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Shogo Okamoto
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2020 – today
- 2024
- [j62]Yuki Kosuge, Tatsuki Makioka, Shogo Okamoto
, Ibuki Tara:
Differences in Dynamics of Skin Conductance Responses Caused by Videos Evoking Fear, Family Bonding, and Funniness. IEEE Access 12: 153596-153604 (2024) - [j61]Hiroki Watanabe, Shogo Okamoto, Tomohito Kuroda, Yasuhiro Akiyama:
Manipulability Analysis of Anterior and Mediolateral Dynamic Gait Stability of Young and Elderly Individuals. J. Robotics Mechatronics 36(6): 1568-1576 (2024) - [j60]Muhammad Irwan Yanwari
, Shogo Okamoto
:
Healing Function for Abraded Fingerprint Ridges in Tactile Texture Sensors. Sensors 24(13): 4078 (2024) - [j59]Mirai Azechi, Shogo Okamoto
:
Bumps and Dents are Not Perceptually Opposite When Exploring With Lateral Force Cues. IEEE Trans. Haptics 17(1): 52-57 (2024) - [j58]Qingyu Sun
, Shogo Okamoto
, Hongbo Wang:
Hardness Perceived When Sliding Over Roughened Surfaces. IEEE Trans. Haptics 17(4): 992-997 (2024) - [c152]Tatsuya Kitajima, Shogo Okamoto, Yuki Kosuge:
Vibratory-interoceptive stimuli to enhance empathy. ICAT-EGVE (Posters & Demos) 2024 - [c151]Yuki Kosuge, Yuta Goto, Shogo Okamoto:
Virtual Reality Space Moderately Filled with Objects for Linear Self-locomotive Speed Perception. ICAT-EGVE (Posters & Demos) 2024 - [c150]Muhammadolim Olimov, Yuta Goto, Shogo Okamoto:
Psychophysical Analysis of Delay Detection in a VR Avatar's Standing-up Motion. ICAT-EGVE 2024 - [c149]Hanyi Yang, Kazuya Shimatoh, Yuta Goto, Shogo Okamoto:
Drone Rider: Wind Stimulation to Enhance Speed Perception of Virtual Flight. ICAT-EGVE (Posters & Demos) 2024 - [c148]Peng Haoyun, Shogo Okamoto, Yasuhiro Akiyama:
Conjunctive use of two body parts' kinematic information to estimate dynamic postural stability. GCCE 2024: 51-53 - [c147]Yuki Kosuge, Shogo Okamoto:
Enhanced Perception of Speed in Textured VR Environments with Unchanged Sensitivity. GCCE 2024: 729-731 - [c146]Asaki Kawaguchi, Shogo Okamoto, Yuta Goto, Yutaro Abe, Masayuki Hara:
Asura Hands: Having Two Independently Controlled Left Hands in Virtual Reality Environment. GCCE 2024: 732-734 - [c145]Kazuya Shimatoh, Yuta Goto, Shogo Okamoto:
Drone Rider: Enhancing VR Flying Experiences via Directed Wind Stimuli. GCCE 2024: 735-737 - [c144]Ami Chihara, Mirai Azechi, Ai Kurita, Shogo Okamoto:
Soft Feel Presentation on Touch Panels using Low-Frequency Friction Stimuli. GCCE 2024: 738-740 - [c143]Ai Kurita, Mirai Azechi, Ami Chihara, Shogo Okamoto:
Minimally Allowable Inconsistency between Visual and Synthetic Tactile Grating Textures for Surface Tactile Displays. GCCE 2024: 741-743 - [c142]Muhammad Irwan Yanwari, Shogo Okamoto:
Frequency Response Deterioration due to Surface Ridge Abrasion of Tactile Sensors. GCCE 2024: 782-784 - [c141]Haoke Yu, Yuki Kosuge, Shogo Okamoto:
Offline Temporal Dominance of Emotions Method using Recorded Videos. GCCE 2024: 879-881 - [c140]Yuta Goto, Shogo Okamoto:
Vibratory Stimuli to External Auditory Meatus to Cause Subjective Relaxation. GCCE 2024: 884-886 - [c139]Mirai Azechi, Shogo Okamoto:
Toward Three-Dimensional Surface Texture Display: Recognition Characteristics of Bumps and Dents Presented by Friction. GCCE 2024: 1313-1315 - [c138]Ayaka Tamura, Shogo Okamoto:
Richer Textural Information in the Horizontal Component of the Contact Force Compared with the Normal Component. HAPTICS 2024: 13-18 - [c137]Yukiya Ojima
, Shogo Okamoto
, Vibol Yem
, Yasushi Ikei
