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Makoto Sato
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2020 – today
- 2023
- [c158]Makoto Sato, Tomohiro Takagi:
Improved Consistency in Price Negotiation Dialogue System Using Parameterized Action Space with Generative Adversarial Imitation Learning. ICICT 2023: 188-197 - 2021
- [j36]Ryo Yokomizo, Akari Nakamura, Makoto Sato, Risa Nasu, Maaya Hine, Kevin Y. Urayama, Hiroshi Kishi, Haruhiko Sago, Aikou Okamoto, Akihiro Umezawa
:
Smartphone application improves fertility treatment-related literacy in a large-scale virtual randomized controlled trial in Japan. npj Digit. Medicine 4 (2021) - [c157]Kaede Nohara, Seiya Sekiwa, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
Development of a Pen-Type Device for SPIDAR-Tablet that Presents Force and Thermal Sensations. HCI (41) 2021: 96-105 - [c156]Takahiro Ooshima, Ryuichi Osaki, Shimpei Matsukiyo, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
An HMD-Integrated Haptic Device for Force, Friction, and Thermal Sensations of Fingertip. HCI (41) 2021: 106-114 - [c155]Yoshiki Takahashi, Ryosuke Futatsumori, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
Development of SPIDAR-HMD for a Standalone HMD. HCI (41) 2021: 144-156 - 2020
- [c154]Yuki Hasumi, Keita Ueno, Sakae Yamamoto, Takehiko Yamaguchi, Makoto Sato, Tetsuya Harada:
Development of Empowered SPIDAR-Tablet and Evaluation of a System Presenting Geographical Information Using it. HCI (45) 2020: 95-103 - [c153]Hiroya Suzuki, Ryuki Tsukikawa, Daiji Kobayashi, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
Improvement of SPIDAR-HS and Construction of Visual Rod Tracking Task Environment. HCI (45) 2020: 187-195 - [c152]Kaede Nohara, Yasuna Kubo, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
Development and Evaluation of a Pen Type Thermal Sensation Presentation Device for SPIDAR-Tablet. HCI (42) 2020: 231-240 - [c151]Yuki Aoki, Yuki Tasaka, Junji Odaka, Sakae Yamamoto, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
Analysis of Differences in the Manner to Move Object in Real Space and Virtual Space Using Haptic Device for Two Fingers and HMD. HCI (46) 2020: 291-301 - [c150]Michio Miwa, Kenji Honda, Makoto Sato:
Image Defocus Analysis for Finger Detection on A Virtual Keyboard. ICPR 2020: 24-30
2010 – 2019
- 2019
- [c149]Gaku Sueta, Naoyuki Saka, Vibol Yem, Tomohiro Amemiya, Michiteru Kitazaki, Makoto Sato, Yasushi Ikei:
Generation of Walking Sensation by Upper Limb Motion. ICAT-EGVE (Posters and Demos) 2019: 13-14 - [c148]Hiroya Suzuki, Ryuki Tsukikawa, Daiji Kobayashi, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
Implementation of Two-Point Control System in SPIDAR-HS for the Rod Tracking Task in Virtual Reality Environment. HCI (5) 2019: 47-57 - [c147]Yuki Tasaka, Hikaru Ichimaru, Sakae Yamamoto, Makoto Sato, Takehiko Yamaguchi, Tetsuya Harada:
Analysis of Differences in the Manner to Move Objects in a Real and Virtual Space. HCI (5) 2019: 58-69 - 2018
- [c146]Takumi Shimada, Yo Kamishohara, Vibol Yem, Tomohiro Amemiya, Yasushi Ikei, Makoto Sato, Michiteru Kitazaki
Spatiotemporal Tactile Display with Tangential Force and Normal Skin Vibration Generated by Shaft End-Effectors. AsiaHaptics 2018: 198-201 - [c145]Ryuki Tsukikawa, Ryoto Tomita, Kanata Nozawa, Issei Ohashi, Hiroki Horiuchi, Kentaro Kotani, Daiji Kobayashi, Takehiko Yamaguchi, Makoto Sato, Sakae Yamamoto, Tetsuya Harada:
Construction of Experimental System SPIDAR-HS for Designing VR Guidelines Based on Physiological Behavior Measurement. HCI (9) 2018: 245-256 - [c144]Kanata Nozawa, Ryuki Tsukikawa, Takehiko Yamaguchi, Makoto Sato, Tetsuya Harada:
Development of an End Effector Capable of Intuitive Grasp Operation for SPIDAR-W. HCI (4) 2018: 254-266 - [c143]Yuki Tasaka, Kazukiyo Yamada, Yasuna Kubo, Masanobu Saeki, Sakae Yamamoto, Takehiko Yamaguchi, Makoto Sato, Tetsuya Harada:
Development of Frame for SPIDAR Tablet on Windows and Evaluation of System-Presented Geographical Information. HCI (4) 2018: 358-368 - [c142]Takehiko Yamaguchi, Hiroki Iwadare, Kazuya Kamijo, Daiji Kobayashi, Tetsuya Harada, Makoto Sato, Sakae Yamamoto:
The Nature of Difference in User Behavior Between Real and Virtual Environment: A Preliminary Study. HCI (4) 2018: 446-462 - 2017
- [c141]Katsuhito Akahane, Makoto Sato:
Research on High Fidelity Haptic Interface Based on Biofeedback. HCI (3) 2017: 481-491 - 2016
- [j35]Makoto Sato, Masami Mohri, Hiroshi Doi, Yoshiaki Shiraishi:
Partially Doubly-Encrypted Identity-Based Encryption Constructed from a Certain Scheme for Content Centric Networking. J. Inf. Process. 24(1): 2-8 (2016) - [c140]Shunsuke Fujioka, Takao Uchiyama, Kazuyoshi Tagawa, Koichi Hirota, Takusya Nojima, Katsuhito Akahane, Makoto Sato:
Object Manipulation by Hand with Force Feedback. AsiaHaptics 2016: 261-266 - [c139]Lei Wang, Zining Zhen, Xiaolin Zhang, Makoto Sato:
Adaptive camera control method for efficient stereoscopic photography. ICIT 2016: 726-731 - [c138]Kikuo Asai, Norio Takase, Makoto Sato:
Development View and Cut Generation of 3D Object Surface for Simulating Haptic Feedback with 2D Lateral Force. IV 2016: 247-252 - 2015
- [c137]Takeo Hamada
A teleoperated bottom wiper. AH 2015: 145-150 - [c136]Makoto Sato, Akihiko Sugimoto, Naoki Hayashi, Yoshiaki Isobe, Ryôichi Sasaki:
Proposal of a Method for Identifying the Infection Route for Targeted Attacks Based on Malware Behavior in a Network. CyberSec 2015: 40-45 - [c135]Kikuo Asai, Norio Takase, Makoto Sato:
Revisiting gradient-based haptic rendering for lateral force feedback in SPIDAR-mouse. HAVE 2015: 1-6 - [c134]Shuhan Ma, Motonori Toshima, Kenji Honda, Katsuhito Akahane, Makoto Sato:
SPIDAR-S: A Haptic Interface for Mobile Devices. Smart Graphics 2015: 203-206 - [c133]Kenji Honda, Shuhan Ma, Katsuhito Akahane, Makoto Sato:
An Interactive Haptization System in Video Contents Using SPIDAR-mouse. Smart Graphics 2015: 207-210 - [c132]Shuhan Ma, Katsuhito Akahane, Makoto Sato:
String-based force display for mobile haptics. SIGGRAPH Asia Haptic Media And Contents Design 2015: 15:1-15:2 - [c131]Kazuki Nagai, Soma Tanoue, Katsuhito Akahane, Makoto Sato:
Wearable 6-DoF wrist haptic device "SPIDAR-W". SIGGRAPH Asia Haptic Media And Contents Design 2015: 19:1-19:2 - [c130]Anusha Jayasiri, Shuhan Ma, Yihan Qian, Katsuhito Akahane, Makoto Sato:
Desktop versions of the string-based haptic interface - SPIDAR. VR 2015: 199-200 - 2014
- [j34]Makoto Sato, Kaori Fujinami:
Nonoverlapped view management for augmented reality by tabletop projection. J. Vis. Lang. Comput. 25(6): 891-902 (2014) - [c129]Motonori Toshima, Katsuhito Akahane, Makoto Sato:
SPIDAR-S: Haptic Device Attached to the Smartphone. AsiaHaptics 2014: 127-129 - [c128]Hiroshi Koganeyama, Satoshi Miyake, Lanhai Liu, Naoki Maruyama, Katsuhito Akahane, Makoto Sato:
A Proposal of Wire-Driven Bimanual Multi-finger Haptic Display SPIDAR-10. AsiaHaptics 2014: 149-151 - [c127]Yunong Ji, Hiroyuki Tajima, Katsuhito Akahane, Makoto Sato:
Proposal of 6 DoF Haptic Interface SPIDAR-I Optimized by Minimizing Margin of Peak Force. AsiaHaptics 2014: 161-167 - [c126]Takahiro Okubo, Katsuhito Akahane, Makoto Sato:
A Proposal of Model-Based Haptization System for Animal Images. AsiaHaptics 2014: 313-316 - [c125]Makoto Sato, Kaori Fujinami:
Nonoverlapped View Management for Augmented Reality by Tabletop Projection. DMS 2014: 250-259 - [c124]Tatsunori Muraishi, Katsuhito Akahane, Makoto Sato:
A proposal of haptic controller with local physics simulation. HAPTICS 2014: 1 - [c123]Lanhai Liu, Satoshi Miyake, Naoki Maruyama, Katsuhito Akahane, Makoto Sato:
Development of Two-Handed Multi-finger Haptic Interface SPIDAR-10. EuroHaptics (2) 2014: 176-183 - [c122]Shoichi Hasegawa, Yukinobu Takehana, Alfonso Balandra, Hironori Mitake, Katsuhito Akahane, Makoto Sato:
Vibration and Subsequent Collision Simulation of Finger and Object for Haptic Rendering. EuroHaptics (2) 2014: 352-359 - [c121]Kikuo Asai, Norio Takase, Makoto Sato:
Displaying haptic interaction with a synthesized model of real objects using SPIDAR-mouse. HAVE 2014: 19-23 - 2013
- [c120]Jun Murayama, Yuta Wakui, Yukihiro Hirata, Makoto Sato, Tetsuya Harada:
Poster: A three dimensional interface device by the wire tip position measurement using two linear image sensors and a rotary encoder. 3DUI 2013: 163-164 - [c119]Xiangning Liu, Yunong Ji, Katsuhito Akahane, Makoto Sato:
