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Principles of transparency for autonomous vehicles: first results of an experiment with an augmented reality human–machine interfaceCognition, Technology and Work, 2019, 21 (4), pp.643-656. ⟨10.1007/s10111-019-00552-9⟩
Journal articles
hal-02306589v1
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Designing Human-Machine Interface for Autonomous Vehicles13th IFAC Symposium on Analysis, Design, and Evaluation ofHuman-Machine Systems, Tetsuo Sawaragi, Aug 2016, Kyoto, Japan. pp.609 - 614, ⟨10.1016/j.ifacol.2016.10.629⟩
Conference papers
hal-01415434v1
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Architecture Models Refinement for Fine Grain Timing Analysis of Embedded SystemsIEEE International Symposium on Rapid System Prototyping, Oct 2014, New Dehli, India
Conference papers
hal-01121019v1
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La conception d’une interface selon des principes de transparenceDéfis de l’automatisation des systèmes sociotechniques, 2019
Book sections
hal-03798569v1
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Towards autonomous driving: an Augmented Reality Interface for lane changeFAST-zero'15: 3rd International Symposium on Future Active Safety Technology Toward zero traffic accidents, Sep 2015, Gothenburg, Sweden
Conference papers
hal-01643805v1
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Augmented Reality Interface Design for Autonomous Driving12th International Conference on Informatics in Control, Automation and Robotics - ICINCO 2015, Jul 2015, Colmar, France. pp.22-33
Conference papers
hal-01643789v1
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Analyzing the take-over performance in an automated vehicle in terms of cognitive control modesLe travail humain, 2020, 83 (4), pp.379-405. ⟨10.3917/th.834.0379⟩
Journal articles
hal-03157240v1
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