:
Go Mountain! VR: Virtual Poles and Physical Motions for Trekking and Skiing Experiences. SIGGRAPH Asia Emerging Technologies 2024: 6:1-6:3 - [c136]Yuta Goto, Shogo Okamoto:
Stroking Stimuli to Ear Emotionally Affect Musical and Non-Musical Sounds in a Different Way. SII 2024: 912-913 - [c135]Kazuya Shimatoh, Yuta Goto, Shogo Okamoto:
Drone Rider: Enhanced Feelings of Flying Using a Vibratory and Passively Inclining Foot Plate. SII 2024: 1217-1218 - [i1]Mirai Azechi, Shogo Okamoto:
Independent perceptual process of microscopic texture and surface shapes through lateral resistive force cues. CoRR abs/2411.05130 (2024) - 2023
- [j57]Jian Liu
, Yoji Yamada, Yasuhiro Akiyama
, Shogo Okamoto
, Yumena Iki:
Development of Dummy Based on Impedance Properties of Human Soft Tissue Using a Nonlinear Viscoelastic Model. IEEE Access 11: 7782-7793 (2023) - [j56]Yasuhiro Akiyama
, Yosuke Kuboki, Shogo Okamoto
, Yoji Yamada:
Novel Approach to Analyze All-Round Kinematic Stability During Curving Steps. IEEE Access 11: 10326-10335 (2023) - [j55]Kazuya Otake, Shogo Okamoto
, Yasuhiro Akiyama
:
Perception of Self-Moving Speed in Different Visual Cue and Viewpoint Conditions in Virtual Reality Environment. IEEE Access 11: 94116-94124 (2023) - [j54]Shogo Okamoto
, Kohta Wakamatsu
, Shigeki Nakauchi
, Jinhwan Kwon
, Maki Sakamoto:
Computation of Sensory-Affective Relationships Depending on Material Categories of Pictorial Stimuli. IEEE Trans. Affect. Comput. 14(1): 498-508 (2023) - [j53]Kyoichi Tachi
, Shogo Okamoto
:
Dynamic State-Space Modeling With Factorial Memories in Temporal Dominance of Sensations, Emotions and Temporal Liking. IEEE Trans. Affect. Comput. 14(3): 2266-2275 (2023) - [c134]Ziqi Liu, Tomohito Kuroda, Shogo Okamoto, Yasuhiro Akiyama:
Suitability of Sacrum Motion in Computing Dynamic Gait Stability Indices. GCCE 2023: 343-345 - [c133]Hongbo Wang, Shogo Okamoto:
Frictional Planes are Felt Harder through a Force Display Device. GCCE 2023: 466-468 - [c132]Tomohito Kuroda, Shogo Okamoto, Yasuhiro Akiyama:
Walking-age estimator based on gait parameters. GCCE 2023: 517-519 - [c131]Yuki Kosuge, Yumeka Ogura, Shogo Okamoto:
Vibration to upper body manipulates joyful experience while viewing emotional scenes. GCCE 2023: 613-615 - [c130]Hiroharu Natsume, Shogo Okamoto, Hikaru Nagano:
Trajectory Biplot Highlighting Statistically Different Periods for Temporal Sensory Evaluation. GCCE 2023: 629-631 - [c129]Tatsuki Makioka, Shogo Okamoto:
Effect of Advance Elevation of Physiological Activities on Emotionally Appealing Jump-performance Scene of Figure Skating. GCCE 2023: 632-634 - [c128]Yuta Goto, Shogo Okamoto:
Warm Ear Stroke to Make Sounds More Pleasant and Sleepy. GCCE 2023: 635-637 - [c127]Asaki Kawaguchi, Shogo Okamoto, Masayuki Hara:
Test of independence model between body ownership and agency in a virtual reality environment. GCCE 2023: 698-700 - [c126]Hongbo Wang, Shogo Okamoto:
Kinetic Friction Deters Softness Judgment during Sliding Motion. GCCE 2023: 782-783 - [c125]Tzu-Hsuan Hsia, Shogo Okamoto:
Three-Dimensional Localization of a Finger in Water Using Human Body Antenna Signals. GCCE 2023: 963-965 - [c124]Mirai Azechi, Shogo Okamoto:
Easy-to-Recognize Bump Shapes using only Lateral Force Cues for Real and Virtual Surfaces. WHC 2023: 397-402 - [c123]Asaki Kawaguchi, Yutaro Abe, Shogo Okamoto, Yuta Goto, Masayuki Hara, Noriaki Kanayama
:
Asura hands: Own and control two left hands in immersive virtual reality environment. RO-MAN 2023: 1347-1352 - 2022
