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Citations (54)
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Chae Heon Lim & Seul Chan Lee. (2023) The Effects of Degrees of Freedom and Field of View on Motion Sickness in a Virtual Reality Context. International Journal of Human–Computer Interaction 0:0, pages 1-13.
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Articles from other publishers (53)
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Sara Santos, José Alberto Parraca, Joana Alegrete, Carolina Alexandra Cabo, Filipe Melo & Orlando Fernandes. (2023) The effects of a 12-week yoga program on the CoP of military pilots before and after a flight emergency simulation using Biosignals Plux force platform. Proceedings of the Institution of Mechanical Engineers, Part P: Journal of Sports Engineering and Technology.
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Angela Arntz, Franziska Weber, Marietta Handgraaf, Kaisa Lällä, Katariina Korniloff, Kari-Pekka Murtonen, Julija Chichaeva, Anita Kidritsch, Mario Heller, Evanthia Sakellari, Christina Athanasopoulou, Areti Lagiou, Ioanna Tzonichaki, Iosune Salinas-Bueno, Pau Martínez-Bueso, Olga Velasco-Roldán, Ralf-Joachim Schulz & Christian Grüneberg. (2023) Technologies in Home-Based Digital Rehabilitation: Scoping Review. JMIR Rehabilitation and Assistive Technologies 10, pages e43615.
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Ming-I Brandon Lin, Bonnie Wu & Shun-Wen Cheng. (2023) Changes in Navigation Controls and Field-of-View Modes Affect Cybersickness Severity and Spatiotemporal Gait Patterns After Exposure to Virtual Environments. Human Factors: The Journal of the Human Factors and Ergonomics Society.
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Daniel Page, Robert W. Lindeman & Stephan Lukosch. (2023) Identifying Strategies to Mitigate Cybersickness in Virtual Reality Induced by Flying with an Interactive Travel Interface. Multimodal Technologies and Interaction 7:5, pages 47.
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Vincent Schmidt, Sabine U. König, Rabia Dilawar, Tracy Sánchez Pacheco & Peter König. (2023) Improved Spatial Knowledge Acquisition through Sensory Augmentation. Brain Sciences 13:5, pages 720.
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Anjela Mayer, Jean-Rémy Chardonnet, Polina Häfner & Jivka Ovtcharova. 2023. New Digital Work. New Digital Work
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Noah Glaser, Matthew Schmidt & Carla Schmidt. (2022) Learner experience and evidence of cybersickness: design tensions in a virtual reality public transportation intervention for autistic adults. Virtual Reality 26:4, pages 1705-1724.
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Ran Liu, Shanshan Cui, Yang Zhao, Xi Chen, Lin Yi & Alex D. Hwang. (2022) VIMSNet: an effective network for visually induced motion sickness detection. Signal, Image and Video Processing 16:8, pages 2029-2036.
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Tamon Miyake, Shunya Itano, Mitsuhiro Kamezaki & Shigeki Sugano. (2022) Position-based Treadmill Drive with Wire Traction for Experience of Level Ground Walking from Gait Acceleration State to Steady State. Position-based Treadmill Drive with Wire Traction for Experience of Level Ground Walking from Gait Acceleration State to Steady State.
Azadeh Hadadi, Christophe Guillet, Jean-Rémy Chardonnet, Mikhail Langovoy, Yuyang Wang & Jivka Ovtcharova. (2022) Prediction of cybersickness in virtual environments using topological data analysis and machine learning. Frontiers in Virtual Reality 3.
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Ruichen Tan, Wenbo Li, Fengqing Hu, Xiaofeng Xiao, Shen Li, Yang Xing, Hong Wang & Dongpu Cao. (2022) Motion Sickness Detection for Intelligent Vehicles: A Wearable-Device-Based Approach. Motion Sickness Detection for Intelligent Vehicles: A Wearable-Device-Based Approach.
Ersin Dincelli & Alper Yayla. (2022) Immersive virtual reality in the age of the Metaverse: A hybrid-narrative review based on the technology affordance perspective. The Journal of Strategic Information Systems 31:2, pages 101717.
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Maoyue Zhang. (2022) Educational Psychology Analysis Method for Extracting Students’ Facial Information Based on Image Big Data. Occupational Therapy International 2022, pages 1-11.
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L. James Smart, Anthony Drew, Tyler Hadidon, Max Teaford & Eric Bachmann. (2021) Using Nonlinear Kinematic Parameters as a Means of Predicting Motion Sickness in Real-Time in Virtual Environments. Human Factors: The Journal of the Human Factors and Ergonomics Society, pages 001872082110596.
