Search results for "motion-sickness"

Hits ?▲	Authors	Title	Venue	Year	Link	Author keywords
187	Yu-Chieh Chen, Jeng-Ren Duann, Chun-Ling Lin, Shang-Wen Chuang, Tzyy-Ping Jung, Chin-Teng Lin	Motion-Sickness Related Brain Areas and EEG Power Activates.	HCI (16)	2009	DBLP DOI BibTeX RDF	motion-sickness, time-frequency, ICA, EEG, alpha, delta, theta
184	Sean D. Young, Bernard D. Adelstein, Stephen R. Ellis	Demand Characteristics in Assessing Motion Sickness in a Virtual Environment: Or Does Taking a Motion Sickness Questionnaire Make You Sick?	IEEE Trans. Vis. Comput. Graph.	2007	DBLP DOI BibTeX RDF	Motion sickness, cyber sickness, demand characteristics, three-dimensional tracking, placebo effect, user study, virtual environment, manual control
165	Michiteru Kitazaki, Tomoaki Nakano, Naoyuki Matsuzaki, Hiroaki Shigemasu	Control of eye-movement to decrease VE-sickness.	VRST	2006	DBLP DOI BibTeX RDF	VE sickness, extra-retinal information, motion sickness, eye-movement, visual information
110	Richard Hau Yue So, S. L. Yuen	Comparing Symptoms of Visually Induced Motion Sickness Among Viewers of Four Similar Virtual Environments with Different Color.	HCI (14)	2007	DBLP DOI BibTeX RDF
86	Norihiro Sugita, Makoto Yoshizawa, Akira Tanaka, Makoto Abe, Shigeru Chiba, Tomoyuki Yambe, Shin-ichi Nitta	Relationship between Physiological Indices and a Subjective Score in Evaluating Visually Induced Motion Sickness.	HCI (13)	2009	DBLP DOI BibTeX RDF	physiological index, subjective score, averaged mutual information, visually-induced motion sickness
86	Hiroaki Shigemasu, Toshiya Morita, Naoyuki Matsuzaki, Takao Sato, Masamitsu Harasawa, Kiyoharu Aizawa	Effects of physical display size and amplitude of oscillation on visually induced motion sickness.	VRST	2006	DBLP DOI BibTeX RDF	SSQ, amplitude of oscillation, visually induced motion sickness, visual angle
69	Makoto Abe, Makoto Yoshizawa, Norihiro Sugita, Akira Tanaka, Shigeru Chiba, Tomoyuki Yambe, Shin-ichi Nitta	Independent Component Analysis of Finger Photoplethysmography for Evaluating Effects of Visually-Induced Motion Sickness.	HCI (14)	2007	DBLP DOI BibTeX RDF	baroreflex, photoplethysmography, independent component analysis, visually-induced motion sickness
64	Hiroki Takada, Tetsuya Yamamoto, Masaru Miyao, Tatehiko Aoyama, Masashi Furuta, Tomoki Shiozawa	Effect of a Stereoscopic Movie on the Correlation between Head Acceleration and Body Sway.	HCI (13)	2009	DBLP DOI BibTeX RDF	stabilometry, sparse density, head acceleration, transfer function analysis, visually induced motion sickness
60	Hiroyasu Ujike	Effects of Global Motion Included in Video Movie Provoking an Incident on Visually Induced Motion Sickness.	HCI (14)	2007	DBLP DOI BibTeX RDF
57	Hiroki Takada, Kazuhiro Fujikake, Masaru Miyao	On a Qualitative Method to Evaluate Motion Sickness Induced by Stereoscopic Images on Liquid Crystal Displays.	HCI (13)	2009	DBLP DOI BibTeX RDF	stabilometry, Simulator Sickness Questionnair, sparse density, stochastic differential equation, potential
53	Melinda M. Knight, Laura L. Arns	The relationship among age and other factors on incidence of cybersickness in immersive environment users.	APGV	2006	DBLP DOI BibTeX RDF
