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GrowBag graphs for keyword ? (Num. hits/coverage)
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Results
Found 242 publication records. Showing 242 according to the selection in the facets
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 |
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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 |
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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 |
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