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360 Degree Mixed Reality Environment to Evaluate Interaction Design for Industrial Vehicles Including Head-Up and Head-Down Displays.

, , и . HCI (10), том 10910 из Lecture Notes in Computer Science, стр. 377-391. Springer, (2018)

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Understanding the user in self-managing systems.. ECSA Workshops, стр. 5:1-5:4. ACM, (2015)Low-Cost Mixed Reality Simulator for Industrial Vehicle Environments., , , , , и . HCI (10), том 9740 из Lecture Notes in Computer Science, стр. 597-608. Springer, (2016)Seeing Through the Eyes of Heavy Vehicle Operators.. INTERACT (2), том 10514 из Lecture Notes in Computer Science, стр. 263-282. Springer, (2017)Classifying Excavator Collisions based on Users' Visual Perception in the Mixed Reality Environment., , , и . VISIGRAPP (2: HUCAPP), стр. 255-262. SCITEPRESS, (2021)360 Degree Mixed Reality Environment to Evaluate Interaction Design for Industrial Vehicles Including Head-Up and Head-Down Displays., , и . HCI (10), том 10910 из Lecture Notes in Computer Science, стр. 377-391. Springer, (2018)On the Interaction Between Construction Vehicles and Humans in Close Cooperation., и . INTERACT Workshops (1), том 14535 из Lecture Notes in Computer Science, стр. 292-298. Springer, (2023)Evaluating Mixed Reality Notifications to Support Excavator Operator Awareness., , , и . INTERACT (1), том 11746 из Lecture Notes in Computer Science, стр. 743-762. Springer, (2019)1st workshop on user interfaces for heavy vehicles: let's get to work., , и . AutomotiveUI (adjunct), стр. 1-6. ACM, (2019)Using Augmented Reality to Improve Productivity and Safety for Heavy Machinery Operators: State of the Art., и . VRCAI, стр. 8:1-8:9. ACM, (2019)Conceptual Design and Evaluation of Windshield Displays for Excavators., , и . Multimodal Technol. Interact., 4 (4): 86 (2020)