48	Hiroyasu Ujike	Estimation of Visually Induced Motion Sickness from Velocity Component of Moving Image.	HCI (13)	2009	DBLP DOI BibTeX RDF
48	Kazuhiro Fujikake, Masaru Miyao, Tomoki Watanabe, Satoshi Hasegawa, Masako Omori, Hiroki Takada	Evaluation of Body Sway and the Relevant Dynamics While Viewing a Three-Dimensional Movie on a Head-Mounted Display by Using Stabilograms.	HCI (13)	2009	DBLP DOI BibTeX RDF	Three-dimensional (3D) movie, Stabilogram, Degree of determinism, Double-Wayland algorithm, Visually induced motion sickness
43	Ikuko Tsubaki, Toshiya Morita, Takahiro Saito, Kiyoharu Aizawa	An adaptive video stabilization method for reducing visually induced motion sickness.	ICIP (3)	2005	DBLP DOI BibTeX RDF
43	Behrang Keshavarz, Brandy Murovec, Niroshica Mohanathas, John F. Golding	The Visually Induced Motion Sickness Susceptibility Questionnaire (VIMSSQ): Estimating Individual Susceptibility to Motion Sickness-Like Symptoms When Using Visual Devices.	Hum. Factors	2023	DBLP DOI BibTeX RDF
34	Haruo Takeda, Satoshi Kiyohara, Kunihiro Chihara, Hiroshi Kawase, Yuji Matsuda, Masami Yamasaki	Multi Screen Environment with a Motion Base.	Virtual Worlds	2000	DBLP DOI BibTeX RDF
32	Dennis Nieuwenhuisen, Mark H. Overmars	Motion Planning for Camera Movements.	ICRA	2004	DBLP DOI BibTeX RDF
28	Akihiro Sugiura, Tetsuya Yamamoto, Hiroki Takada, Masaru Miyao	Effect of an Eyesight Recovering Stereoscopic Movie System on Visual Acuity and Asthenopia.	HCI (13)	2009	DBLP DOI BibTeX RDF	Pseudomyopia, visual acuity, asthenopia, stereoscopic video, visually induced motion sickness (VIMS)
28	Hiroshi Watanabe 0004, Hiroyasu Ujike	The Activity of ISO/Study Group on .	ISUC	2008	DBLP DOI BibTeX RDF	Image Safety, Biological Effect, ISO, Visually Induced Motion Sickness
26	Yanggu Zheng, Barys N. Shyrokau, Tamás Keviczky	Mitigating Motion Sickness With Optimization-Based Motion Planning.	IEEE Trans. Intell. Veh.	2024	DBLP DOI BibTeX RDF
26	Yanggu Zheng, Barys N. Shyrokau, Tamás Keviczky	Mitigating Motion Sickness with Optimization-based Motion Planning.	CoRR	2023	DBLP DOI BibTeX RDF
26	Naoki Kobayashi 0009, Miku Yamazaki, Reno Mizutani	Impact of Visually Induced Motion Sickness from VR Depending on Viewing Patterns, View Movement, and Background Motion.	EMBC	2023	DBLP DOI BibTeX RDF
26	Katharina Margareta Theresa Pöhlmann, Gang Li 0011, Mark McGill, Reuben Markoff, Stephen Anthony Brewster	You spin me right round, baby, right round: Examining the Impact of Multi-Sensory Self-Motion Cues on Motion Sickness During a VR Reading Task.	CHI	2023	DBLP DOI BibTeX RDF
26	Gang Li 0011, Yu-Kai Wang, Mark McGill, Katharina Margareta Theresa Pöhlmann, Stephen A. Brewster, Frank E. Pollick	Resting-state EEG in the Vestibular Region Can Predict Motion Sickness Induced by a Motion-Simulated in-car VR Platform.	SSCI	2023	DBLP DOI BibTeX RDF
26	Zaw Htike, Georgios Papaioannou, Efstathios Siampis, Efstathios Velenis, Stefano Longo	Fundamentals of Motion Planning for Mitigating Motion Sickness in Automated Vehicles.	IEEE Trans. Veh. Technol.	2022	DBLP DOI BibTeX RDF
