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Takashi Maeno
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Journal Articles
- 2017
- [j13]Iza Husna Mohamad Hashim, Shogo Kumamoto, Kenjiro Takemura, Takashi Maeno, Shin Okuda, Yukio Mori:
Tactile Evaluation Feedback System for Multi-Layered Structure Inspired by Human Tactile Perception Mechanism. Sensors 17(11): 2601 (2017) - [j12]Hsin-Ni Ho, Katsunari Sato, Scinob Kuroki, Junji Watanabe, Takashi Maeno, Shin'ya Nishida:
Physical-Perceptual Correspondence for Dynamic Thermal Stimulation. IEEE Trans. Haptics 10(1): 84-93 (2017) - 2014
- [j11]Toshiyuki Yasui, Seiko Shirasaka, Takashi Maeno:
Designing critical policy infrastructures by participatory systems analysis: the case of Fukushima's reconstruction. Int. J. Crit. Infrastructures 10(3/4): 334-346 (2014) - 2013
- [j10]Katsunari Sato, Takashi Maeno:
Presentation of Rapid Temperature Change Using Spatially Divided Hot and Cold Stimuli. J. Robotics Mechatronics 25(3): 497-505 (2013) - 2011
- [j9]Shogo Okamoto, Masashi Konyo, Takashi Maeno, Satoshi Tadokoro:
Remote Tactile Transmission with Time Delay for Robotic Master-Slave Systems. Adv. Robotics 25(9-10): 1271-1294 (2011) - 2008
- [j8]Takashi Maeno, Yoky Matsuoka:
Preface. Adv. Robotics 22(8): 787-788 (2008) - [j7]Takeshi Ninomiya, Takashi Maeno:
Analysis and Systematic Classification of Human Hand Movement for Robot Hand Design. J. Robotics Mechatronics 20(3): 429-435 (2008) - 2007
- [j6]Takashi Maeno, Susumu Date, Yoshiyuki Kido, Shinji Shimojo:
Analytic Space Management for Drug Design Application. Inf. Media Technol. 2(1): 408-419 (2007) - 2006
- [j5]Masato Homma, Hiroshi Morita, Takashi Maeno, Masashi Konyo, Seiji Motojima:
Electromechanical Conversion Mechanism of a Tactile Sensor Using Carbon Micro Coil Inside an Elastic Material. J. Robotics Mechatronics 18(3): 235-241 (2006) - 2005
- [j4]Masayuki Mori, Takashi Maeno, Yoji Yamada:
Displaying Partial Slippage for Virtual Grasping. J. Robotics Mechatronics 17(3): 277-284 (2005) - 2004
- [j3]Takashi Maeno, Tomoyuki Kawamura, Sen-Chieh Cheng:
Friction estimation by pressing an elastic finger-shaped sensor against a surface. IEEE Trans. Robotics Autom. 20(2): 222-228 (2004) - 2003
- [j2]Kenjiro Takentura, Takashi Maeno:
Method for Controlling Multi-DOF Ultrasonic Motor Using Neural Network. J. Robotics Mechatronics 15(2): 114-120 (2003) - 2002
- [j1]Daisuke Yamada, Takashi Maeno, Yoji Yamada:
Artificial Finger Skin having Ridges and Distributed Tactile Sensors used for Grasp Force Control. J. Robotics Mechatronics 14(2): 140-146 (2002)
Conference and Workshop Papers
- 2015
- [c70]Yoshikazu Tomita, Kyoko Watanabe, Takashi Maeno:
Designing New Business Development Program Based on Systems Engineering Methodology with Participatory Systems Analysis in Small and Midsized Enterprise. ICServ 2015: 359-367 - 2014
- [c69]Iwane Maida, Hisashi Sato, Tetsuya Toma, Takashi Maeno:
Designing the Amount of Image Delay in Tele-surgery. ICServ 2014: 193-203 - [c68]Toshiyuki Yasui, Takashi Maeno, Seiko Shirasaka, Yoshikazu Tomita, Kanenori Ishibashi:
Workshop-Based Policy Platform for Public-Private Partnership (WP5): Designing Co-creative Policy-Making Platform for Regional Development of Nagano. ICServ 2014: 287-301 - [c67]Shiko Kurihara, Takashi Maeno:
System Design of Happy Town Using Four Factors of Happiness. ICServ 2014: 303-313 - [c66]Miki Nishio, Takashi Maeno:
A Questionnaire Assessment of the Contributing Factors to Empathy. ICServ 2014: 371-385 - [c65]Kazuto Imazeki, Toshiyuki Yasui, Takashi Maeno:
An Evaluation Method of a Service Business Model Using Wants Chain Analysis. ICServ 2014: 523-538 - [c64]Kazuto Imazeki, Toshiyuki Yasui, Takashi Maeno:
Design Method of Target Customer's WANTs for a Service Based on Classification of Services Using WANTs. ICServ 2014: 539-550 - [c63]Toshiyuki Yasui, Seiko Shirasaka, Takashi Maeno:
Systems analysis of SDM graduate schools. ITSC 2014: 168-171 - 2013
- [c62]Yasutoshi Makino, Takashi Maeno:
Paired vibratory stimulation for haptic feedback. AH 2013: 47-50 - [c61]Tomoyuki Fujita, Nozomi Sugiyama, Motoshi Kanke, Toshiyuki Yasui, Seiko Shirasaka, Takashi Maeno:
Concept Design of Cause-Related Marketing Using Wants Chain Analysis and Co-creation Workshops. ICServ 2013: 235-242 - [c60]Shimon Akiyama, Katsunari Sato, Yasutoshi Makino, Takashi Maeno:
ThermOn: thermo-musical interface for an enhanced emotional experience. ISWC 2013: 45-52 - 2012
- [c59]Shimon Akiyama, Katsunari Sato, Yasutoshi Makino, Takashi Maeno:
Presentation of thermal sensation through preliminary adjustment of adapting skin temperature. HAPTICS 2012: 355-358 - [c58]Katsunari Sato, Takashi Maeno:
Presentation of Sudden Temperature Change Using Spatially Divided Warm and Cool Stimuli. EuroHaptics (1) 2012: 457-468 - [c57]Yoichi Watanabe, Yasutoshi Makino, Katsunari Sato, Takashi Maeno:
Contact Force and Finger Angles Estimation for Touch Panel by Detecting Transmitted Light on Fingernail. EuroHaptics (1) 2012: 601-612 - [c56]Yasutoshi Makino, Akiko Kamigori, Takashi Maeno:
Wireless wearable vibration sensor for touch-based life log system. INSS 2012: 1-4 - [c55]Katsunari Sato, Yoichi Watanabe, Yasutoshi Makino, Takashi Maeno:
Vision-based force sensor for touch panel devices using built-in camera. SCIS&ISIS 2012: 852-855 - [c54]Shimon Akiyama, Katsunari Sato, Yasutoshi Makino, Takashi Maeno:
EffectON - Enriching impressions of motions and physically changing motions via synchronous sound effects. SCIS&ISIS 2012: 856-860 - 2011
- [c53]Yasutoshi Makino, Takashi Maeno, Hiroyuki Shinoda:
Perceptual characteristic of multi-spectral vibrations beyond the human perceivable frequency range. World Haptics 2011: 439-443 - [c52]Kei Nakatsuma, Hiroyuki Shinoda, Yasutoshi Makino, Katsunari Sato, Takashi Maeno:
Touch interface on back of the hand. SIGGRAPH Emerging Technologies 2011: 19 - [c51]Kei Nakatsuma, Hiroyuki Shinoda, Yasutoshi Makino, Katsunari Sato, Takashi Maeno:
Touch interface on back of the hand. SIGGRAPH Posters 2011: 39 - 2010
- [c50]Yasutoshi Makino, Masakazu Murao, Takashi Maeno:
Life Log System Based on Tactile Sound. EuroHaptics (1) 2010: 292-297 - [c49]Takahiro Yamauchi, Shogo Okamoto, Masashi Konyo, Yusuke Hidaka, Takashi Maeno, Satoshi Tadokoro:
Real-time remote transmission of multiple tactile properties through master-slave robot system. ICRA 2010: 1753-1760 - 2009
- [c48]Kaoru Tashiro, Yuta Shiokawa, Tomotake Aono, Takashi Maeno:
Realization of button click feeling by use of ultrasonic vibration and force feedback. WHC 2009: 1-6 - [c47]Kosuke Kawazu, Masakazu Murao, Takeru Ohta, Masayoshi Mase, Takashi Maeno:
A System to Construct an Interest Model of User Based on Information in Browsed Web Page by User. HCI (3) 2009: 304-313 - [c46]Kaoru Tashiro, Yuta Shiokawa, Tomotake Aono, Takashi Maeno:
A Virtual Button with Tactile Feedback Using Ultrasonic Vibration. HCI (13) 2009: 385-393 - [c45]Shogo Okamoto, Masashi Konyo, Takashi Maeno, Satoshi Tadokoro:
Transmission of tactile roughness through master-slave systems. ICRA 2009: 1467-1472 - 2008
- [c44]Yasuhisa Kamikawa, Takashi Maeno:
Underactuated five-finger prosthetic hand inspired by grasping force distribution of humans. IROS 2008: 717-722 - [c43]Yuta Shiokawa, Atsushi Tazo, Masashi Konyo, Takashi Maeno:
Hybrid display of realistic tactile sense using ultrasonic vibrator and force display. IROS 2008: 3008-3013 - [c42]Masashi Konyo, Yohei Motoki, Hiroshi Yamada, Satoshi Tadokoro, Takashi Maeno:
Producing distributed vibration by a single piezoelectric ceramics for a small tactile stimulator. IROS 2008: 3698-3704 - 2007
- [c41]Shogo Okamoto, Masashi Konyo, Takashi Maeno, Satoshi Tadokoro:
Roughness Feeling Telepresence System with Communication Time-D. WHC 2007: 595-596 - [c40]Shogo Okamoto, Masashi Konyo, Takashi Maeno, Satoshi Tadokoro:
Roughness feeling telepresence system on the basis of real-time estimation of surface wavelengths. IROS 2007: 2698-2703 - [c39]Hisayuki Narahara, Takashi Maeno:
Factors of gestures of robots for smooth communication with humans. ROBOCOMM 2007: 44 - [c38]Yoshiyuki Miyamoto, Takashi Maeno:
How humans evaluate the impression when interacting haptically with a robot. ROBOCOMM 2007: 49 - 2006
- [c37]Hirokazu Shirado, Takashi Maeno, Yoshimune Nonomura:
Realization of Human Skin-like Texture by Emulating Surface Shape Pattern and Elastic Structure. HAPTICS 2006: 43 - [c36]Mark J. Lelieveld, Takashi Maeno:
Design and Development of a 4 DOF Portable Haptic Interface with Multi-point Passive Force Feedback for the Index Finger. ICRA 2006: 3134-3139 - [c35]Nakamoto Masataka, Masashi Konyo, Takashi Maeno, Satoshi Tadokoro:
Reflective Grasp Force Control of Humans Induced by Distributed Vibration Stimuli on Finger Skin with ICPF Actuators. ICRA 2006: 3899-3904 - [c34]Masato Homma, Masashi Konyo, Takashi Maeno, Seiji Motojima:
Analysis of Static and Dynamic Characteristics of a Tactile Sensor using Carbon Micro Coil inside an Elastic Material. IROS 2006: 1933-1938 - [c33]Shogo Okamoto, Masashi Konyo, Yuka Mukaibo, Takashi Maeno, Satoshi Tadokoro:
Real-time Estimation of Touch Feeling Factors Using Human Finger Mimetic Tactile Sensors. IROS 2006: 3581-3586 - [c32]Yuta Koda, Takashi Maeno:
Grasping Force Control in Master-Slave System with Partial Slip Sensor. IROS 2006: 4641-4646 - [c31]Yuhua Zhang, Yuka Mukaibo, Takashi Maeno:
A Multi-Purpose Tactile Sensor Inspired by Human Finger for Texture and Tissue Stiffness Detection. ROBIO 2006: 159-164 - 2005
- [c30]Masashi Konyo, Takashi Maeno, Akinori Yoshida, Satoshi Tadokoro:
Roughness Sense Display Representing Temporal Frequency Changes of Tactile Information in Response to Hand Movements. WHC 2005: 609-610 - [c29]Hirokazu Shirado, Takashi Maeno:
Modeling of Human Texture Perception for Tactile Displays and Sensors. WHC 2005: 629-630 - [c28]Yuka Mukaibo, Hirokazu Shirado, Masashi Konyo, Takashi Maeno:
Development of a Texture Sensor Emulating the Tissue Structure and Perceptual Mechanism of Human Fingers. ICRA 2005: 2565-2570 - [c27]Ikuo Yamano, Takashi Maeno:
Five-fingered Robot Hand using Ultrasonic Motors and Elastic Elements. ICRA 2005: 2673-2678 - [c26]Kayo Otokawa, Kenjiro Takemura, Takashi Maeno:
A multi-degree-of-freedom ultrasonic motor using single-phase-driven vibrators. IROS 2005: 499-504 - [c25]Mitsunori Tada, Noritaka Nagai, Takashi Maeno:
Material Properties Estimation of Layered Soft Tissue Based on MR Observation and Iterative FE Simulation. MICCAI (2) 2005: 633-640 - 2004
- [c24]Isao Fujimoto, Yoji Yamada, Takashi Maeno, Tetsuya Morizono, Yoji Umetani:
Study on a "Tactile Mirror" for Displaying Static Friction Sensation with Tactile Perception Feedback. ICRA 2004: 1233-1238 - [c23]Yosuke Nakagawa, Akira Saito, Takashi Maeno:
Transient analysis of bar-type ultrasonic motors. IROS 2004: 1263-1268 - [c22]Yusuke Ueda, Takashi Maeno:
Development of a mouse-shaped haptic device with multiple finger inputs. IROS 2004: 2886-2891 - 2003
- [c21]Ken Endo, Takashi Maeno, Hiroaki Kitano:
Co-evolution of morphology and walking pattern of biped humanoid robot using evolutionary computation -designing the real robo. ICRA 2003: 1362-1367 - [c20]Ken Endo, Takashi Maeno, Hiroaki Kitano:
Co-evolution of morphology and walking pattern of biped humanoid robot using evolutionary computation - evolutionary designing method and its evaluation. IROS 2003: 340-345 - [c19]Tatsuya Koyama, Kenjiro Takemura, Takashi Maeno:
Development of an ultrasonic clutch for multi-fingered exoskeleton haptic device using passive force feedback for dexterous teleoperation. IROS 2003: 2229-2234 - [c18]Ikuo Yamano, Kenjiro Takemura, Takashi Maeno:
Development of a robot finger for five-fingered hand using ultrasonic motors. IROS 2003: 2648-2653 - [c17]Yoichi Ogahara, Yusuke Kawato, Kenjiro Takemura, Takashi Maeno:
A wire-driven miniature five fingered robot hand using elastic elements as joints. IROS 2003: 2672-2677 - [c16]Masayuki Mori, Takashi Maeno, Yoji Yamada:
Method for displaying partial slip used for virtual grasp. IROS 2003: 3100-3105 - [c15]Kazuto Imazeki, Takashi Maeno:
Hierarchical control method for manipulating/grasping tasks using multi-fingered robot hand. IROS 2003: 3686-3691 - 2002
- [c14]Ikuo Yamano, Kenjiro Takemura, Ken Endo, Takashi Maeno:
Method for Controlling Master-Slave Robots using Switching and Elastic Elements. ICRA 2002: 1717-1722 - [c13]Kenjiro Takemura, Takashi Maeno:
Numerical Analyses on Multi-DOF Ultrasonic Motor - Development of Analysis Method and Results. ICRA 2002: 2387-2392 - [c12]Ken Endo, Fuminori Yamasaki, Takashi Maeno, Hiroaki Kitano:
A Method for Co-Evolving Morphology and Walking Pattern of Biped Humanoid Robot. ICRA 2002: 2775-2780 - [c11]Kenjiro Takemura, Takashi Maeno:
Control of multi-DOF ultrasonic motor using neural network based inverse model. IROS 2002: 2187-2192 - [c10]Ken Endo, Takashi Maeno, Hiroaki Kitano:
Co-evolution of morphology and walking pattern of biped humanoid robot using evolutionary computation. Consideration of characteristic of the servomotors. IROS 2002: 2678-2683 - [c9]Tatsuya Koyama, Ikuo Yamano, Kenjiro Takemura, Takashi Maeno:
Multi-fingered exoskeleton haptic device using passive force feedback for dexterous teleoperation. IROS 2002: 2905-2910 - [c8]Ken Endo, Funinori Yamasaki, Takashi Maeno, Hiroaki Kitano:
Generation of Optimal Biped Walking for Humanoid Robot by Co-evolving Morphology and Controller. PRICAI 2002: 325-334 - [c7]Ken Endo, Funinori Yamasaki, Takashi Maeno, Hiroaki Kitano:
Co-evolution of Morphology and Controller for Biped Humanoid Robot. RoboCup 2002: 327-341 - 2001
- [c6]Daisuke Yamada, Takashi Maeno, Yoji Yamada:
Artificial finger skin having ridges and distributed tactile sensors used for grasp force control. IROS 2001: 686-691 - [c5]Kenjiro Takemura, Dai Harada, Takashi Maeno:
A master-slave system using a multi-DOF ultrasonic motor and its controller designed considering measured and simulated driving characteristics. IROS 2001: 1977-1982 - [c4]Ken Endo, Takashi Maeno:
Simultaneous design of morphology of body, neural systems and adaptability to environment of multi-link-type locomotive robots using genetic programming. IROS 2001: 2282-2287 - 2000
- [c3]Kenjiro Takemura, Takashi Maeno:
Characteristics of an Ultrasonic Motor Capable of Generating a Multi-Degrees of Freedom Motion. ICRA 2000: 3660-3665 - [c2]Takashi Maeno, Shinichi Hiromitsu, Takashi Kawai:
Control of Grasping Force by Detecting Stick/Slip Distribution at the Curved Surface of an Elastic Finger. ICRA 2000: 3895-3900 - 1998
- [c1]Takashi Maeno, Takashi Kawai, Kazumi Kobayashi:
Analysis and design of a tactile sensor detecting strain distribution inside an elastic finger. IROS 1998: 1658-1663
Editorship
- 2016
- [e1]Takashi Maeno, Yuriko Sawatani, Tatsunori Hara:
Serviceology for Designing the Future, Selected and Edited Papers of the 2nd International Conference on Serviceology, ICServ 2014, Yokohama, Japan, 14-16 September 2014. Springer 2016, ISBN 978-4-431-55859-0 [contents]
Coauthor Index
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