Proposal on an image haptization system based on emotional effects of color. FG 2013: 1-6 - [c118]Naoki Maruyama, Lanhai Liu, Katsuhito Akahane, Makoto Sato:
A proposal of two-handed multi-finger haptic interface with rotary frame. ICAT 2013: 40-45 - [c117]Anusha Jayasiri, Kenji Honda, Katsuhito Akahane, Makoto Sato:
Feeling wind: An interactive haptization system for motion rendering in video contents using SPIDAR. ICAT 2013: 54-60 - [c116]Lanhai Liu, Satoshi Miyake, Katsuhito Akahane, Makoto Sato:
Development of string-based multi-finger haptic interface SPIDAR-MF. ICAT 2013: 67-71 - [c115]Ayano Tamura, Shogo Okada
HAPPIcom: haptic pad for impressive text communication. IUI Companion 2013: 101-102 - [c114]Kikuo Asai, Norio Takase, Makoto Sato:
Haptic Visualization with 2D Lateral Force Using SPIDAR-Mouse in Molecular Docking. SMC 2013: 553-558 - [p1]Katsuhito Akahane, Jungwoo Hyun, Itsuo Kumazawa, Makoto Sato:
Two-Handed Multi-finger String-Based Haptic Interface SPIDAR-8. Multi-finger Haptic Interaction 2013: 109-147 - 2012
- [j33]Liping Lin, Yongtian Wang, Katsuhito Akahane, Makoto Sato:
SPIDAR-Pen: A 2T1R Pen-Based Interface with Co-located Haptic-Visual Display. Trans. Edutainment 8: 166-177 (2012) - [c113]Shoichi Hasegawa
Realtime sonification of the center of gravity for skiing. AH 2012: 11 - [c112]Anusha Jayasiri, Katsuhito Akahane, Makoto Sato:
Haptic Rendering of Dynamic Image Sequence Using String based Haptic Device SPIDAR. ICAT/EGVE/EuroVR 2012: 9-15 - [c111]Makoto Sato, Mina Akaishi, Koichi Hori:
Topic Bridging by Identifying the Dynamics of the Spreading Topic Model. IIMSS 2012: 619-627 - [c110]Mina Akaishi, Makoto Sato, Koichi Hori, Tetsuya Ishikawa:
A Visual Analysis Tool for Finding Embedded Relations in Chronicles. IV 2012: 302-307 - [c109]Yohei Yamashita, Tatsuya Ishikawa, Hironori Mitake, Yutaka Takase
Stuffed toys alive!: cuddly robots from fantasy world. SIGGRAPH Emerging Technologies 2012: 20 - [c108]Yohei Yamashita, Tatsuya Ishikawa, Hironori Mitake, Yutaka Takase
Stuffed toys alive!: cuddly robots from fantasy world. SIGGRAPH Posters 2012: 80 - 2011
- [c107]Liping Lin, Yongtian Wang, Yue Liu, Makoto Sato:
Application of Pen-Based Planar Haptic Interface in Physics Education. CAD/Graphics 2011: 375-378 - [c106]Ikumi Susa, Makoto Sato, Shoichi Hasegawa:
Multi-rate multi-range dynamic simulation for haptic interaction. World Haptics 2011: 233-238 - [c105]Katsuhito Akahane, Takeo Hamada
Development of a High Definition Haptic Rendering for Stability and Fidelity. HCI (2) 2011: 3-12 - [c104]Hironori Mitake, Shoichi Hasegawa
Reactive Virtual Creatures for Dexterous Physical Interactions. MIG 2011: 86-97 - 2010
- [c103]Makoto Sato, Mina Akaishi, Koichi Hori:
Bridging Topics for Story Generation. EJC 2010: 247-257 - [c102]Hidenori Maruta, Masahiro Ishii, Makoto Sato:
Salient region extraction based on local extrema of natural images. ICIP 2010: 1113-1116
2000 – 2009
- 2009
- [j32]Hironori Mitake, Kazuyuki Asano, Takafumi Aoki, Marc Salvati, Makoto Sato, Shoichi Hasegawa
Physics-driven Multi Dimensional Keyframe Animation for Artist-directable Interactive Character. Comput. Graph. Forum 28(2): 279-287 (2009) - [j31]Hiroyuki Kambara, Kyoungsik Kim, Duk Shin, Makoto Sato, Yasuharu Koike
Learning and generation of goal-directed arm reaching from scratch. Neural Networks 22(4): 348-361 (2009) - [j30]Charles S. DaSalla
Single-trial classification of vowel speech imagery using common spatial patterns. Neural Networks 22(9): 1334-1339 (2009) - [c101]Takafumi Aoki, Hironori Mitake, Danial Keoki, Shoichi Hasegawa, Makoto Sato:
Wearable haptic device to present contact sensation based on cutaneous sensation using thin wire. Advances in Computer Entertainment Technology 2009: 115-122 - [c100]Makoto Sato, Mina Akaishi, Koichi Hori:
Analyzing Topic Transitions using Term Context-dependent Attractiveness. EJC 2009: 324-331 - [c99]Masafumi Onouchi, Keisuke Toyama, Tohru Nojiri, Makoto Sato, Masayoshi Mase, Jun Shirako, Mikiko Sato, Masashi Takada, Masayuki Ito, Hiroyuki Mizuno
Green Multicore-SoC Software-Execution Framework with Timely-Power-Gating Scheme. ICPP 2009: 510-517 - [c98]Charles S. DaSalla, Hiroyuki Kambara, Yasuharu Koike, Makoto Sato:
Spatial filtering and single-trial classification of EEG during vowel speech imagery. i-CREATe 2009: 27:1-27:4 - [c97]Naoki Hashimoto, Yuki Ishiwata, Makoto Sato:
Surrounding image projection with convex mirrors. IUCS 2009: 146-149 - [c96]Yuzhang Gu, Makoto Sato, Xiaolin Zhang:
Robust face tracking based on active stereo camera system. ROBIO 2009: 2307-2313 - [c95]Takafumi Aoki, Hironori Mitake, Shoichi Hasegawa, Makoto Sato:
Haptic ring: touching virtual creatures in mixed reality environments. SIGGRAPH Posters 2009 - [c94]Seunghyun Woo, Takafumi Aoki, Hironori Mitake, Naoki Hashimoto, Makoto Sato:
Virtual Reality in Physical Mirrors. VR 2009: 239-240 - [c93]Naoki Hashimoto, Kenji Honda, Makoto Sato, Mie Sato:
Making an immersive projection environment with our living room. VRCAI 2009: 83-87 - [c92]Junji Sone, Katsumi Yamada, Itaru Kaneko
Mechanical design of multi-finger haptic display allowing changes in contact location. VRCAI 2009: 275-276 - [c91]Kenji Honda, Naoki Hashimoto, Mie Sato, Makoto Sato:
Pseudo wide-angle image reconstruction based on continuousness of optical flow. VRCAI 2009: 303-304 - 2008
- [j29]Marc Salvati, Naoki Hashimoto, Makoto Sato:
Study of Locomotion Task with Haptic Widgets in Human Scale Immersive Environment. Inf. Media Technol. 3(4): 814-819 (2008) - [j28]Woong Choi, Naoki Hashimoto, Ross Walker, Kozaburo Hachimura, Makoto Sato:
Generation of Character Motion by Using Reactive Motion Capture System with Force Feedback. J. Adv. Comput. Intell. Intell. Informatics 12(2): 116-124 (2008) - [j27]Junji Sone, Ryou Inoue, Katsumi Yamada, Takanori Nagae, Kinya Fujita
Development of a Wearable Exoskeleton Haptic Interface Device. J. Comput. Inf. Sci. Eng. 8(4) (2008) - [j26]Makoto Sato, Xiangning Liu, Jun Murayama, Katsuhito Akahane, Masaharu Isshiki:
A Haptic Virtual Environment for Molecular Chemistry Education. Trans. Edutainment 1: 28-39 (2008) - [c90]Katsumi Yamazaki, Yu. Fukushima, Makoto Sato:
Loss Analysis of Permanent Magnet Motors with Concentrated Windings - Variation of Magnet Eddy Current Loss Due to Stator and Rotor Shapes. IAS 2008: 1-8 - [c89]Makoto Sato, Shuichiro Imahara:
Clustering Geospatial Objects via Hidden Markov Random Fields. ICDM 2008: 1013-1018 - [c88]Seunghyun Woo, Takafumi Aoki, Hironori Mitake, Naoki Hashimoto, Makoto Sato:
Heaven's mirror: mirror illusion realized outside of the mirror. SIGGRAPH Posters 2008: 20 - [c87]Ikumi Susa, Yuto Ikeda, Takashi Tokizaki, Hironori Mitake, Makoto Sato, Shoichi Hasegawa
Perception-based high definition haptic rendering. SIGGRAPH New Tech Demos 2008: 32 - [c86]Naoki Hashimoto, Yuichiro Iio, Makoto Sato:
An effective combination of haptic and tactile sensations in human-scale virtual environments. SIGGRAPH Posters 2008: 130 - [c85]Seunghyun Woo, Takafumi Aoki, Hironori Mitake, Naoki Hashimoto, Makoto Sato:
Heaven's mirror: mirror illusion realised outside of the mirror. SIGGRAPH ASIA Art Gallery & Emerging Technologies 2008: 44 - 2007
- [j25]Yoshinori Dobashi, Tsuyoshi Yamamoto, Makoto Sato, Shoichi Hasegawa, Mitsuaki Kato, Tomoyuki Nishita:
A Precomputed Approach for Real-Time Haptic Interaction with Fluids. IEEE Computer Graphics and Applications 27(3): 90-92 (2007) - [j24]Naoki Hashimoto, Yoshihiko Ishida, Makoto Sato:
A self-distributing software environment for immersive multiprojector displays. Syst. Comput. Jpn. 38(2): 1-9 (2007) - [c84]Jun Murayama, Hiromi Shimizu, Chang Soo Nam, Hiroko Satoh
An Educational Environment for Chemical Contents with Haptic Interaction. CW 2007: 346-352 - [c83]Kenji Honda, Naoki Hashimoto, Makoto Sato:
Real-time Reconstruction of PseudoWide-angle Images with an Approximating Depth Model. EGVE (Short Papers & Posters) 2007 - [c82]Junji Sone, Ryou Inoue, S. Tsuyuki, K. Ishikawa, Katsumi Yamada, Itaru Kaneko, Y. Tokuyama, Kinya Fujita, Makoto Sato:
Experimental Study of Haptic Interface Considering Myoelectrical Activity. EGVE (Short Papers & Posters) 2007 - [c81]Kenji Honda, Naoki Hashimoto, Makoto Sato:
Pseudo expansion of field-of-view for immersive projection displays. SIGGRAPH Posters 2007: 61 - [c80]Marc Salvati, Seung Zoo Jeong, Naoki Hashimoto, Makoto Sato:
"Do Like Me", "Do Like This": Creating Animations by Teaching a Virtual Human. Shape Modeling International 2007: 43-50 - [c79]Hironori Mitake, Shoichi Hasegawa
Reactive Virtual Human with Bottom-up and Top-down Visual Attention for Gaze Generation in Realtime Interactions. VR 2007: 211-214 - 2006
- [j23]Shoichi Hasegawa
Human-scale haptic interaction with a reactive virtual human in a real-time physics simulator. Comput. Entertain. 4(3): 9 (2006) - [j22]Kyuwan Choi, Makoto Sato, Yasuharu Koike:
Consideration of the Embodiment of a New, Human-Centered Interface. IEICE Trans. Inf. Syst. 89-D(6): 1826-1833 (2006) - [c78]Seung Zoo Jeong, Naoki Hashimoto, Makoto Sato:
Haptic Interaction System for Co-evolution with Reactive Virtual Human. Edutainment 2006: 1252-1261 - [c77]K. S. Kim, Hiroyuki Kambara, Duk Shin, Makoto Sato, Yasuharu Koike:
Learning and control model of arm posture. IAS 2006: 938-945 - [c76]Katsuhito Akahane, Shoichi Hasegawa
A Proposal of a High Definition Haptic Rendering for Stability and Fidelity. ICAT Workshops 2006: 162-167 - [c75]Duk Shin, Atsushi Katayama, Kyoungsik Kim, Hiroyuki Kambara, Makoto Sato, Yasuharu Koike:
Using a MyoKinetic Synthesizer to Control of Virtual Instruments. ICAT 2006: 1233-1242 - [c74]Takefumi Miura, Ayumu Akabane, Makoto Sato, Takao Tsuda, Seiki Inoue:
Score Following of Orchestral Music Using Acoustic Pressure Peak-Tracking and Linear Stretch Matching. ICMC 2006 - [c73]Huynh Quang Huy Viet
Motion from Focus. ICPR (3) 2006: 5-10 - [c72]Hiroyuki Kambara, Kyoungsik Kim, Duk Shin, Makoto Sato:
Motor Control-Learning Model for Reaching Movements. IJCNN 2006: 555-562 - [c71]Kyuwan Choi, Makoto Sato, Yasuharu Koike:
A new, human-centered wheelchair system controlled by the EMG signal. IJCNN 2006: 4664-4671 - [c70]Jun Noguchi, Koichiro Kimura, Masayoshi Ohuchi, Hiromi Shimizu, Takafumi Aoki, Jiro Baba, Shoichi Hasegawa
Powder screen: a virtual materializer. SIGGRAPH Emerging Technologies 2006: 27 - [c69]Naoki Hashimoto, Seung Zoo Jeong, Makoto Sato:
Reactive virtual human for human scale haptic interaction. SIGGRAPH Research Posters 2006: 63 - [c68]Naoki Hashimoto, Mie Sato, Yu Takahashi, Masao Kasuga, Makoto Sato:
Luminance correction with raw digital images. SIGGRAPH Research Posters 2006: 71 - [c67]Yoshinori Dobashi, Makoto Sato, Shoichi Hasegawa
A fluid resistance map method for real-time haptic interaction with fluids. VRST 2006: 91-99 - 2005
- [j21]Seri Pansang, Boonwat Attachoo, Chom Kimpan, Makoto Sato:
Invariant Range Image Multi-Pose Face Recognition Using Gradient Face, Membership Matching Score and 3-Layer Matching Search. IEICE Trans. Inf. Syst. 88-D(2): 268-277 (2005) - [j20]Seung Zoo Jeong, Naoki Hashimoto, Makoto Sato:
Immersive Multi-Projector Display on Hybrid Screens with Human-Scale Haptic Interface. IEICE Trans. Inf. Syst. 88-D(5): 888-893 (2005) - [c66]Jaeho Ryu, Naoki Hashimoto, Makoto Sato:
Influence of Resolution Degradation on Distance Estimation in Virtual Space Displaying Static and Dynamic Image. CW 2005: 43-50 - [c65]Seung Zoo Jeong, Woong Choi, Naoki Hashimoto, Makoto Sato:
Reactive Virtual Human System with haptic sensation and adaptive function. CW 2005: 461-466 - [c64]Naoki Hashimoto, Yoshihiko Ishida, Makoto Sato:
A Game Engine-based Multi-Projection Virtual Environment with System-Level Synchronization. IPT/EGVE 2005: 69-78 - [c63]Katsuhito Akahane, Shoichi Hasegawa
A Development of High Definition Haptic Controller. WHC 2005: 576-577 - [c62]Takafumi Aoki, Takashi Matsushita, Yuichiro Iio, Hironori Mitake, Takashi Toyama, Shoichi Hasegawa
Kobito: virtual brownies. SIGGRAPH Emerging Technologies 2005: 11 - [c61]Shoichi Hasegawa
Virtual canoe: real-time realistic water simulation for haptic interaction. SIGGRAPH Emerging Technologies 2005: 28 - [c60]Yoshinori Dobashi, Shoichi Hasegawa, Mitsuaki Kato, Makoto Sato, Tsuyoshi Yamamoto, Tomoyuki Nishita:
A fluid resistance map method for real-time haptic interaction with fluids. SIGGRAPH Sketches 2005: 83 - [c59]Akihiko Shirai, Masafumi Takahashi, Kazunori Miyata, Makoto Sato, Simon Richir:
Development of robotic TV game player using haptic interface and GPU image recognition. SIGGRAPH Posters 2005: 122 - 2004