26	Katharina Margareta Theresa Pöhlmann, Marc Stephan Kurt Auf Der Heyde, Gang Li 0011, Frans A. J. Verstraten, Stephen Anthony Brewster, Mark McGill	Can Visual Motion Presented in a VR Headset Reduce Motion Sickness for Vehicle Passengers?	AutomotiveUI (Adjunct Proceedings)	2022	DBLP DOI BibTeX RDF
26	Daofei Li, Jiankan Hu	Mitigating Motion Sickness in Automated Vehicles With Frequency-Shaping Approach to Motion Planning.	IEEE Robotics Autom. Lett.	2021	DBLP DOI BibTeX RDF
26	Ouren X. Kuiper, Jelte E. Bos, Eike A. Schmidt, Cyriel Diels, Stefan Wolter	Knowing What's Coming: Unpredictable Motion Causes More Motion Sickness.	Hum. Factors	2020	DBLP DOI BibTeX RDF
26	Zaw Htike, Georgios Papaioannou, Efstathios Velenis, Stefano Longo	Motion Planning of Self-driving Vehicles for Motion Sickness Minimisation.	ECC	2020	DBLP BibTeX RDF
26	Behrang Keshavarz, Aaron Emile Philipp-Muller, Wanja Hemmerich, Bernhard E. Riecke, Jennifer L. Campos	The effect of visual motion stimulus characteristics on vection and visually induced motion sickness.	Displays	2019	DBLP DOI BibTeX RDF
26	Naoki Kobayashi 0009, Ayumi Matsuura, Masahiro Ishikawa, Tetsuya Miyashita	Motion sickness effect in biosignals and body motion disturbance on 4K video viewing.	GCCE	2017	DBLP DOI BibTeX RDF
26	Astrid J. A. Lubeck, Jelte E. Bos, John F. Stins	Motion in images is essential to cause motion sickness symptoms, but not to increase postural sway.	Displays	2015	DBLP DOI BibTeX RDF
26	Naoki Kobayashi, Takahiro Saigo	Evaluation of visual induced motion sickness on interactive video using biosignals and body motion.	GCCE	2014	DBLP DOI BibTeX RDF
26	Mohsen Shafeie, Nika Zolfaghari, Kristiina M. Valter McConville	Abdominal muscle behavior and motion sickness during paired visual input with roll motion.	HSI	2013	DBLP DOI BibTeX RDF
26	Cyriel Diels, Peter A. Howarth	Visually induced motion sickness: Single- versus dual-axis motion.	Displays	2011	DBLP DOI BibTeX RDF
22	Kaleb McDowell, Patrick Nunez, S. Hutchins, Jason S. Metcalfe	Secure Mobility and the Autonomous Driver.	IEEE Trans. Robotics	2008	DBLP DOI BibTeX RDF
21	Elliott Wen, Chitralekha Gupta, Prasanth Sasikumar, Mark Billinghurst, James Wilmott, Emily Skow, Arindam Dey 0001, Suranga Nanayakkara	VR.net: A Real-world Dataset for Virtual Reality Motion Sickness Research.	IEEE Trans. Vis. Comput. Graph.	2024	DBLP DOI BibTeX RDF
21	Sangin Park, Sungchul Mun	Effects of Seated Postural Sway on Visually Induced Motion Sickness: A Multiple Regression and RUSBoost Classification Approach.	Int. J. Hum. Comput. Interact.	2024	DBLP DOI BibTeX RDF
21	Ye-Seom Jin, Jiseon Son, Taekyoung Kim, Hoolim Kim, Seunghwan Bang, HyungSeok Kim	A Study on the Motion Sickness Reduction Technology in Vehicle Media Environment.	BigComp	2024	DBLP DOI BibTeX RDF
21	Vishrut Jain, Sandeep Suresh Kumar, Georgios Papaioannou, Riender Happee, Barys N. Shyrokau	Optimal Trajectory Planning for Mitigated Motion Sickness: Simulator Study Assessment.	IEEE Trans. Intell. Transp. Syst.	2023	DBLP DOI BibTeX RDF
21	Ji-Seon Bang, Dong-Ok Won, Tae-Eui Kam, Seong-Whan Lee	Motion Sickness Prediction Based on Dry EEG in Real Driving Environment.	IEEE Trans. Intell. Transp. Syst.	2023	DBLP DOI BibTeX RDF