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Cindy Jones, Dominique Jones & Christian Moro. (2021) Use of virtual and augmented reality-based interventions in health education to improve dementia knowledge and attitudes: an integrative review. BMJ Open 11:11, pages e053616.
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Nishant Jalgaonkar, Daniel Sousa Schulman, Sneha Ojha & Shorya Awtar. (2021) A Visual-Vestibular Model to Predict Motion Sickness Response in Passengers of Autonomous Vehicles. SAE International Journal of Advances and Current Practices in Mobility 3:5, pages 2421-2432.
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Ross Allan Clark, Ancret Szpak, Stefan Carlo Michalski & Tobias Loetscher. (2021) Rest Intervals during Virtual Reality Gaming Augments Standing Postural Sway Disturbance. Sensors 21:20, pages 6817.
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Prashant Pala, Viola Cavallo, Nguyen Thong Dang, Marie-Axelle Granié, Sonja Schneider, Philipp Maruhn & Klaus Bengler. (2021) Is the street-crossing behavior with a head-mounted display different from that behavior in a CAVE? A study among young adults and children. Transportation Research Part F: Traffic Psychology and Behaviour 82, pages 15-31.
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Jean-Rémy Chardonnet, Mohammad Ali Mirzaei & Frédéric Merienne. (2020) Influence of navigation parameters on cybersickness in virtual reality. Virtual Reality 25:3, pages 565-574.
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HyeJin Oh & GyuChang Lee. (2021) Feasibility of full immersive virtual reality video game on balance and cybersickness of healthy adolescents. Neuroscience Letters 760, pages 136063.
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Sangin Park, Sungchul Mun, Jihyeon Ha & Laehyun Kim. (2021) Non-Contact Measurement of Motion Sickness Using Pupillary Rhythms from an Infrared Camera. Sensors 21:14, pages 4642.
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Sigbjørn Litleskare. (2021) The relationship between postural stability and cybersickness: It's complicated – An experimental trial assessing practical implications of cybersickness etiology. Physiology & Behavior 236, pages 113422.
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Thomas van Gemert & Joanna Bergstrom. (2021) Evaluating VR Sickness in VR Locomotion Techniques. Evaluating VR Sickness in VR Locomotion Techniques.
Rifatul Islam, Samuel Ang & John Quarles. (2021) CyberSense: A Closed-Loop Framework to Detect Cybersickness Severity and Adaptively apply Reduction Techniques. CyberSense: A Closed-Loop Framework to Detect Cybersickness Severity and Adaptively apply Reduction Techniques.
Yuyang Wang, Jean-Rémy Chardonnet & Frédéric Merienne. (2021) Development of a speed protector to optimize user experience in 3D virtual environments. International Journal of Human-Computer Studies 147, pages 102578.
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Pavel Pavlovich Khoroshikh, Aleksandr Aleksandrovich Sergievich & Tat'yana Anatol'evna Batalova. (2021) Immersive educational environments: psychophysiological aspect. Психология и Психотехника:1, pages 78-88.
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Rifatul Islam, Yonggun Lee, Mehrad Jaloli, Imtiaz Muhammad, Dakai Zhu, Paul Rad, Yufei Huang & John Quarles. (2020) Automatic Detection and Prediction of Cybersickness Severity using Deep Neural Networks from user’s Physiological Signals. Automatic Detection and Prediction of Cybersickness Severity using Deep Neural Networks from user’s Physiological Signals.
Nicolas Martin, Nicolas Mathieu, Nico Pallamin, Martin Ragot & Jean-Marc Diverrez. (2020) Virtual reality sickness detection: an approach based on physiological signals and machine learning. Virtual reality sickness detection: an approach based on physiological signals and machine learning.
Jintao Wu, Qianxiang Zhou, Jiaxuan Li, Xiangjie Kong & Yi Xiao. (2020) Inhibition-related N2 and P3: Indicators of visually induced motion sickness (VIMS). International Journal of Industrial Ergonomics 78, pages 102981.
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Pauline Bimberg, Tim Weissker & Alexander Kulik. (2020) On the Usage of the Simulator Sickness Questionnaire for Virtual Reality Research. On the Usage of the Simulator Sickness Questionnaire for Virtual Reality Research.
Fan Zhang & Feng Wang. (2020) Exercise Fatigue Detection Algorithm Based on Video Image Information Extraction. IEEE Access 8, pages 199696-199709.
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Umer Asghar Chattha, Uzair Iqbal Janjua, Fozia Anwar, Tahir Mustafa Madni, Muhammad Faisal Cheema & Sana Iqbal Janjua. (2020) Motion Sickness in Virtual Reality: An Empirical Evaluation. IEEE Access 8, pages 130486-130499.
