faster to incidents, which arise due to the low noise emission, than inexperienced drivers. The first study (N=65) revealed that BEV experience only played a minor role in drivers' response to hazards resulting from low BEV noise. The tendency to respond, reaction times and hazard evaluations were similar among experienced and inexperienced BEV drivers; only small trends in the assumed direction were observed. Still, both groups clearly differentiated between critical and non-critical scenarios and responded accordingly. In the second study (N=58), we investigated additionally if sensitization to low noise emission of BEVs had an effect on hazard perception in incidents where the noise difference is crucial. Again, participants in all groups differentiated between critical and non-critical scenarios. Even though trends in response rates and latencies occurred, experience and sensitization to low noise seemed to only play a minor role in detecting hazards due to low BEV noise. An additional global evaluation of BEV noise further suggests that even after a short test drive, the lack of noise is perceived more as a comfort feature than a safety threat., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

5. Driver perceptions of the safety implications of quiet electric vehicles.

Author

Cocron P and Krems JF

Subjects

Accidents, Traffic prevention & control, Adult, Attitude, Female, Humans, Male, Middle Aged, Risk-Taking, Safety, Sound, Automobile Driving psychology, Automobiles, Noise, Transportation, Perception, Risk

Abstract

Previous research on the safety implications of quiet electric vehicles (EVs) has mostly focused on pedestrians' acoustic perception of EVs, and suggests that EVs are more difficult for pedestrians to hear and, therefore, compromise traffic safety. The two German field studies presented here examine the experiences of 70 drivers with low noise emissions of EVs and the drivers' long-term evaluation of the issue. Participants were surveyed via interviews and questionnaires before driving an EV for the first time, after 3 months of driving, and in the first study, again after 6 months. Based on participants' reports, a catalogue of safety-relevant incidents was composed in Study 1. The catalogue revealed that low noise-related critical incidents only rarely occur, and mostly take place in low-speed environments. The degree of hazard related to these incidents was rated as low to medium. In Study 1, driver concern for vulnerable road users as a result of low noise diminished with increasing driving experience, while perceived comfort due to this feature increased. These results were replicated in Study 2. In the second study, it was additionally examined, if drivers adjust their perceived risk of harming other road users over time. Results show that the affective assessment of risk also decreased with increased driving experience. Based on individual experience, drivers adjust their evaluation of noise-related hazards, suggesting that dangers associated with low noise emissions might be less significant than previously expected., (Copyright © 2013 Elsevier Ltd. All rights reserved.)

Published

2013

6. Energy recapture through deceleration - regenerative braking in electric vehicles from a user perspective.

Author

Cocron P, Bühler F, Franke T, Neumann I, Dielmann B, and Krems JF

Subjects

Adult, Consumer Behavior, Deceleration, Ergonomics, Female, Humans, Learning Curve, Male, Middle Aged, Trust, Automobile Driving, Automobiles, Electricity

Abstract

We report results from a 1-year field study (N = 80) on user interactions with regenerative braking in electric vehicles. Designed to recapture energy in vehicles with electric powertrains, regenerative braking has an important influence on both the task of driving and energy consumption. Results from user assessments and data from onboard data loggers indicate that most drivers quickly learned to interact with the system, which was triggered via accelerator. Further, conventional braking manoeuvres decreased significantly as the majority of deceleration episodes could only be executed through regenerative braking. Still, some drivers reported difficulties when adapting to the system. These difficulties could be addressed by offering different levels of regeneration so that the intensity of the deceleration could be individually modified. In general, the system is trusted and regarded as a valuable tool for prolonging range., Practitioner Summary: Regenerative braking in electric vehicles has direct implications for the driving task. We found that drivers quickly learn to use and accept a system, which is triggered via accelerator. For those reporting difficulties in the interaction, it appears reasonable to integrate options to customise or switch off the system.

Published

2013