21	Muhammad Rehan Siddiqi, Sina Milani, Reza N. Jazar, Hormoz Marzbani	Motion Sickness Mitigating Algorithms and Control Strategy for Autonomous Vehicles.	IEEE Trans. Intell. Transp. Syst.	2023	DBLP DOI BibTeX RDF
21	L. James Smart, Anthony Drew, Tyler Hadidon, Max Teaford, Eric Bachmann	Using Nonlinear Kinematic Parameters as a Means of Predicting Motion Sickness in Real-Time in Virtual Environments.	Hum. Factors	2023	DBLP DOI BibTeX RDF
21	Yujiro Tamura, Takahiro Wada, Hailong Liu	Generating Visual Information for Motion Sickness Reduction Using a Computational Model Based on SVC Theory.	CoRR	2023	DBLP DOI BibTeX RDF
21	Hailong Liu, Shota Inoue, Takahiro Wada	Subjective Vertical Conflict Model with Visual Vertical: Predicting Motion Sickness on Autonomous Personal Mobility Vehicles.	CoRR	2023	DBLP DOI BibTeX RDF
21	Elliott Wen, Chitralekha Gupta, Prasanth Sasikumar, Mark Billinghurst, James Wilmott, Emily Skow, Arindam Dey 0001, Suranga Nanayakkara	VR.net: A Real-world Dataset for Virtual Reality Motion Sickness Research.	CoRR	2023	DBLP DOI BibTeX RDF
21	Zekun Cao, Regis Kopper	Real-Time Viewport-Aware Optical Flow Estimation in 360-degree Videos for Visually-Induced Motion Sickness Mitigation.	CoRR	2023	DBLP DOI BibTeX RDF
21	Tugrul Irmak, Daan Marinus Pool, Ksander N. de Winkel, Riender Happee	Validating models of sensory conflict and perception for motion sickness prediction.	Biol. Cybern.	2023	DBLP DOI BibTeX RDF
21	Yoshihiro Banchi, Takashi Kawai	Estimation of Motion Sickness in Automated Vehicles using Stereoscopic Visual Simulation.	SD&A	2023	DBLP DOI BibTeX RDF
21	Behrang Keshavarz, Narmada Umatheva, Katlyn Peck	Investigating the Role of Vection, Presence, and Stress on Visually Induced Motion Sickness.	HCI (17)	2023	DBLP DOI BibTeX RDF
21	Sujin Seong, Jaehyun Park 0004	Is It Possible to Measure Real-Time VR Motion Sickness with EDA Wavelet Features?	HCI (40)	2023	DBLP DOI BibTeX RDF
21	Zekun Cao, Regis Kopper	Real-Time Viewport-Aware Optical Flow Estimation in 360-degree Videos for Visually-Induced Motion Sickness Mitigation.	SVR	2023	DBLP DOI BibTeX RDF
21	Emmanuel Molefi, Ian McLoughlin 0001, Ramaswamy Palaniappan	Transcutaneous Auricular Vagus Nerve Stimulation towards Visually Induced Motion Sickness Reduction: A Pilot Study.	EMBC	2023	DBLP DOI BibTeX RDF
21	Emmanuel Molefi, Ian McLoughlin 0001, Ramaswamy Palaniappan	Heart Rate Variability Responses to Visually Induced Motion Sickness.	EMBC	2023	DBLP DOI BibTeX RDF
21	Alessio Facchin, Stefania La Rocca, Veronica Strina, Laura Vacchi, Carlotta Lega, Simone Fontana	Assessing the impact of selective attention in a minimalist virtual reality driving simulator: An analysis of perceived experience, motion sickness.	AIxHMI@AI*IA	2023	DBLP BibTeX RDF
21	Mengdie Xu, Banghua Yang, Mutian Liu, Yiling Huang, Xinxing Xia, Jie Zhang	SE-CNN Attention Structure for Quantitative EEG-Based Assessment of VR Motion Sickness.	ICCAI	2023	DBLP DOI BibTeX RDF
21	Katharina Margareta Theresa Pöhlmann, Ammar Jamal Said Al-Taie, Gang Li 0011, Abhraneil Dam, Yu-Kai Wang, Chun-Shu Wei, Georgios Papaioannou	2nd Workshop on Multimodal Motion Sickness Detection and Mitigation Methods for Car Journeys - Finding Consensus in the Field.	AutomotiveUI (Adjunct Proceedings)	2023	DBLP DOI BibTeX RDF