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Volkan Sevinc & Mehmet Ilker Berkman. (2020) Psychometric evaluation of Simulator Sickness Questionnaire and its variants as a measure of cybersickness in consumer virtual environments. Applied Ergonomics 82, pages 102958.
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Germán Gálvez-García, Nerea Aldunate, Claudio Bascour–Sandoval, Mauricio Barramuño, Fernando Fonseca & Emilio Gómez-Milán. (2020) Decreasing motion sickness by mixing different techniques. Applied Ergonomics 82, pages 102931.
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Lawrence Tychsen & Paul Foeller. (2020) Effects of Immersive Virtual Reality Headset Viewing on Young Children: Visuomotor Function, Postural Stability, and Motion Sickness. American Journal of Ophthalmology 209, pages 151-159.
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Andras Kemeny, Jean-Rémy Chardonnet & Florent ColombetAndras Kemeny, Jean-Rémy Chardonnet & Florent Colombet. 2020. Getting Rid of Cybersickness. Getting Rid of Cybersickness
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Jiawei Yang, Guangtao Zhai & Huiyu Duan. (2019) Predicting the visual saliency of the people with VIMS. Predicting the visual saliency of the people with VIMS.
Dante Risi & Stephen Palmisano. (2019) Effects of postural stability, active control, exposure duration and repeated exposures on HMD induced cybersickness. Displays 60, pages 9-17.
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Suprith Balasubramanian & Rajiv Soundararajan. (2019) Prediction of Discomfort due to Egomotion in Immersive Videos for Virtual Reality. Prediction of Discomfort due to Egomotion in Immersive Videos for Virtual Reality.
Chenru Hao, Ruibin Zhao, Lihua Qiao, Xiuyuan Li, Jingjing Zhang, Yanru Wu & Ziqiang Chi. (2019) EEG Analysis of Visually Induced Spatial Disorientation. EEG Analysis of Visually Induced Spatial Disorientation.
Matthew Moroz, Isabelle Garzorz, Eelke Folmer & Paul MacNeilage. (2019) Sensitivity to visual speed modulation in head-mounted displays depends on fixation. Displays 58, pages 12-19.
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Benjamin Arcioni, Stephen Palmisano, Deborah Apthorp & Juno Kim. (2019) Postural stability predicts the likelihood of cybersickness in active HMD-based virtual reality. Displays 58, pages 3-11.
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Yuyang Wang, Jean-Remy Chardonnet & Frederic Merienne. (2019) VR Sickness Prediction for Navigation in Immersive Virtual Environments using a Deep Long Short Term Memory Model. VR Sickness Prediction for Navigation in Immersive Virtual Environments using a Deep Long Short Term Memory Model.
Ancret Szpak, Stefan Carlo Michalski, Dimitrios Saredakis, Celia S. Chen & Tobias Loetscher. (2019) Beyond Feeling Sick: The Visual and Cognitive Aftereffects of Virtual Reality. IEEE Access 7, pages 130883-130892.
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Séamas Weech, Jessy Parokaran Varghese & Michael Barnett-Cowan. (2018) Estimating the sensorimotor components of cybersickness. Journal of Neurophysiology 120:5, pages 2201-2217.
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Umer Asghar Chattha & Munam Ali Shah. (2018) Survey on Causes of Motion Sickness in Virtual Reality. Survey on Causes of Motion Sickness in Virtual Reality.
Christina Kazzi, Conner Blackmore, Fatemeh Shirbani, Isabella Tan, Mark Butlin, Alberto P Avolio & Edward Barin. (2018) Effects of instructed meditation augmented by computer-rendered artificial virtual environment on heart rate variability. Effects of instructed meditation augmented by computer-rendered artificial virtual environment on heart rate variability.
Nitish Padmanaban, Timon Ruban, Vincent Sitzmann, Anthony M. Norcia & Gordon Wetzstein. (2018) Towards a Machine-Learning Approach for Sickness Prediction in 360° Stereoscopic Videos. IEEE Transactions on Visualization and Computer Graphics 24:4, pages 1594-1603.
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Jeremy Plouzeau, Jean-Remy Chardonnet & Frederic Merienne. (2018) Using Cybersickness Indicators to Adapt Navigation in Virtual Reality: A Pre-Study. Using Cybersickness Indicators to Adapt Navigation in Virtual Reality: A Pre-Study.
Théo Combe, Jean-Rémy Chardonnet, Frédéric Merienne & Jivka Ovtcharova. (2022) Virtual Immersion User Experience in Cave and Hmd: A Comparative Study. SSRN Electronic Journal.
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