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ORCIDShingo Kagami
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2020 – today
- 2022
[j15]Shunya Fukuda, Shingo Kagami, Koichi Hashimoto:
Evaluation of Perceptual Difference in Dynamic Projection Mapping with and without Movement of the Target Surface. J. Robotics Mechatronics 34(5): 1141-1151 (2022)- 2021
- [j14]Shotaro Narita, Shingo Kagami, Koichi Hashimoto:
Vision-Based Finger Tapping Detection Without Fingertip Observation. J. Robotics Mechatronics 33(3): 484-493 (2021) - [c40]Shun Ueda, Shingo Kagami, Koichi Hashimoto:
MetamorHockey: A Projection-based Virtual Air Hockey Platform Featuring Transformable Mallet Shapes. SIGGRAPH Emerging Technologies 2021: 7:1-7:4 - 2020
- [c39]Shingo Kagami, Koichi Hashimoto:
Interactive Stickies: Low-latency projection mapping for dynamic interaction with projected images on a movable surface. SIGGRAPH Emerging Technologies 2020: 16:1-16:2
2010 – 2019
- 2019
- [j13]Shingo Kagami, Koichi Hashimoto
:
Animated Stickies: Fast Video Projection Mapping onto a Markerless Plane through a Direct Closed-Loop Alignment. IEEE Trans. Vis. Comput. Graph. 25(11): 3094-3104 (2019) - [c38]Eri Takane, Kenjiro Tadakuma, Tori Shimizu, Sosuke Hayashi, Masahiro Watanabe, Shingo Kagami, Keiji Nagatani, Masashi Konyo, Satoshi Tadokoro:
Basic Performance of Planar Omnidirectional Crawler during Direction Switching using Disturbance Degree of Ground Evaluation Method. IROS 2019: 2732-2739 - [c37]Shingo Kagami, Kotone Higuchi, Koichi Hashimoto:
Puppeteered rain: interactive illusion of levitating water drops by position-dependent strobe projection. SIGGRAPH Posters 2019: 48:1-48:2 - [c36]Wakana Oshiro, Shingo Kagami, Koichi Hashimoto:
Perception of Motion-Adaptive Color Images Displayed by a High-Speed DMD Projector. VR 2019: 1790-1793 - [i1]Shingo Kagami, Koichi Hashimoto:
Animated Stickies: Fast Video Projection Mapping onto a Markerless Plane through a Direct Closed-Loop Alignment. CoRR abs/1909.00032 (2019) - 2018
- [c35]Shingo Kagami, Koichi Hashimoto:
A full-color single-chip-DLP projector with an embedded 2400-fps homography warping engine. SIGGRAPH Emerging Technologies 2018: 1:1-1:2 - 2017
- [c34]Tsutomu Kusanagi, Shingo Kagami, Koichi Hashimoto:
Lightning Markers: Synchronization-free Single-shot Detection of Imperceptible AR Markers Embedded in a High-Speed Video Display. ISMAR Adjunct 2017: 229-234 - 2016
- [j12]Shingo Kagami, Kotaro Omi, Koichi Hashimoto:
Alignment of a flexible sheet object with position-based and image-based visual servoing. Adv. Robotics 30(15): 965-978 (2016) - [c33]Akifumi Goto, Shingo Kagami, Koichi Hashimoto:
Display tracking using blended images with unknown mixing ratio as a template. SIGGRAPH Asia Technical Briefs 2016: 24 - [c32]Yuta Imai, Shingo Kagami, Koichi Hashimoto:
Estimation of a large relative rotation between two images of a fast spinning marker-less golf ball. SII 2016: 556-561 - [c31]Shingo Kagami, Koichi Hashimoto:
High-frame-rate region-based visual tracking on CPU: An implementation perspective. SII 2016: 562-567 - 2015
- [c30]Junta Watanabe, Shingo Kagami, Koichi Hashimoto:
Photo Billboarding: A Simple Method to Provide Clues that Relate Camera Views and a 2D Map for Mobile Pedestrian Navigation. ISMAR 2015: 210-211 - [c29]Shingo Kagami, Koichi Hashimoto:
Sticky projection mapping: 450-fps tracking projection onto a moving planar surface. SIGGRAPH Asia Emerging Technologies 2015: 23:1-23:3 - 2014
- [j11]Edouard Laroche, Shingo Kagami, Loïc Cuvillon:
Modeling and compensation of dynamic effects in camera-based position measurement. Robotics Auton. Syst. 62(8): 1175-1186 (2014) - [c28]Keima Abe, Shingo Kagami, Koichi Hashimoto:
Hit-to-scroll: a scroll interface utilizing impacting motions for a handheld projector. SIGGRAPH ASIA Posters 2014: 16 - [c27]Hidetaka Niidome, Shingo Kagami, Koichi Hashimoto:
Camera synchronization to imperceptible frames embedded in a displayed video sequence. SIGGRAPH ASIA Posters 2014: 25 - 2013
- [j10]Lei Hou, Shingo Kagami, Koichi Hashimoto:
Frame Synchronization of High-Speed Vision Sensors with Respect to Temporally Encoded Illumination in Highly Dynamic Environments. Sensors 13(4): 4102-4121 (2013) - [c26]Takashi Nammoto, Koichi Hashimoto, Shingo Kagami, Kazuhiro Kosuge:
High speed/accuracy visual servoing based on virtual visual servoing with stereo cameras. IROS 2013: 44-49 - 2012
- [c25]Ryosuke Aoki, Bessie Chan, Masayuki Ihara, Toru Kobayashi, Minoru Kobayashi, Shingo Kagami:
A gesture recognition algorithm for vision-based unicursal gesture interfaces. EuroITV 2012: 53-56 - 2011
- [j9]Ryosuke Aoki, Masayuki Ihara, Atsuhiko Maeda, Minoru Kobayashi, Shingo Kagami:
Expanding kinds of gestures for hierarchical menu selection by unicursal gesture interface. IEEE Trans. Consumer Electron. 57(2): 731-737 (2011) - [c24]Ryosuke Aoki, Yutaka Karatsu, Masayuki Ihara, Atsuhiko Maeda, Minoru Kobayashi, Shingo Kagami:
Gesture Identification Based on Zone Entry and Axis Crossing. HCI (2) 2011: 194-203 - [c23]Edouard Laroche, Shingo Kagami, Loïc Cuvillon:
Hybrid Kalman filter for improvement of camera-based position sensor. ICRA 2011: 4405-4410 - 2010
- [j8]Lei Hou, Shingo Kagami, Koichi Hashimoto:
Illumination-Based Synchronization of High-Speed Vision Sensors. Sensors 10(6): 5530-5547 (2010) - [j7]Lei Hou, Shingo Kagami, Koichi Hashimoto:
A Signal Normalization Technique for Illumination-Based Synchronization of 1, 000-fps Real-Time Vision Sensors in Dynamic Scenes. Sensors 10(9): 8719-8739 (2010) - [c22]Shingo Kagami:
High-speed vision systems and projectors for real-time perception of the world. CVPR Workshops 2010: 100-107 - [c21]Lei Hou, Shingo Kagami, Koichi Hashimoto:
An Advanced Algorithm for Illumination-Based Synchronization of High-Speed Vision Sensors in Dynamic Scenes. ICIRA (2) 2010: 378-389 - [c20]Shingo Kagami:
Range-finding projectors: Visualizing range information without sensors. ISMAR 2010: 239-240 - [c19]Tatsuro Orikasa, Shingo Kagami, Koichi Hashimoto:
Time-domain augmented reality based on locally adaptive video sampling. ISMAR 2010: 261-262
2000 – 2009
- 2009
- [c18]Rafael Herrejon, Shingo Kagami, Koichi Hashimoto:
Composite visual servoing for catching a 3-D flying object using RLS trajectory estimation from a monocular image sequence. CIRA 2009: 526-531 - [c17]Rafael Herrejon, Shingo Kagami:
Effects of camera calibration errors on trajectory estimation of a flying object using RLS. ICARA 2009: 347-350 - [c16]Rafael Herrejon, Shingo Kagami, Koichi Hashimoto:
Online 3-D trajectory estimation of a flying object from a monocular image sequence. IROS 2009: 2496-2501 - [c15]Edouard Laroche, Shingo Kagami:
Dynamical models for position measurement with global shutter and rolling shutter cameras. IROS 2009: 5204-5209 - [c14]Shingo Kagami, Koichi Hashimoto:
1, 000-fps Visual Feedback Control of an Active Vision System over a High-Load Network. MVA 2009: 114-117 - [c13]Rafael Herrejon, Shingo Kagami, Koichi Hashimoto:
Position based visual servoing for catching a 3-D flying object using RLS trajectory estimation from a monocular image sequence. ROBIO 2009: 665-670 - [c12]Shin Kondo, Shingo Kagami, Koichi Hashimoto:
Scalable vision graph estimation for a vision sensor network. ROBIO 2009: 865-870 - 2008
- [c11]Osamu Shigeta, Shingo Kagami, Koichi Hashimoto:
Identifying a moving object with an accelerometer in a camera view. IROS 2008: 3872-3877 - [c10]Lei Hou, Shingo Kagami, Koichi Hashimoto:
Illumination-based real-time contactless synchronization of high-speed vision sensors. ROBIO 2008: 1750-1755 - 2007
- [c9]Tomoyuki Tnoue, Shingo Kagami, Joji Takei, Koichi Hashimoto, Kenichi Yamamoto, Idaku Ishii:
High-Speed Visual Tracking of the Nearest Point of an Object Using 1, 000-fps Adaptive Pattern Projection. CVPR 2007 - [c8]Nao Iwata, Shingo Kagami, Koichi Hashimoto:
A Dynamically Reconfigurable Architecture Combining Pixel-Level SIMD and Operation-Pipeline Modes for High Frame Rate Visual Processing. FPT 2007: 321-324 - [c7]Shingo Kagami, Shoichiro Saito, Takashi Komuro, Masatoshi Ishikawa:
A Networked High-Speed Vision System for 1, 000-FPS Visual Feature Communication. ICDSC 2007: 95-100 - [c6]Joji Takei, Shingo Kagami, Koichi Hashimoto:
3, 000-fps 3-D shape measurement using a high-speed camera-projector system. IROS 2007: 3211-3216 - [c5]Takashi Komuro, Björn Werkmann, Takashi Komai, Masatoshi Ishikawa, Shingo Kagami:
A High-Speed and Compact Vision System Suitable for Wearable Man-machine Interfaces. MVA 2007: 199-202 - 2005
- [j6]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) - [j5]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) - [j4]Takashi Komuro, Yoshiki Senjo, Kiyohiro Sogen, Shingo Kagami, Masatoshi Ishikawa:
Real-Time Shape Recognition Using a Pixel-Parallel Processor. J. Robotics Mechatronics 17(4): 410-419 (2005) - [j3]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) - [c4]Yoshihiro Watanabe, Takashi Komuro, Shingo Kagami, Masatoshi Ishikawa:
Parallel Extraction Architecture for Image Moments of Numerous Objects. CAMP 2005: 105-110 - [c3]Takashi Komuro, Shingo Kagami, Masatoshi Ishikawa, Yoshio Katayama:
Development of a Bit-Level Compiler for Massively Parallel Vision Chips. CAMP 2005: 204-209 - 2004
- [j2]Takashi Komuro, Shingo Kagami, Masatoshi Ishikawa:
A dynamically reconfigurable SIMD processor for a vision chip. IEEE J. Solid State Circuits 39(1): 265-268 (2004) - [c2]Shingo Kagami, Masatoshi Ishikawa:
A Sensor Selection Method Considering Communication Delays. ICRA 2004: 206-211 - 2002
- [c1]Shingo Kagami, Takashi Komuro, Idaku Ishii, Masatoshi Ishikawa:
A Real-Time Visual Processing System using a General-Purpose Vision Chip. ICRA 2002: 1229-1234 - 2000
- [j1]Takashi Komuro, Shingo Kagami, Idaku Ishii, Masatoshi Ishikawa:
Device and System Development of General Purpose Digital Vision Chip. J. Robotics Mechatronics 12(5): 515-520 (2000)
Coauthor Index
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