21	Markus Tomzig, Nadja Schoemig, Tristan Wehner, Claus Marberger, Hanna Otto, Michael Schulz, Erdi Kenar, Andreas Schultz	How to Make Reading in Fully Automated Vehicles a Better Experience? Effects of Active Seat Belt Retractions and a 2-Step Driving Profile on Subjective Motion Sickness, Ride Comfort and Acceptance.	AutomotiveUI	2023	DBLP DOI BibTeX RDF
21	Zhanyan Qiu, Mark McGill, Katharina Margareta Theresa Pöhlmann, Stephen Anthony Brewster	Manipulating the Orientation of Planar 2D Content in VR as an Implicit Visual Cue for Mitigating Passenger Motion Sickness.	AutomotiveUI	2023	DBLP DOI BibTeX RDF
21	Weiyin Xie, Song Yan, Chunxi Huang, Dengbo He	The Influence of Display Location on Motion Sickness: An Analysis Based on 6-DoF SVC Model.	AutomotiveUI (Adjunct Proceedings)	2023	DBLP DOI BibTeX RDF
21	Markus Sasalovici, Stephan Leenders, Robin Connor Schramm, Jann Philipp Freiwald, Hannes Frederic Botzet, Daniel Keßelheim, Thomas Krach, Christian Winkler	In-Car Office: Can HMD-Based AR Alleviate Passenger Motion Sickness?	AutomotiveUI (Adjunct Proceedings)	2023	DBLP DOI BibTeX RDF
21	Chengcheng Hua, Jianlong Tao, Lining Chai, Zhanfeng Zhou	The effect of additional shooting task on alleviating virtual reality motion sickness.	RobCE	2023	DBLP DOI BibTeX RDF
21	Ghazal Rahimzadeh, Darius Nahavandi, Shady M. K. Mohamed, Pawel Plawiak, Saeid Nahavandi, Houshyar Asadi	Artificial Intelligence-based Motion Sickness Detection: A Survey.	ICECS	2023	DBLP DOI BibTeX RDF
21	Kim Martinez, David Checa	Are Virtual Reality Serious Games Safe for Children? Design Keys to Avoid Motion Sickness and Visual Fatigue.	XR (1)	2023	DBLP DOI BibTeX RDF
21	Jon Ander Ruiz Colmenares, Estibaliz Asua Uriarte	Driving Style and Road Characteristics from a Motion Sickness Perspective Using a Methodology Based on Clustering.	CoDIT	2023	DBLP DOI BibTeX RDF
21	Yujiro Tamura, Takahiro Wada, Hailong Liu	Generating Visual Information for Motion Sickness Reduction Using a Computational Model Based on SVC Theory.	ITSC	2023	DBLP DOI BibTeX RDF
21	Cyriel Diels, Pierre Dugenetet, Adrian Brietzke, Rebecca Pham Xuan	Design Strategies to Alleviate Motion Sickness in Rear Seat Passengers - A Test Track Study.	ITSC	2023	DBLP DOI BibTeX RDF
21	Kihee Park, Yeong-Hun Park, Chang Won Lee	Human Care Assist System for Mitigating Motion Sickness Based on Enhancement of Situational Awareness in Autonomous Driving.	ITSC	2023	DBLP DOI BibTeX RDF
21	Binbin Tang, Tingzhe Yu, Linhui Chen, Jiajie Zhang, Biao Xu, Daofei Li	Personalized Trajectory Planning Algorithm Considering Passenger Motion Sickness Level.	ITSC	2023	DBLP DOI BibTeX RDF
21	Benedikt Buchheit, Tobias Grün, Elena N. Schneider, Mohamad Alayan, Daniel J. Strauss	Motion Sickness Prediction Based on Passenger's Self Evaluation.	ITSC	2023	DBLP DOI BibTeX RDF
21	Jan K. Argasinski, Natalia Lipp, Szymon Mazurek	Electroencephalographic (EEG) Correlates of Visually Induced Motion Sickness (VIMS) in the Virtual Reality (VR) Based Simulations.	INTERACT (4)	2023	DBLP DOI BibTeX RDF