- [j19]Shoichi Hasegawa
Real-time Rigid Body Simulation for Haptic Interactions Based on Contact Volume of Polygonal Objects. Comput. Graph. Forum 23(3): 529-538 (2004) - [j18]Jun Murayama, Yanlin Luo, Katsuhito Akahane, Shoichi Hasegawa, Makoto Sato:
A Haptic Interface for Two-Handed 6DOF Manipulation-SPIDAR-G&G System. IEICE Trans. Inf. Syst. 87-D(6): 1415-1421 (2004) - [j17]Masaaki Uechi, Yutaka Naito, Duk Shin, Makoto Sato, Yasuharu Koike:
Stiffness Teaching and Motion Assist System Using Functional Electrical Stimulation and Electromyogram Signals. J. Robotics Mechatronics 16(5): 446-455 (2004) - [c58]Huynh Quang Huy Viet
Analysis of Three-Dimensional Motion of an Object Using a Fixed Monocular Camera . 3DPVT 2004: 223-230 - [c57]Seung Zoo Jeong, Naoki Hashimoto, Makoto Sato:
A novel interaction system with force feedback between real - and virtual human: an entertainment system: "virtual catch ball". Advances in Computer Entertainment Technology 2004: 61-66 - [c56]Naoki Hashimoto, Seung Zoo Jeong, Yasutoyo Takeyama, Makoto Sato:
Immersive Multi-Projector Display on Hybrid Screens with Human-Scale Haptic and Locomotion Interfaces. CW 2004: 361-368 - [c55]Woong Choi, Seung Zoo Jeong, Naoki Hashimoto, Syouichi Hasegawa, Yasuharu Koike, Makoto Sato:
A Development and Evaluation of Reactive Motion Capture System with Haptic Feedback. FGR 2004: 851-856 - [c54]Yanlin Luo, Ping Guo, Shoichi Hasegawa, Makoto Sato:
An interactive molecular visualization system for education in immersive multi-projection virtual environment. ICIG 2004: 485-488 - [c53]Naoki Hashimoto, Jaeho Ryu, Seung Zoo Jeong, Makoto Sato:
Human-Scale Interaction with a Multi-projector Display and Multimodal Interfaces. PCM (3) 2004: 23-30 - [c52]Akihiko Shirai, Kiichi Kobayashi, Masahiro Kawakita, Shoichi Hasegawa
Entertainment Applications of Human-Scale Virtual Reality Systems. PCM (3) 2004: 31-38 - [c51]Shuichiro Imahara, Makoto Sato, Akihiko Nakase:
Time Series Pattern Discovery by Segmental Gaussian Models. PRICAI 2004: 975-976 - 2003
- [j16]Nicolas Tarrin, Sabine Coquillart, Shoichi Hasegawa
The Stringed Haptic Workbench: a New Haptic Workbench Solution. Comput. Graph. Forum 22(3): 583-590 (2003) - [c50]Huynh Quang Huy Viet, Michio Miwa, Hidenori Maruta, Makoto Sato:
Recognition of Motion in Depth by a Fixed Camera. DICTA 2003: 205-214 - [c49]Shoichi Hasegawa, Nobuaki Fujii, Yasuharu Koike
Real-Time Rigid Body Simulation Based on Volumetric Penalty Method. HAPTICS 2003: 326-332 - [c48]Makoto Sato, Jaeho Ryu, Hidenori Maruta, Katsuhito Akahane, Masaru Iwashita, Naoki Hashimoto, Shoichi Hasegawa:
Immersive VR System "D-vision" for Universal Design. HCI (4) 2003: 1472-1476 - [c47]Laroussi Bouguila, Béat Hirsbrunner, Makoto Sato, Masaru Iwashita:
Virtual Locomotion Interface with Ground Surface Simulation. ICAT 2003 - [c46]Yanlin Luo, Jun Murayama, Katsuhito Akahane, Shoichi Hasegawa, Makoto Sato:
Development of new force feedback interface for two-handed 6DOF manipulation SPIDAR-G&G system. ICAT 2003 - [c45]Nicolas Tarrin, Sabine Coquillart, Shoichi Hasegawa, Laroussi Bouguila, Makoto Sato:
The stringed haptic workbench. SIGGRAPH 2003 - 2002
- [j15]Somsak Walairacht, Keita Yamada, Shoichi Hasegawa, Makoto Sato:
4 + 4 Fingers Manipulating Virtual Objects in Mixed-Reality Environment. Presence Teleoperators Virtual Environ. 11(2): 134-143 (2002) - [c44]Laroussi Bouguila, Masahiro Ishii, Makoto Sato:
Virtual locomotion system for human-scale virtual environments. AVI 2002: 227-230 - [c43]Laroussi Bouguila, Masahiro Ishii, Makoto Sato:
Realizing a New Step-in-place Locomotion interface for Virtual Environment with Large Display System. EGVE 2002: 197-207 - [c42]Makoto Sato, Yasuharu Koike:
Playing rubik's cube in mixed reality. IWEC 2002: 415-422 - [c41]Akihiko Shirai, Shoichi Hasegawa, Yasuharu Koike, Makoto Sato:
Penguin hockey: a virtual reality game system for children. IWEC 2002: 447-454 - [c40]Laroussi Bouguila, Makoto Sato, Shoichi Hasegawa
A new step-in-place locomotion interface for virtual environment with large display system. SIGGRAPH Abstracts and Applications 2002: 63 - [c39]Seahak Kim, Shoichi Hasegawa, Yasuharu Koike, Makoto Sato:
Tension Based 7-DOF Force Feedback Device: SPIDAR-G. VR 2002: 283-284 - [c38]Laroussi Bouguila, Makoto Sato:
Virtual Locomotion System for Large-Scale Virtual Environment. VR 2002: 291-292 - 2001
- [c37]Makoto Sato, Shigenobu Kobayashi:
Average-Reward Reinforcement Learning for Variance Penalized Markov Decision Problems. ICML 2001: 473-480 - [c36]Haruo Takemura, Makoto Sato:
Workshop 1: Virtual Reality and its Application for Human Centered System. VR 2001: 315 - 2000
- [j14]Kiyoshi Kawabata, Makoto Sato, Larry Travis:
A new approach to computing theoretical polarization curves along the low latitude regions of a planetary disk observed at small phase angles. Appl. Math. Comput. 116(1-2): 115-132 (2000) - [j13]Phongsuphap Sukanya, Ryo Takamatsu, Makoto Sato:
Multiscale image analysis through the surface-shape operator. J. Electronic Imaging 9(3): 305-316 (2000) - [c35]Laroussi Bouguila, Masahiro Ishii, Makoto Sato:
What Impact Does the Haptic-Stereo Integration Have on Depth Perception in Stereographic Virtual Environment? A Preliminary Study. Haptic Human-Computer Interaction 2000: 135-150 - [c34]Laroussi Bouguila, Masahiro Ishii, Makoto Sato:
Scaleable SPIDAR: A Haptic Interface For Human-Scale Virtual Environments. Haptic Human-Computer Interaction 2000: 182-193 - [c33]Shoichi Hasegawa
Process division in haptic display system. ICPADS Workshops 2000: 219-224 - [c32]Michio Miwa, Masahiro Ishii, Yasuharu Koike, Makoto Sato:
Screen Projection Camera for Ranging Far Away Objects. ICPR 2000: 4744-4747 - [c31]Makoto Sato, Shigenobu Kobayashi:
Variance-Penalized Reinforcement Learning for Risk-Averse Asset Allocation. IDEAL 2000: 244-249 - [c30]Laroussi Bouguila, Masahiro Ishii, Makoto Sato:
Multi-modal haptic device for large-scale virtual environments. ACM Multimedia 2000: 277-283 - [c29]Tomohiro Endo, Makoto Sato, Yoshihiro Kajiki, Toshio Honda:
Cylindrical 3D Video Display Observable from All Directions. PG 2000: 300-306 - [c28]Somsak Walairacht, Yasuharu Koike, Makoto Sato:
String-based Haptic Interface Device for Multi-fingers. VR 2000: 293 - [c27]Seahak Kim, Masahiro Ishii, Yasuharu Koike, Makoto Sato:
Development of tension based haptic interface and possibility of its application to virtual reality. VRST 2000: 199-205
1990 – 1999
- 1999
- [c26]Shun Ido, Masanori Izumida, Kenji Murakami, Makoto Sato:
Progressive Coding Scheme Delaying a Background Display for Image Retrieval. SIP 1999: 271-274 - 1998
- [j12]Toru Yamaguchi, Makoto Sato, Tomohiro Takagi:
Multi-modal Information Integration for Interactive Multi-agent Systems. J. Intell. Robotic Syst. 23(2-4): 183-199 (1998) - [c25]Ryo Takamatsu, Tomotaka Taniguchi, Makoto Sato:
Space Browsing Interface based on Head Posture Information. APCHI 1998: 298-303 - [c24]Phongsuphap Sukanya, Ryo Takamatsu, Makoto Sato:
The Surface-Shape Operator based Shading-Tolerant Method for Multiscale Image Analysis. ICIP (1) 1998: 221-225 - [c23]Phongsuphap Sukanya, Ryo Takamatsu, Makoto Sato:
Image classification using the surface-shape operator and multiscale features. ICPR 1998: 334-337 - [c22]Toru Yamaguchi, Makoto Sato, Tomohiro Takagi, Hideki Hashimoto:
Cooperative Works for Welfare Agent Robot and Human Using Chaotic Evolutionary Computation. SEAL 1998: 240-250 - [c21]Naoki Kohata, Makoto Sato, Toru Yamaguchi, Takanobu Baba, Hideki Hashimoto:
Evolutionary Computation for Intelligent Agents Based on Chaotic Retrieval and Soft DNA. SEAL 1998: 251-259 - 1997
- [j11]Makoto Sato, Yukihiro Hirata, Hiroshi Kawarada:
Space Interface Device for Artificial Reality - SPIDAR -. J. Robotics Mechatronics 9(3): 177-184 (1997) - [j10]Masahiro Ishii, Motohiro Swawatari, Makoto Sato:
A Virtual Work Space for Both Hands Operations. J. Robotics Mechatronics 9(3): 213-219 (1997) - [c20]Makoto Sato:
Virtual basketball. SIGGRAPH Visual Proceedings 1997: 78 - 1996
- [c19]Makoto Sato, Takashi Hirooka, Kiyomi Wada, Fujio Yamamoto:
Program Partitioning Optimizations in an HPF Prototype Compiler. COMPSAC 1996: 124-131 - [c18]Phongsuphap Sukanya, Ryo Takamatsu, Makoto Sato:
A new operator for image structure analysis. ICIP (3) 1996: 615-618 - [c17]Phongsuphap Sukanya, Hideki Tanuma, Ryo Takamatsu, Makoto Sato:
A new operator for describing topographical image structure. ICPR 1996: 50-54 - [c16]Supoj Chinveeraphan, Ryo Takamatsu, Makoto Sato:
A hierarchical description of digital grayscale images based on image dipoles. ICPR 1996: 246-250 - [c15]Shun Ido, Satoshi Arai, Ryo Takamatsu, Makoto Sato:
Stimulus-driven segmentation by Gaussian functions. ICPR 1996: 487-491 - [c14]Phongsuphap Sukanya, Ryo Takamatsu, Makoto Sato:
Texture Classification Based on Topographic Image Structure. MVA 1996: 305-308 - 1995
- [j9]Abdelmalek B. C. Zidouri, Supoj Chinveeraphan, Makoto Sato:
Classification of Document Image Blocks Using MCR Stroke Index. IEICE Trans. Inf. Syst. 78-D(3): 290-294 (1995) - [j8]Supoj Chinveeraphan, Abdelmalek B. C. Zidouri, Makoto Sato:
Modified MCR Expression of Binary Document Images. IEICE Trans. Inf. Syst. 78-D(4): 503-507 (1995) - [j7]Abdelmalek B. C. Zidouri, Supoj Chinveeraphan, Makoto Sato:
Recognition of Machine Printed Arabic Characters and Numerals Based on MCR. IEICE Trans. Inf. Syst. 78-D(12): 1649-1655 (1995) - [c13]Supoj Chinveeraphan, Ryo Takamatsu, Makoto Sato:
Understanding of Ridge-Valley Lines on Image -Intensity Surfaces in Scale-Space. CAIP 1995: 661-667 - [c12]Abdelmalek B. C. Zidouri
Structural Features by MCR Expression for Printed Arabic Character Recognition. ICIAP 1995: 557-562 - [c11]Abdelmalek B. C. Zidouri
Arabic Characters Recognition Based on MCR. ICSC 1995: 512-513 - 1994
- [j6]Masahiro Ishii, Makoto Sato:
A 3D Spatial Interface Device Using Tensed Strings. Presence Teleoperators Virtual Environ. 3(1): 81-86 (1994) - [j5]Masahiro Ishii, Masanori Nakata, Makoto Sato:
Networked SPIDAR: A Networked Virtual Environment with Visual, Auditory, and Haptic Interactions. Presence Teleoperators Virtual Environ. 3(4): 351-359 (1994) - [j4]Yukihiro Hirata, Takehisa Mizuguchi, Makoto Sato, Hiroshi Kawarada:
Virtual work space for assembly. Syst. Comput. Jpn. 25(7): 92-100 (1994) - [c10]Supoj Chinveeraphan, Abdelmalek B. C. Zidouri, Makoto Sato:
Stroke Extraction as a Basis for Structural Analysis of Document Images by Modified MCR Expression. MVA 1994: 135-138 - 1993
- [c9]Abdelmalek B. C. Zidouri
Classification of compound document image patterns by MCR stroke index. ICDAR 1993: 753-756 - [c8]Masahiro Ishii, Makoto Sato:
A 3D Interface Device with Force Feedback: A Virtual Work Space for Pick-and-Place Tasks. VRAIS 1993: 331-335 - 1992
- [j3]Makoto Sato, Shunichi Numazaki, Yukihiro Hirata, Hiroshi Kawarada:
Rotating Shape Modeling with SPIDAR. J. Robotics Mechatronics 4(1): 31-38 (1992) - [j2]Makoto Sato, Yukihiro Hirata, Hiroshi Kawarada:
Space interface device for artificial reality - SPIDAR. Syst. Comput. Jpn. 23(12): 44-54 (1992) - [c7]Ken'ichi Douniwa, Supoj Chinveeraphan, Makoto Sato:
MCR expression of document images based on maximum matching of bipartite graph. ICPR (3) 1992: 117-121 - [c6]Genshu Kin, Makoto Sato:
Scale space filtering on spherical pattern. ICPR (3) 1992: 638-641 - [c5]Yukihiro Hirata, Makoto Sato:
3-dimensional Interface Device For Virtual Work Space. IROS 1992: 889-896 - [c4]Abdelmalek B. C. Zidouri, Supoj Chinveeraphan, Makoto Sato:
A Stroke Index for Document Image Analysis Based on the MCR Expression Method. MVA 1992: 503-506 - 1990
- [c3]Toshikazu Wada, Makoto Sato:
Scale-space tree and its hierarchy. ICPR (2) 1990: 103-108
1980 – 1989
- 1988
- [j1]Makoto Sato, Hiroshi Sasaki:
Hierarchical Estimation of Displacement Vectors in Image Sequences. Syst. Comput. Jpn. 19(10): 1-7 (1988) - [c2]Makoto Sato, Toshikazu Wada, Hiroshi Kawarada:
A morphological study on structure line. ICPR 1988: 559-562 - 1987
- [c1]Makoto Sato, Toshikazu Wada, Hiroshi Kawarada:
A hierarchical representation of random waveforms by scale-space filtering. ICASSP 1987: 273-276 - 1982
- [b1]Makoto Sato:
Sozialwirtschaftlicher Entwicklungsindex auf der Basis der Hauptkomponentenanalyse: Erfassung d. sozialwirtschaftl. Entwicklungsstandes mit neuen Vergleichsmethoden u. Entwicklung neuer analyt. Modelle. University of Heidelberg, Germany, Haag und Herchen 1982, ISBN 978-3-88129-558-1, pp. 1-247
Coauthor Index
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