- [j52]Fengyu Li
, Yasuhiro Akiyama
, Xianglong Wan
, Shogo Okamoto
, Yoji Yamada:
Built-in Sensor System for Monitoring Internal Shear Strain and Stress Distribution in Soft Materials. IEEE Access 10: 319-327 (2022) - [j51]Tomoyuki Iwasaki, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada:
Gait Stability Index Built by Kinematic Information Consistent With the Margin of Stability Along the Mediolateral Direction. IEEE Access 10: 52832-52839 (2022) - [j50]Naomi Arakawa
, Naoki Saito
, Shogo Okamoto
:
Less Frictional Skin Feels Softer in a Tribologically Paradoxical Manner. IEEE Access 10: 55279-55287 (2022) - [j49]Eugene Kim, Yoji Yamada, Shogo Okamoto:
Detection Error Contaminated by Outliers to Classify Density Profiles Dependent on the Relative Speed Between a MIMO Sensor and a Human Hand. IEEE Access 10: 90576-90585 (2022) - [j48]Giryeon Kim, Shogo Okamoto, Yasuhiro Akiyama, Youji Yamada:
Weight illusion by presenting vibration to the fingertip. Frontiers Virtual Real. 3 (2022) - [j47]Takumu Okada, Shogo Okamoto
, Yoji Yamada:
Affective Dynamics: Causality Modeling of Temporally Evolving Perceptual and Affective Responses. IEEE Trans. Affect. Comput. 13(2): 628-639 (2022) - [j46]Shogo Okamoto
, Yuki Ehara, Takumu Okada, Yoji Yamada:
Affective Dynamics: Principal Motion Analysis of Temporal Dominance of Sensations and Emotions Data. IEEE Trans. Affect. Comput. 13(2): 871-880 (2022) - [j45]Kazuya Otake
, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada
:
Tactile Texture Display Combining Vibrotactile and Electrostatic-friction Stimuli: Substantial Effects on Realism and Moderate Effects on Behavioral Responses. ACM Trans. Appl. Percept. 19(4): 18:1-18:18 (2022) - [j44]Koki Inoue, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada:
Surfaces With Finger-Sized Concave Feel Softer. IEEE Trans. Haptics 15(1): 32-38 (2022) - [j43]Kazuya Otake, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada:
Tactile Texture Rendering for Electrostatic Friction Displays: Incorporation of Low-Frequency Friction Model and High-Frequency Textural Model. IEEE Trans. Haptics 15(1): 68-73 (2022) - [j42]Qingyu Sun
, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada:
Multiple Spatial Spectral Components of Static Skin Deformation for Predicting Macroscopic Roughness Perception. IEEE Trans. Haptics 15(3): 646-654 (2022) - [c122]Mirai Azechi, Shogo Okamoto:
Combined virtual bumps and textures on electrostatic friction tactile displays. GCCE 2022: 315-317 - [c121]Tatsuki Makioka, Shogo Okamoto, Ibuki Tara:
Difference in skin conductance dynamics to horror and family bond emotional movies. GCCE 2022: 444-446 - [c120]Tastuki Makioka, Shogo Okamoto, Ibuki Tara:
Fear magnified by vibratory stimuli to the upper-body at predictive horror scenes. GCCE 2022: 570-572 - [c119]Tomohito Kuroda, Shogo Okamoto, Yasuhiro Akiyama:
Verifying the Independence of Anterior and Mediolateral Margin of Gait Stability Indices. GCCE 2022: 577-579 - [c118]Ziqi Liu, Tomohito Kuroda, Shogo Okamoto, Yasuhiro Akiyama:
Estimation of Mediolateral Gait Postural Stability using Time-Series Pelvis Angular Velocities. GCCE 2022: 754-756 - [c117]Tzu-Hsuan Hsia, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
HumTouch: Localization of a finger in purified water using humming-noise-driven human-body electric currents. LifeTech 2022: 65-67 - [c116]Hiroharu Natsume, Shogo Okamoto, Nanako Shimaoka:
Outlier analysis in time-evolving sensory evaluation tasks. LifeTech 2022: 212-213 - [c115]Qingyu Sun, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Differences in pleasant texture stimuli between fingertips and the palm. LifeTech 2022: 222-224 - [c114]Ibuki Tara, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Heightening fear response to horror video scenes by applying vibratory stimuli to upper bodies of viewers. LifeTech 2022: 250-252 - [c113]Kazuya Otake, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Magnitude estimation of self-speed under different visual cue conditions in virtual space. LifeTech 2022: 401-403 - 2021
- [j41]Chongyang Qiu, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada:
Application of Supervised Principal Motion Analysis to Evaluate Subjectively Easy Sit-to-Stand Motion of Healthy People. IEEE Access 9: 73251-73261 (2021) - [j40]Yosuke Kuboki, Yasuhiro Akiyama, Shogo Okamoto, Yoji Yamada:
The influence of hip joint rotation of a physical assistant robot on curving motion. Adv. Robotics 35(2): 108-117 (2021) - [j39]Eugene Kim, Yoji Yamada, Shogo Okamoto, Mikihiro Sennin, Hiroki Kito:
Considerations of potential runaway motion and physical interaction for speed and separation monitoring. Robotics Comput. Integr. Manuf. 67: 102034 (2021) - [j38]Tzu-Hsuan Hsia, Shogo Okamoto
, Yasuhiro Akiyama, Yoji Yamada:
HumTouch: Localization of Touch on Semi-Conductive Surfaces by Sensing Human Body Antenna Signal. Sensors 21(3): 859 (2021) - [j37]Shogo Okamoto
, Haruyo Kojima, Atsushi Yamagishi, Kyoichi Kato, Atsuko Tamada:
Layered-Modeling of Affective and Sensory Experiences using Structural Equation Modeling: Touch Experiences of Plastic Surfaces as an Example. IEEE Trans. Affect. Comput. 12(2): 429-438 (2021) - [j36]Takumu Okada, Shogo Okamoto
, Yoji Yamada:
Passive haptics: greater impact presented by pulsive damping brake of DC motor and physical indices for perceived impact. Virtual Real. 25(1): 233-245 (2021) - [c112]Ibuki Tara, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
How important is the timing of vibrotactile stimuli for the excitation of an emotional response for audio-visual content? GCCE 2021: 157-159 - [c111]Tzu-Hsuan Hsia, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Localization performance of hum-noise-based touch sensor (HumTouch) with unknown participants. GCCE 2021: 750-751 - [c110]Ibuki Tara, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Temporal characteristics of skin conductance and subjective intensity in response to unpleasant audio-visual and vibrotactile stimuli. ISR 2021: 24-27 - [c109]Naomi Yamada, Shogo Okamoto, Yukiko Fuwa, Yasuhiro Akiyama, Yoji Yamada:
Effect of 4 Weeks of Foot Stretching with an Automatic Stretching Machine: A Case Report. ISR 2021: 74-76 - [c108]Hiroki Kito, Yoji Yamada, Jian Liu, Yasuhiro Akiyama, Shogo Okamoto:
Proposal of Fail-Safe Contact Motion Control and its Simulation using CRANE-X7. ISR 2021: 161-165 - [c107]Shuto Yamada, Yasuhiro Akiyama, Shogo Okamoto, Yoji Yamada:
Estimation of effects of recovery step length on severity of injuries caused by the trip and fall. ISR 2021: 216-219 - [c106]Takuya Mayumi, Yasuhiro Akiyama, Shogo Okamoto, Yoji Yamada:
Identification of healthy elderly's gait characteristics by analyzing gait parameters. ISR 2021: 220-223 - [c105]Tomoyuki Iwasaki, Shogo Okamoto, Yasuhiro Akiyama, Takashi Inagaki
, Yoji Yamada:
Walking motions with high margin-of-stability values. ISR 2021: 224-228 - [c104]Huazhe Wu, Eugene Kim, Yoji Yamada, Shogo Okamoto:
Cumulative Clustering Filter for MIMO Radar Detecting Human Hand Intrusion. ISR 2021: 338-341 - [c103]Kiichi Kondo, Yasuhiro Akiyama, Shogo Okamoto, Yoji Yamada:
Effect of different gait phase-based assist patterns of a wearable robot on gait motion. ISR 2021: 378-381 - [c102]Kyogo Kazumura, Yasuhiro Akiyama, Taro Naganeo, Shogo Okamoto, Yoji Yamada:
Index of gait stability using inertial measurement unit. LifeTech 2021: 29-30 - [c101]Ko Suzuki, Shogo Okamoto, Yasuhiro Akiyama, Yuma Shiraishi, Naomi Yamada, Yoji Yamada:
Alignment of anatomical flexion axis when using one-degree-of-freedom ankle stretching exerciser. LifeTech 2021: 61-63 - [c100]Kazuya Otake, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Virtual tactile texture using electrostatic friction display for natural materials: The role of low and high frequency textural stimuli. RO-MAN 2021: 392-397 - [c99]Tomoyuki Iwasaki, Shogo Okamoto, Yasuhiro Akiyama, Takashi Inagaki
, Yoji Yamada:
Kinematic gait stability index highly correlated with the margin of stability: Concept and interim report. SII 2021: 347-350 - [c98]Shin Inami, Shogo Okamoto, Kunitoshi Ito, Ryuji Ozaki:
Hierarchical Modeling of Individual Tactile, Emotional, and Preferential Responses to Leathers using Bayesian Structural Equation Modeling. SII 2021: 745-749 - 2020
- [j35]Kohei Yamaguchi
, Susumu Hara
, Shogo Okamoto, Tsuyoshi Inoue, Kikuko Miyata, Nobuo Fukuwa, Jun Tobita:
Experience-Based Lecture for Vibration Engineering Using Dual-Scale Experiments: Free Vibration of an Actual Seismic Building and Controlling the Vibration of Scale-Down Experimental Model. IEEE Access 8: 94767-94779 (2020) - [j34]Tomoyuki Iwasaki, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada:
Principal Motion Ellipsoids: Gait Variability Index Invariant With Gait Speed. IEEE Access 8: 213330-213339 (2020) - [j33]Eugene Kim, Robin Jeanne Kirschner
, Yoji Yamada, Shogo Okamoto:
Estimating probability of human hand intrusion for speed and separation monitoring using interference theory. Robotics Comput. Integr. Manuf. 61: 101819 (2020) - [j32]Fengyu Li
, Yasuhiro Akiyama, Xianglong Wan, Shogo Okamoto, Yoji Yamada:
Measurement of Shear Strain Field in a Soft Material Using a Sensor System Consisting of Distributed Piezoelectric Polymer Film. Sensors 20(12): 3484 (2020) - [j31]Yasuhiro Akiyama
, Ryota Kushida, Shogo Okamoto
, Yoji Yamada:
Characteristics of Recovery Motion Resulting From Side Contact With a Physical Assistant Robot Worn During Gait. IEEE Trans. Hum. Mach. Syst. 50(6): 518-528 (2020) - [j30]Hikaru Hasegawa
, Shogo Okamoto
, Yoji Yamada:
Phase Difference Between Normal and Shear Forces During Tactile Exploration Represents Textural Features. IEEE Trans. Haptics 13(1): 11-17 (2020) - [j29]Shogo Okamoto
, Ariei Oishi:
Relationship Between Spatial Variations in Static Skin Deformation and Perceived Roughness of Macroscopic Surfaces. IEEE Trans. Haptics 13(1): 66-72 (2020) - [j28]Koki Inoue, Shogo Okamoto
, Yasuhiro Akiyama
, Yoji Yamada:
Effect of Material Hardness on Friction Between a Bare Finger and Dry and Lubricated Artificial Skin. IEEE Trans. Haptics 13(1): 123-129 (2020) - [c97]Tzu-Hsuan Hsia, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
HumTouch: Localization of Touch on a Cylindrical Object. GCCE 2020: 386-388 - [c96]Senri Hashimoto, Naomi Yamada, Shogo Okamoto, Yuma Shiraishi, Yasuhiro Akiyama, Yoji Yamada:
Effect of Static Stretching Using Foot Stretching Device in the Elderly: An Interim Report. GCCE 2020: 718-720 - [c95]Kazuya Otake, Hikaru Hasegawa, Shogo Okamoto, Yoji Yamada:
Virtual roughness textures via a surface tactile texture display using vibrotactile and electrostatic friction stimuli: Improved realism. HSI 2020: 147-152 - [c94]Xuanchen Ji, Yasuhiro Akiyarna, Yoji Yamada, Shogo Okamoto, Hisae Hayashi:
Development of deep clustering model to stratify occurrence risk of diabetic foot ulcers based on foot pressure patterns and clinical indices. IJCB 2020: 1-8 - [c93]Yumena Iki, Yoji Yamada, Yasuhiro Akiyama, Shogo Okamoto, Jian Liu:
Designing A Dummy Skin by Evaluating Contacts between A Human Hand and A Robot End Tip. IROS 2020: 11337-11344 - [c92]Tzu-Hsuan Hsia, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
HumTouch: Kernel Regression-based Localization of Touch on a Paper. LifeTech 2020: 28-30 - [c91]Takashi Inagaki
, Shogo Okamoto, Tomoyuki Iwasaki, Yasuhiro Akiyama, Yoji Yamada:
Comparison of gait variability and stability indices. LifeTech 2020: 72-74 - [c90]Koki Inoue, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Random switch of adhesion and deformation friction depending on material hardness. LifeTech 2020: 204-206 - [c89]Giryeon Kim, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Softness Presentation via Friction Force Control on Electrostatic Tactile Panel Display. LifeTech 2020: 219-221 - [c88]Chongyang Qiu, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Lower-limb moments during sit-to-stand movement with different handrail grip position and trunk tilt angle. SII 2020: 305-310 - [c87]Tomoyuki Iwasaki, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Principal motion ellipsoids: Gait variability index based on principal motion analysis. SII 2020: 489-494 - [c86]Chen-Yu Cheng, Shogo Okamoto, Pengcheng Li, Yasuhiro Akiyama, Chongyang Qiu, Yoji Yamada:
Encouragement of Squat-Lifting: Feasibility Study of a Highly Usable Passive Knee Assistive Device. SII 2020: 504-508
2010 – 2019
- 2019
- [j27]Ken Ito, Shogo Okamoto, Yoji Yamada, Hiroyuki Kajimoto:
Tactile Texture Display with Vibrotactile and Electrostatic Friction Stimuli Mixed at Appropriate Ratio Presents Better Roughness Textures. ACM Trans. Appl. Percept. 16(4): 20:1-20:15 (2019) - [j26]Kohei Yamakawa, Shogo Okamoto
, Ryu Kubo, Naomi Yamada, Yasuhiro Akiyama
, Yoji Yamada:
Knee Pain Patient Simulation for Recommendation of Sit-to-Stand Handrail Positions. IEEE Trans. Hum. Mach. Syst. 49(5): 461-467 (2019) - [c85]Kyoichi Tachi, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
HumTouch: Finger gesture recognition on hydrogel-painted paper using hum-driven signals. GCCE 2019: 155-157 - [c84]Tomoyuki Iwasaki, Shogo Okamoto, Yasuhiro Akiyama, Yoji Yamada:
Generalized Principal Motion Analysis: Classification of Sit-to-Stand Motions. GCCE 2019: 653-655 - [c83]Fengyu Li, Yasuhiro Akiyama, Xianglong Wan, Yoji Yamada, Shogo Okamoto:
Shear Stress Sensor for Soft Material with Built-In Piezoelectric Polymer Films. GCCE 2019: 656-658 - [c82]Yuma Shiraishi, Shogo Okamoto, Naomi Yamada, Koki Inoue, Yasuhiro Akiyama, Yoji Yamada:
Pneumatic-driven ankle stretching machine. LifeTech 2019: 10-11 - [c81]Chongyang Qiu, Shogo Okamoto, Naomi Yamada, Yasuhiro Akiyama, Yoji Yamada:
Patient Simulation: Handrail Position for Knee-OA Patients Considering Physical Burden and Stability. LifeTech 2019: 12-13 - [c80]Takumu Okada, Shogo Okamoto, Yoji Yamada, Tomoharu Ishikawa:
Vector Auto-Regression Model of Temporal Perceptual and Affective Responses Towards Food. LifeTech 2019: 43-45 - [c79]