21	Oliver Hein, Philipp A. Rauschnabel, Mariam Hassib, Florian Alt	Sick in the Car, Sick in VR? Understanding How Real-World Susceptibility to Dizziness, Nausea, and Eye Strain Influences VR Motion Sickness.	INTERACT (2)	2023	DBLP DOI BibTeX RDF
21	Yasuyuki Matsuura, Mizuki Makino, Fumiya Kinoshita, Hiroki Takada	Effects of Light-Dark Adaptation Processes on the Body as a Basic Study for Visually Induced Motion Sickness.	ICCSE (1)	2023	DBLP DOI BibTeX RDF
21	Haohan Zhao, Mingxin Kang, Yahui Zhang	Optimal Control of Active Suspension Considering Mitigating Motion Sickness in Automated Vehicles.	SICE	2023	DBLP DOI BibTeX RDF
21	Gang Li 0011, Katharina Margareta Theresa Pöhlmann, Mark McGill, Chao Ping Chen, Stephen A. Brewster, Frank E. Pollick	Exploring Neural Biomarkers in Young Adults Resistant to VR Motion Sickness: A Pilot Study of EEG.	VR	2023	DBLP DOI BibTeX RDF
21	Katharina Margareta Theresa Pöhlmann, Gang Li 0011, Mark McGill, Frank E. Pollick, Stephen A. Brewster	Can Gender and Motion Sickness Susceptibility Predict Cybersickness in VR ?	VRW	2023	DBLP DOI BibTeX RDF
21	Elena N. Schneider, Benedikt Buchheit, Philipp Flotho, Mayur J. Bhamborae, Farah I. Corona-Strauss, Florian Dauth, Mohamad Alayan, Daniel J. Strauss	Electrodermal Responses to Driving Maneuvers in a Motion Sickness Inducing Real-World Driving Scenario.	IEEE Trans. Hum. Mach. Syst.	2022	DBLP DOI BibTeX RDF
21	Tsukasa Suwa, Yuki Sato, Takahiro Wada	Reducing Motion Sickness When Reading With Head-Mounted Displays By Using See-Through Background Images.	Frontiers Virtual Real.	2022	DBLP DOI BibTeX RDF
21	Hikaru Sato, Yuki Sato, Atsushi Takamatsu, Mitsuhiro Makita, Takahiro Wada	Earth-Fixed Books Reduce Motion Sickness When Reading With a Head-Mounted Display.	Frontiers Virtual Real.	2022	DBLP DOI BibTeX RDF
21	Ran Liu 0006, Shanshan Cui, Yang Zhao, Xi Chen, Lin Yi, Alex D. Hwang	VIMSNet: an effective network for visually induced motion sickness detection.	Signal Image Video Process.	2022	DBLP DOI BibTeX RDF
21	Muhammad Rehan Siddiqi, Sina Milani, Reza N. Jazar, Hormoz Marzbani	Ergonomic Path Planning for Autonomous Vehicles-An Investigation on the Effect of Transition Curves on Motion Sickness.	IEEE Trans. Intell. Transp. Syst.	2022	DBLP DOI BibTeX RDF
21	Benedikt Buchheit, Elena N. Schneider, Mohamad Alayan, Florian Dauth, Daniel J. Strauss	Motion Sickness Prediction in Self-Driving Cars Using the 6DOF-SVC Model.	IEEE Trans. Intell. Transp. Syst.	2022	DBLP DOI BibTeX RDF
21	Mara Kaufeld, Martin Mundt, Sarah Forst, Heiko Hecht	Optical see-through augmented reality can induce severe motion sickness.	Displays	2022	DBLP DOI BibTeX RDF
21	Ziang Lu, Mei Yu 0001, Gangyi Jiang, Biwei Chi, Qifeng Dong	Prediction of motion sickness degree of stereoscopic panoramic videos based on content perception and binocular characteristics.	Digit. Signal Process.	2022	DBLP DOI BibTeX RDF
21	Hailong Liu, Shota Inoue, Takahiro Wada	Motion Sickness Modeling with Visual Vertical Estimation and Its Application to Autonomous Personal Mobility Vehicles.	CoRR	2022	DBLP BibTeX RDF
