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Yoshihiro Watanabe
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2020 – today
- 2024
- [j24]Nobuki Inoue, Yoshihiro Watanabe, Haruyuki Nakano:
Generalized Foldy-Wouthuysen transformation for relativistic two-component methods: Systematic analysis of two-component Hamiltonians. J. Comput. Chem. 45(9): 523-535 (2024) - [j23]Masahiko Yasui, Ryota Iwataki, Masatoshi Ishikawa, Yoshihiro Watanabe:
Projection Mapping with a Brightly Lit Surrounding Using a Mixed Light Field Approach. IEEE Trans. Vis. Comput. Graph. 30(5): 2217-2227 (2024) - 2023
- [j22]Kodai Kanemaru, Yoshihiro Watanabe, Norio Yoshida, Haruyuki Nakano:
Solvent effects in four-component relativistic electronic structure theory based on the reference interaction-site model. J. Comput. Chem. 44(1): 5-14 (2023) - [c58]Hao-Lun Peng, Shin'ya Nishida, Yoshihiro Watanabe:
Studying User Perceptible Misalignment in Simulated Dynamic Facial Projection Mapping. ISMAR 2023: 493-502 - [c57]Soran Nakagawa, Yoshihiro Watanabe:
High-Frame-Rate Projection with Thousands of Frames Per Second Based on the Multi-Bit Superimposition Method. ISMAR 2023: 741-750 - 2022
- [j21]Takashi Nomoto, Wanlong Li, Hao-Lun Peng, Yoshihiro Watanabe:
Dynamic Multi-projection Mapping Based on Parallel Intensity Control. IEEE Trans. Vis. Comput. Graph. 28(5): 2125-2134 (2022) - [j20]Yuri Mikawa, Tomohiro Sueishi, Yoshihiro Watanabe, Masatoshi Ishikawa:
Dynamic Projection Mapping for Robust Sphere Posture Tracking Using Uniform/Biased Circumferential Markers. IEEE Trans. Vis. Comput. Graph. 28(12): 4016-4031 (2022) - [c56]Kengo Sato, Hiroki Terashima, Shin'ya Nishida, Yoshihiro Watanabe:
E.S.P.: Extra-Sensory Puck in Air Hockey using the Projection-Based Illusion. SIGGRAPH ASIA Emerging Technologies 2022: 3:1-3:2 - 2021
- [j19]Yuji Yamakawa, Yugo Katsuki, Yoshihiro Watanabe, Masatoshi Ishikawa:
Development of a High-Speed, Low-Latency Telemanipulated Robot Hand System. Robotics 10(1): 41 (2021) - [c55]Weijun Mai, Yoshihiro Watanabe:
Feature-aided Bundle Adjustment Learning Framework for Self-supervised Monocular Visual Odometry. IROS 2021: 9160-9167 - [c54]Sora Hisaichi, Kiwamu Sumino, Kunihiro Ueda, Hidenori Kasebe, Tohru Yamashita, Takeshi Yuasa, Uwe Lippmann, Petra Aswendt, Roland Höfling, Yoshihiro Watanabe:
Depth-Aware Dynamic Projection Mapping using High-speed RGB and IR Projectors. SIGGRAPH ASIA Emerging Technologies 2021: 3:1-3:2 - [c53]Masahiko Yasui, Yoshihiro Watanabe, Masatoshi Ishikawa:
Dynamic and Occlusion-Robust Light Field Illumination. SIGGRAPH ASIA Posters 2021: 35:1-35:2 - [c52]Ray Asahina, Takashi Nomoto, Takatoshi Yoshida, Yoshihiro Watanabe:
Realistic 3D Swept-Volume Display with Hidden-Surface Removal Using Physical Materials. VR 2021: 113-121 - 2020
- [c51]Yuri Mikawa, Tomohiro Sueishi, Yoshihiro Watanabe, Masatoshi Ishikawa:
Projection Mapping System To A Widely Dynamic Sphere With Circumferential Markers. ICME 2020: 1-6 - [c50]Takashi Nomoto, Ryo Koishihara, Yoshihiro Watanabe:
Realistic Dynamic Projection Mapping Using Real-Time Ray Tracing. SIGGRAPH Emerging Technologies 2020: 13:1-13:2 - [c49]Lihui Wang, Hongjin Xu, Satoshi Tabata, Yunpu Hu, Yoshihiro Watanabe, Masatoshi Ishikawa:
High-Speed Focal Tracking Projection Based on Liquid Lens. SIGGRAPH Emerging Technologies 2020: 15:1-15:2 - [c48]Ray Asahina, Takashi Nomoto, Takatoshi Yoshida, Yoshihiro Watanabe:
Realistic Volumetric 3D Display Using Physical Materials. SIGGRAPH ASIA Emerging Technologies 2020: 10:1-10:2 - [c47]Takashi Nomoto, Wanlong Li, Hao-Lun Peng, Yoshihiro Watanabe:
Dynamic Projection Mapping with Networked Multi-projectors Based on Pixel-parallel Intensity Control. SIGGRAPH ASIA Emerging Technologies 2020: 11:1-11:2 - [c46]Hao-Lun Peng, Yoshihiro Watanabe:
High-Speed Human Arm Projection Mapping with Skin Deformation. SIGGRAPH ASIA Emerging Technologies 2020: 13:1-13:2
2010 – 2019
- 2019
- [j18]Taku Senoo, Yuji Yamakawa, Shouren Huang, Keisuke Koyama, Makoto Shimojo, Yoshihiro Watanabe, Leo Miyashita, Masahiro Hirano, Tomohiro Sueishi, Masatoshi Ishikawa:
Dynamic Intelligent Systems Based on High-Speed Vision. J. Robotics Mechatronics 31(1): 45-56 (2019) - [j17]Satoshi Tabata, Michika Maruyama, Yoshihiro Watanabe, Masatoshi Ishikawa:
Pixelwise Phase Unwrapping Based on Ordered Periods Phase Shift. Sensors 19(2): 377 (2019) - [j16]Yunpu Hu, Leo Miyashita, Yoshihiro Watanabe, Masatoshi Ishikawa:
Visual Calibration for Multiview Laser Doppler Speed Sensing. Sensors 19(3): 582 (2019) - 2018
- [j15]Atsushi Nose, Tomohiro Yamazaki, Hironobu Katayama, Shuji Uehara, Masatsugu Kobayashi, Sayaka Shida, Masaki Odahara, Kenichi Takamiya, Shizunori Matsumoto, Leo Miyashita, Yoshihiro Watanabe, Takashi Izawa, Yoshinori Muramatsu, Yoshikazu Nitta, Masatoshi Ishikawa:
Design and Performance of a 1 ms High-Speed Vision Chip with 3D-Stacked 140 GOPS Column-Parallel PEs. Sensors 18(5): 1313 (2018) - [j14]Leo Miyashita, Yoshihiro Watanabe, Masatoshi Ishikawa:
MIDAS projection: markerless and modelless dynamic projection mapping for material representation. ACM Trans. Graph. 37(6): 196 (2018) - [c45]Yunpu Hu, Leo Miyashita, Yoshihiro Watanabe, Masatoshi Ishikawa:
GLATUI: Non-intrusive Augmentation of Motion-based Interactions Using a GLDV. CHI Extended Abstracts 2018 - [c44]Akihiro Nakamura, Leo Miyashita, Yoshihiro Watanabe, Masatoshi Ishikawa:
RIFNOM: 3D Rotation-Invariant Features on Normal Maps. Eurographics (Posters) 2018: 17-18 - [c43]Leo Miyashita, Tomohiro Yamazaki, Kenji Uehara, Yoshihiro Watanabe, Masatoshi Ishikawa:
Portable Lumipen: Dynamic SAR in Your Hand. ICME 2018: 1-6 - [c42]Yuri Mikawa, Tomohiro Sueishi, Yoshihiro Watanabe, Masatoshi Ishikawa:
VarioLight: hybrid dynamic projection mapping using high-speed projector and optical axis controller. SIGGRAPH ASIA Emerging Technologies 2018: 17:1-17:2 - [c41]Michika Maruyama, Satoshi Tabata, Yoshihiro Watanabe:
Multi-pattern Embedded Phase Shifting Using a High-Speed Projector for Fast and Accurate Dynamic 3D Measurement. WACV 2018: 921-929 - 2017
- [j13]Masahiro Hirano, Yoshihiro Watanabe, Masatoshi Ishikawa:
Rapid blending of closed curves based on curvature flow. Comput. Aided Geom. Des. 52: 217-230 (2017) - [j12]Gaku Narita, Yoshihiro Watanabe, Masatoshi Ishikawa:
Dynamic Projection Mapping onto Deforming Non-Rigid Surface Using Deformable Dot Cluster Marker. IEEE Trans. Vis. Comput. Graph. 23(3): 1235-1248 (2017) - [c40]Yoshihiro Watanabe, Toshiyuki Kato, Masatoshi Ishikawa:
Extended Dot Cluster Marker for High-speed 3D Tracking in Dynamic Projection Mapping. ISMAR 2017: 52-61 - [c39]Tomohiro Yamazaki, Hironobu Katayama, Shuji Uehara, Atsushi Nose, Masatsugu Kobayashi, Sayaka Shida, Masaki Odahara, Kenichi Takamiya, Yasuaki Hisamatsu, Shizunori Matsumoto, Leo Miyashita, Yoshihiro Watanabe, Takashi Izawa, Yoshinori Muramatsu, Masatoshi Ishikawa:
4.9 A 1ms high-speed vision chip with 3D-stacked 140GOPS column-parallel PEs for spatio-temporal image processing. ISSCC 2017: 82-83 - 2016
- [j11]Leo Miyashita, Kota Ishihara, Yoshihiro Watanabe, Masatoshi Ishikawa:
ZoeMatrope: a system for physical material design. ACM Trans. Graph. 35(4): 66:1-66:11 (2016) - [c38]Masahiko Yasui, Yoshihiro Watanabe, Masatoshi Ishikawa:
Occlusion-robust 3D sensing using aerial imaging. ICCP 2016: 1-10 - [c37]Zhipeng Wu, Yoshihiro Watanabe, Masatoshi Ishikawa:
Hybrid LED traffic light detection using high-speed camera. ITSC 2016: 1235-1241 - [c36]Leo Miyashita, Kota Ishihara, Yoshihiro Watanabe, Masatoshi Ishikawa:
ZoeMatrope for realistic and augmented materials. SIGGRAPH ASIA Virtual Reality meets Physical Reality 2016: 2:1-2:2 - [c35]Takatoshi Yoshida, Yoshihiro Watanabe, Masatoshi Ishikawa:
Phyxel: realistic display using physical objects with high-speed spatially pixelated lighting. SIGGRAPH Emerging Technologies 2016: 18:1 - [c34]Leo Miyashita, Kota Ishihara, Yoshihiro Watanabe, Masatoshi Ishikawa:
ZoeMatrope: a system for physical material design. SIGGRAPH Emerging Technologies 2016: 24:1 - [c33]Takatoshi Yoshida, Yoshihiro Watanabe, Masatoshi Ishikawa:
Phyxel: Realistic Display of Shape and Appearance using Physical Objects with High-speed Pixelated Lighting. UIST 2016: 453-460 - [p1]Masatoshi Ishikawa, Idaku Ishii, Yutaka Sakaguchi, Makoto Shimojo, Hiroyuki Shinoda, Hirotsugu Yamamoto, Takashi Komuro, Hiromasa Oku, Yutaka Nakajima, Yoshihiro Watanabe:
Dynamic Information Space Based on High-Speed Sensor Technology. Human-Harmonized Information Technology (1) 2016: 97-136 - 2015
- [j10]Leo Miyashita, Ryota Yonezawa, Yoshihiro Watanabe, Masatoshi Ishikawa:
3D motion sensing of any object without prior knowledge. ACM Trans. Graph. 34(6): 218:1-218:11 (2015) - [c32]Yugo Katsuki, Yuji Yamakawa, Yoshihiro Watanabe, Masatoshi Ishikawa, Makoto Shimojo:
Super-Low-Latency Telemanipulation Using High-Speed Vision and High-Speed Multifingered Robot Hand. HRI (Extended Abstracts) 2015: 45-46 - [c31]Yugo Katsuki, Yuji Yamakawa, Yoshihiro Watanabe, Masatoshi Ishikawa:
Development of fast-response master-slave system using high-speed non-contact 3D sensing and high-speed robot hand. IROS 2015: 1236-1241 - [c30]Satoshi Tabata, Shohei Noguchi, Yoshihiro Watanabe, Masatoshi Ishikawa:
High-speed 3D sensing with three-view geometry using a segmented pattern. IROS 2015: 3900-3907 - [c29]Leo Miyashita, Yoshihiro Watanabe, Masatoshi Ishikawa:
High-speed image rotator for blur-canceling roll camera. IROS 2015: 6047-6052 - [c28]Gaku Narita, Yoshihiro Watanabe, Masatoshi Ishikawa:
Dynamic projection mapping onto a deformable object with occlusion based on high-speed tracking of dot marker array. VRST 2015: 149-152 - 2014
- [j9]Taku Senoo, Yuji Yamakawa, Yoshihiro Watanabe, Hiromasa Oku, Masatoshi Ishikawa:
High-Speed Vision and its Application Systems. J. Robotics Mechatronics 26(3): 287-301 (2014) - [c27]Leo Miyashita, Yoshihiro Watanabe, Masatoshi Ishikawa:
Rapid SVBRDF Measurement by Algebraic Solution Based on Adaptive Illumination. 3DV 2014: 232-239 - [c26]Takehiro Niikura, Yoshihiro Watanabe, Masatoshi Ishikawa:
Anywhere surface touch: utilizing any surface as an input area. AH 2014: 39:1-39:8 - [c25]Chihiro Watanabe, Álvaro Cassinelli, Yoshihiro Watanabe, Masatoshi Ishikawa:
Generic method for crafting deformable interfaces to physically augment smartphones. CHI Extended Abstracts 2014: 1309-1314 - [c24]Masahiro Hirano, Yoshihiro Watanabe, Masatoshi Ishikawa:
3D rectification of distorted document image based on tiled rectangle fragments. ICIP 2014: 2604-2608 - [c23]Shohei Noguchi, Masahiro Yamada, Yoshihiro Watanabe, Masatoshi Ishikawa:
Real-time 3D page tracking and book status recognition for high-speed book digitization based on adaptive capturing. WACV 2014: 137-144 - 2013
- [j8]Shohei Noguchi, Yoshihiro Watanabe, Masatoshi Ishikawa:
High-resolution Surface Reconstruction based on Multi-level Implicit Surface from Multiple Range Images. Inf. Media Technol. 8(4): 1120-1129 (2013) - [j7]Yoichi Takahashi, Yasushi Matoba, Hideki Koike, Álvaro Cassinelli, Jussi Ängeslevä, Yoshihiro Watanabe, Gonzalo Frasca, Masatoshi Ishikawa, Matthew Hirsch, Shahram Izadi, Henry Holtzman, Ramesh Raskar, Quentin Bonnard, Amanda Legge, Anna Geiduschek, Frédéric Kaplan, Pierre Dillenbourg:
Demo hour. Interactions 20(3): 8-9 (2013) - [j6]Shohei Noguchi, Yoshihiro Watanabe, Masatoshi Ishikawa:
High-resolution Surface Reconstruction based on Multi-level Implicit Surface from Multiple Range Images. IPSJ Trans. Comput. Vis. Appl. 5: 143-152 (2013) - [c22]Shohei Noguchi, Yoshihiro Watanabe, Masatoshi Ishikawa:
High-resolution surface reconstruction based on multi-level implicit surface from multiple range images. ICIP 2013: 2140-2144 - [c21]Yoshihiro Watanabe, Miho Tamei, Masahiro Yamada, Masatoshi Ishikawa:
Automatic page turner machine for high-speed book digitization. IROS 2013: 272-279 - 2012
- [c20]Hiroki Shibayama, Yoshihiro Watanabe, Masatoshi Ishikawa:
Reconstruction of 3D Surface and Restoration of Flat Document Image from Monocular Image Sequence. ACCV (4) 2012: 350-364 - [c19]Yoshihiro Watanabe, Kotaro Itoyama, Masahiro Yamada, Masatoshi Ishikawa:
Digitization of Deformed Documents Using a High-Speed Multi-camera Array. ACCV (2) 2012: 394-407 - [c18]Álvaro Cassinelli, Jussi Ängeslevä, Yoshihiro Watanabe, Gonzalo Frasca, Masatoshi Ishikawa:
Skin games. ITS 2012: 323-326 - 2011
- [c17]Yushi Moko, Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa, Masami Nakajima, Kazutami Arimoto:
Implementation and evaluation of FAST corner detection on the massively parallel embedded processor MX-G. CVPR Workshops 2011: 157-162 - [c16]Kentaro Kofuji, Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
Stereo 3D reconstruction using prior knowledge of indoor scenes. ICRA 2011: 5198-5203 - [c15]Hideki Takeoka, Yushi Moko, Carson Reynolds, Takashi Komuro, Yoshihiro Watanabe, Masatoshi Ishikawa:
VolVision: high-speed capture in unconstrained camera motion. SIGGRAPH Asia Sketches 2011: 4:1-4:2 - [c14]Yoshihiro Watanabe, Tetsuo Hatanaka, Takashi Komuro, Masatoshi Ishikawa:
Human gait estimation using a wearable camera. WACV 2011: 276-281 - 2010
- [c13]Toshitaka Kuwa, Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
Wide range image sensing using a thrown-up camera. ICME 2010: 878-883 - [c12]Yoshihiro Watanabe, Takashi Nakashima, Takashi Komuro, Masatoshi Ishikawa:
Estimation of Non-rigid Surface Deformation Using Developable Surface Model. ICPR 2010: 197-200 - [c11]Álvaro Cassinelli, Alexis Zerroug, Yoshihiro Watanabe, Masatoshi Ishikawa, Jussi Ängeslevä:
Camera-less Smart Laser Projector. SIGGRAPH Emerging Technologies 2010 - [c10]Takehiro Niikura, Yuki Hirobe, Álvaro Cassinelli, Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
In-air typing interface for mobile devices with vibration feedback. SIGGRAPH Emerging Technologies 2010
2000 – 2009
- 2009
- [c9]Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
High-resolution shape reconstruction from multiple range images based on simultaneous estimation of surface and motion. ICCV 2009: 1787-1794 - 2008
- [c8]Kota Yamaguchi, Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
Interleaved pixel lookup for embedded computer vision. CVPR Workshops 2008: 1-8 - [c7]Takashi Komuro, Yoshihiro Watanabe, Masatoshi Ishikawa, Tadakuni Narabu:
High-S/N imaging of a moving object using a high-frame-rate camera. ICIP 2008: 517-520 - [c6]Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
Integration of time-sequential range images for reconstruction of a high-resolution 3D shape. ICPR 2008: 1-4 - [c5]Yoshihiro Watanabe, Álvaro Cassinelli, Takashi Komuro, Masatoshi Ishikawa:
The deformable workspace: A membrane between real and virtual space. Tabletop 2008: 145-152 - 2007
- [c4]Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
A High-Speed Vision System for Moment-Based Analysis of Numerous Objects. ICIP (5) 2007: 177-180 - [c3]Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
955-fps Real-time Shape Measurement of a Moving/Deforming Object using High-speed Vision for Numerous-point Analysis. ICRA 2007: 3192-3197 - [c2]Kota Yamaguchi, Yoshihiro Watanabe, Takashi Komuro, Masatoshi Ishikawa:
Design of a Massively Parallel Vision Processor based on Multi-SIMD Architecture. ISCAS 2007: 3498-3501 - 2006
- [j5]Yoshihiro Watanabe, Hiroshi Tatewaki, Toshikatsu Koga, Osamu Matsuoka:
Relativistic Gaussian basis sets for molecular calculations: Fully optimized single-family exponent basis sets for HHg. J. Comput. Chem. 27(1): 48-52 (2006) - 2005
- [j4]Yoshihiro Watanabe, Takashi Komuro, Shingo Kagami, Masatoshi Ishikawa:
Multi-Target Tracking Using a Vision Chip and its Applications to Real-Time Visual Measurement. J. Robotics Mechatronics 17(2): 121-129 (2005) - [j3]Shingo Kagami, Masatsugu Shinmeimae, Takashi Komuro, Yoshihiro Watanabe, Masatoshi Ishikawa:
A Pixel-Parallel Algorithm for Detecting and Tracking Fast-Moving Modulated Light Signals. J. Robotics Mechatronics 17(4): 387-394 (2005) - [j2]Yoshihiro Watanabe, Takashi Komuro, Shingo Kagami, Masatoshi Ishikawa:
Parallel Extraction Architecture for Information of Numerous Particles in Real-Time Image Measurement. J. Robotics Mechatronics 17(4): 420-427 (2005) - [c1]Yoshihiro Watanabe, Takashi Komuro, Shingo Kagami, Masatoshi Ishikawa:
Parallel Extraction Architecture for Image Moments of Numerous Objects. CAMP 2005: 105-110 - 2003
- [j1]Hiroshi Tatewaki, Yoshihiro Watanabe:
Gaussian-type function set without prolapse for the Dirac-Fock-Roothaan equation. J. Comput. Chem. 24(15): 1823-1828 (2003)
Coauthor Index
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