21	Sangin Park, Jihyeon Ha, Laehyun Kim	Effect of Visually Induced Motion Sickness from Head-Mounted Display on Cardiac Activity.	Sensors	2022	DBLP DOI BibTeX RDF
21	Jinwoo Kim 0005, Heeseok Oh, Woojae Kim, Seonghwa Choi, Wookho Son, Sanghoon Lee 0001	A Deep Motion Sickness Predictor Induced by Visual Stimuli in Virtual Reality.	IEEE Trans. Neural Networks Learn. Syst.	2022	DBLP DOI BibTeX RDF
21	Sangin Park, Laehyun Kim, Jangho Kwon, Soo Ji Choi, Mincheol Whang	Evaluation of visual-induced motion sickness from head-mounted display using heartbeat evoked potential: a cognitive load-focused approach.	Virtual Real.	2022	DBLP DOI BibTeX RDF
21	Daniel Palacios-Alonso, Javier Barbas-Cubero, Luis Betancourt-Ortega, Mario Fernández-Fernández	Measuring Motion Sickness Through Racing Simulator Based on Virtual Reality.	IWINAC (1)	2022	DBLP DOI BibTeX RDF
21	Hailong Liu, Shota Inoue, Takahiro Wada	Motion Sickness Modeling with Visual Vertical Estimation and Its Application to Autonomous Personal Mobility Vehicles.	IV	2022	DBLP DOI BibTeX RDF
21	Benedikt Buchheit, Elena N. Schneider, Mohamad Alayan, Daniel J. Strauss	Motion Sickness related Route Profiling for Evaluation of the Sensory Conflict in Real-Driving Studies.	EMBC	2022	DBLP DOI BibTeX RDF
21	Zhibin Li, Leilei Zhao, Jing Chang, Wei Li 0197, Menghui Yang, Chong Li, Rencheng Wang, Linhong Ji	EEG-based evaluation of motion sickness and reducing sensory conflict in a simulated autonomous driving environment.	EMBC	2022	DBLP DOI BibTeX RDF
21	Emmanuel Molefi, Ramaswamy Palaniappan, Ian McLoughlin 0001	Vibro-motor Reprocessing Therapy towards Managing Motion Sickness Reduction: Evidence from EEG.	EMBC	2022	DBLP DOI BibTeX RDF
21	Zhanyan Qiu, Mark McGill, Katharina Margareta Theresa Pöhlmann, Stephen Anthony Brewster	Display Rotation for Reducing Motion Sickness Caused by Using VR in Vehicles.	AutomotiveUI (Adjunct Proceedings)	2022	DBLP DOI BibTeX RDF
21	Katharina Margareta Theresa Pöhlmann, Gang Li 0011, Abhraneil Dam, Yu-Kai Wang, Chun-Shu Wei, Adrian Brietzke, Georgios Papaioannou	Workshop on Multimodal Motion Sickness Detection and Mitigation Methods for Car Journeys.	AutomotiveUI (Adjunct Proceedings)	2022	DBLP DOI BibTeX RDF
21	Vinitha Erusu, Sebastian Kuhn, Manasa Reddy Sama, Soojin Hwang, John Raiti	quEASY: A tilting interface to alleviate vehicle-induced motion sickness in passengers.	GHTC	2022	DBLP DOI BibTeX RDF
21	Ji-Un Hwang, Ji-Seon Bang, Seong-Whan Lee	Classification of Motion Sickness Levels using Multimodal Biosignals in Real Driving Conditions.	SMC	2022	DBLP DOI BibTeX RDF
21	So-Hyun Han, Dong-Kyun Han, Seong-Whan Lee	Ordinal Distance-based Domain Adaptation Framework for Motion Sickness Classification.	SMC	2022	DBLP DOI BibTeX RDF
21	Elliott Wen, Tharindu Indrajith Kaluarachchi, Shamane Siriwardhana, Vanessa Tang, Mark Billinghurst, Robert W. Lindeman, Richard Yao, James Lin, Suranga Nanayakkara	VRhook: A Data Collection Tool for VR Motion Sickness Research.	UIST	2022	DBLP DOI BibTeX RDF
21	Soojin Hwang, Manasa Reddy Sama, Sebastian Kuhn, Vinitha Erusu, John Raiti	An Adaptive Tilting Interface to Alleviate Motion Sickness for Passengers in Vehicles.	PETRA	2022	DBLP DOI BibTeX RDF