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Toshiaki Tsuji
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2020 – today
- 2024
- [j44]Takamasa Kawahara
, Toshiaki Tsuji
Development of an Easy-to-Cut Six-Axis Force Sensor. IEEE Robotics Autom. Lett. 9(1): 563-570 (2024) - [j43]Koki Yamane
Soft and Rigid Object Grasping With Cross-Structure Hand Using Bilateral Control-Based Imitation Learning. IEEE Robotics Autom. Lett. 9(2): 1198-1205 (2024) - [c84]Koki Yamane, Sho Sakaino, Toshiaki Tsuji:
Imitation Learning Inputting Image Feature to Each Layer of Neural Network. AMC 2024: 1-6 - [i19]Koki Yamane, Sho Sakaino, Toshiaki Tsuji:
Imitation Learning Inputting Image Feature to Each Layer of Neural Network. CoRR abs/2401.09691 (2024) - [i18]Toshiaki Tsuji:
Mamba as a motion encoder for robotic imitation learning. CoRR abs/2409.02636 (2024) - 2023
- [j42]Takamasa Kawahara
Development of High Dynamic Range Six-Axis Force Sensor with Simple Structure. J. Robotics Mechatronics 35(3): 771-779 (2023) - [j41]Keito Sugawara
Unsupervised Human Motion Segmentation Based on Characteristic Force Signals of Contact Events. IEEE Robotics Autom. Lett. 8(10): 6203-6210 (2023) - [i17]Toshiaki Tsuji, Yasuhiro X. Kato:
Stability analysis of admittance control using asymmetric stiffness matrix. CoRR abs/2306.11983 (2023) - [i16]Koki Yamane, Sho Sakaino, Toshiaki Tsuji:
Soft and Rigid Object Grasping With Cross-Structure Hand Using Bilateral Control-Based Imitation Learning. CoRR abs/2311.09555 (2023) - 2022
- [j40]Kazuki Hayashi
An Independently Learnable Hierarchical Model for Bilateral Control-Based Imitation Learning Applications. IEEE Access 10: 32766-32781 (2022) - [j39]Yuki Saigusa
Imitation Learning for Nonprehensile Manipulation Through Self-Supervised Learning Considering Motion Speed. IEEE Access 10: 68291-68306 (2022) - [j38]Tatsuhiro Hamana
Selective Drive and Control of Index Finger Joint Using Multipoint Functional Electrical Stimulation. IEEE Access 10: 112444-112459 (2022) - [j37]Kazuki Takeuchi
Comparative Study of Foot Fixation Methods and Sensor Arrangements in Ankle Joint Torque Measurement Equipment. IEEE Access 10: 114040-114047 (2022) - [j36]Yuya Nogi
Contact Force Detection of Grinding Process Using Frequency Information and Differential Feature on Force Signal. IEEE Access 10: 127140-127148 (2022) - [j35]Tomoki Horikoshi
High Dynamic Range Force Sensing of a Robot Hand Combining Signals on Tip and Wrist. IEEE Robotics Autom. Lett. 7(2): 3210-3217 (2022) - [j34]Yuya Nogi
Force Control of Grinding Process Based on Frequency Analysis. IEEE Robotics Autom. Lett. 7(2): 3250-3256 (2022) - [j33]Yasuhiro X. Kato
A Self-Tuning Impedance-Based Interaction Planner for Robotic Haptic Exploration. IEEE Robotics Autom. Lett. 7(4): 9461-9468 (2022) - [c83]Toshiaki Tsuji, Tsukasa Kusakabe:
Probabilistic Approach to Online Stiffness Estimation for Robotic Tasks. IROS 2022: 11196-11202 - [i15]Yasuhiro X. Kato, Pietro Balatti, Juan M. Gandarias, Mattia Leonori, Toshiaki Tsuji, Arash Ajoudani:
A Self-Tuning Impedance-based Interaction Planner for Robotic Haptic Exploration. CoRR abs/2203.05413 (2022) - [i14]Kazuki Hayashi, Sho Sakaino, Toshiaki Tsuji:
An Independently Learnable Hierarchical Model for Bilateral Control-Based Imitation Learning Applications. CoRR abs/2203.08619 (2022) - [i13]Yuki Saigusa, Sho Sakaino, Toshiaki Tsuji:
Imitation Learning for Nonprehensile Manipulation through Self-Supervised Learning Considering Motion Speed. CoRR abs/2206.10289 (2022) - [i12]Tsukasa Kusakabe, Sho Sakaino, Toshiaki Tsuji:
Design of non-diagonal stiffness matrix for assembly task. CoRR abs/2210.16594 (2022) - 2021
- [j32]Ayumu Sasagawa
Motion Generation Using Bilateral Control-Based Imitation Learning With Autoregressive Learning. IEEE Access 9: 20508-20520 (2021) - [j31]Masahide Oikawa
Reinforcement Learning for Robotic Assembly Using Non-Diagonal Stiffness Matrix. IEEE Robotics Autom. Lett. 6(2): 2737-2744 (2021) - [j30]Toshiaki Tsuji
Contact Feature Recognition Based on MFCC of Force Signals. IEEE Robotics Autom. Lett. 6(3): 5153-5158 (2021) - [j29]Ryuya Tamura, Tomoki Horikoshi, Sho Sakaino
High Dynamic Range 6-Axis Force Sensor Employing a Semiconductor-Metallic Foil Strain Gauge Combination. IEEE Robotics Autom. Lett. 6(4): 6243-6249 (2021) - [c82]Yasuhiro X. Kato, Sho Sakaino, Toshiaki Tsuji:
Contact State Recognition for Selective Cutting Task of Flexible Objects. ICDL 2021: 1-6 - [c81]Kazuki Hayashi, Ayumu Sasagawa, Sho Sakaino, Toshiaki Tsuji:
A New Autoregressive Neural Network Model with Command Compensation for Imitation Learning Based on Bilateral Control. ICM 2021: 1-7 - [c80]Toshihiro Ueki, Sho Sakaino, Toshiaki Tsuji:
Force restrained control to extend flexibility of trajectory planning. ICM 2021: 1-6 - [c79]Yuki Saigusa, Ayumu Sasagawa, Sho Sakaino, Toshiaki Tsuji:
Imitation learning for variable speed motion generation over multiple actions. IECON 2021: 1-6 - [c78]Koyo Sato, Sho Sakaino, Toshiaki Tsuji:
A Force Recognition System for Distinguishing Click Responses of Various Objects. IROS 2021: 2860-2865 - [i11]Sho Sakaino, Kazuki Fujimoto, Yuki Saigusa, Toshiaki Tsuji:
Imitation Learning for Variable Speed Object Manipulation. CoRR abs/2102.10283 (2021) - [i10]Yuki Saigusa, Ayumu Sasagawa, Sho Sakaino, Toshiaki Tsuji:
Imitation learning for variable speed motion generation over multiple actions. CoRR abs/2103.06466 (2021) - [i9]Kazuki Hayashi, Ayumu Sasagawa, Sho Sakaino, Toshiaki Tsuji:
A New Autoregressive Neural Network Model with Command Compensation for Imitation Learning Based on Bilateral Control. CoRR abs/2103.08879 (2021) - [i8]Masahiro Aita, Keito Sugawara, Sho Sakaino, Toshiaki Tsuji:
Generation Drawing/Grinding Trajectoy Based on Hierarchical CVAE. CoRR abs/2111.10954 (2021) - 2020
- [j28]Yuu Hasegawa
Bilateral Control of Elbow and Shoulder Joints Using Functional Electrical Stimulation Between Humans and Robots. IEEE Access 8: 15792-15799 (2020) - [j27]Daichi Furuta
Motion Planning With Success Judgement Model Based on Learning From Demonstration. IEEE Access 8: 73142-73150 (2020) - [j26]Ayumu Sasagawa
Imitation Learning Based on Bilateral Control for Human-Robot Cooperation. IEEE Robotics Autom. Lett. 5(4): 6169-6176 (2020) - [c77]Masahiro Kawazawa, Sho Sakaino, Toshiaki Tsuji:
Development of a Low-friction Motor using Bearings as Gear Teeth. AIM 2020: 1573-1578 - [c76]Masahide Oikawa, Kyo Kutsuzawa, Sho Sakaino, Toshiaki Tsuji:
Admittance Control Based on a Stiffness Ellipse for Rapid Trajectory Deformation. AMC 2020: 23-28 - [c75]Josiah P. Batson, Yasuhiro X. Kato, Kathleen Shuster, James L. Patton, Kyle B. Reed, Toshiaki Tsuji, Domen Novak:
Haptic Coupling in Dyads Improves Motor Learning in a Simple Force Field. EMBC 2020: 4795-4798 - [c74]Yasuhiro X. Kato, Andrej Olensek, Matjaz Zadravec, Zlatko Matjacic, Toshiaki Tsuji, Imre Cikajlo
Movement strategy and EMG activities of the upper extremity at assisted reaching exercise with a 7 DOF collaborative robot. EMBC 2020: 4886-4889 - [i7]Masahide Oikawa, Kyo Kutsuzawa
Assembly robots with optimized control stiffness through reinforcement learning. CoRR abs/2002.12207 (2020) - [i6]Ayumu Sasagawa, Sho Sakaino, Toshiaki Tsuji:
Motion Generation Using Bilateral Control-Based Imitation Learning with Autoregressive Learning. CoRR abs/2011.06192 (2020)
2010 – 2019
- 2019
- [j25]Kyo Kutsuzawa
Trajectory adjustment for nonprehensile manipulation using latent space of trained sequence-to-sequence model. Adv. Robotics 33(21): 1144-1154 (2019) - [j24]Kosta Jovanovic
Editorial: Human-Like Advances in Robotics: Motion, Actuation, Sensing, Cognition and Control. Frontiers Neurorobotics 13: 85 (2019) - [j23]Keisuke Kubota
Robot-Assisted Eccentric Contraction Training of the Tibialis Anterior Muscle Based on Position and Force Sensing. Sensors 19(6): 1288 (2019) - [j22]Ryuichiro Koike, Sho Sakaino
Hysteresis Compensation in Force/Torque Sensors Using Time Series Information. Sensors 19(19): 4259 (2019) - [c73]Kenta Araake, Sho Sakaino, Toshiaki Tsuji:
Design of Resonance Ratio Control with Relative Position Information for Two-inertia System. AIM 2019: 648-653 - [c72]Junya Tsunoda, Sho Sakaino, Toshiaki Tsuji:
Angle Measurement Using Monocular Camera and Moiré Pattern Enlarging the Rotation in the Linear Motion. ICM 2019: 155-160 - [c71]Kazuya Morito, Yuri Hasegawa, Keisuke Kubota, Toshiaki Tsuji:
Visual Biofeedback of Force Information for Eccentric Training of Hemiplegic Patients. ICORR 2019: 524-529 - [c70]Daisuke Okumura, Sho Sakaino, Toshiaki Tsuji:
Miniaturization of multistage high dynamic range six-axis force sensor composed of resin material. ICRA 2019: 4297-4302 - [c69]Ryuya Tamura, Sho Sakaino, Toshiaki Tsuji:
Development of compact high dynamic range six-axis force sensor with cross-arch structure. IECON 2019: 3609-3614 - [c68]Koyo Sato, Masahide Oikawa, Kyo Kutsuzawa
Success/Failure Identification of Skill Movement by Neural Network Using Force Information. IECON 2019: 3641-3646 - [c67]Tomoya Kitamura, Yuu Hasegawa, Toshiaki Tsuji, Sho Sakaino:
Control Using High-carrier Frequency PWM in Functional Electrical Stimulation. IECON 2019: 5358-5363 - [c66]Kazuki Fujimoto, Sho Sakaino, Toshiaki Tsuji:
Time Series Motion Generation Considering Long Short-Term Motion. IROS 2019: 6842-6848 - [i5]Kazuki Fujimoto, Sho Sakaino, Toshiaki Tsuji:
Time Series Motion Generation Considering Long Short-Term Motion. CoRR abs/1909.03755 (2019) - [i4]Kenta Araake, Sho Sakaino, Toshiaki Tsuji:
Design of Resonance Ratio Control with Relative Position Information for Two-inertia System. CoRR abs/1909.08813 (2019) - [i3]Ayumu Sasagawa, Kazuki Fujimoto, Sho Sakaino, Toshiaki Tsuji:
Imitation Learning for Human-robot Cooperation Using Bilateral Control. CoRR abs/1909.13018 (2019) - 2018
- [j21]Tomoki Sakuma, Kenta Tsuda
Modeling and resonance suppression control for electro-hydrostatic actuator as a two-mass resonant system. Adv. Robotics 32(1): 1-11 (2018) - [j20]Kyo Kutsuzawa
Sequence-to-Sequence Model for Trajectory Planning of Nonprehensile Manipulation Including Contact Model. IEEE Robotics Autom. Lett. 3(4): 3606-3613 (2018) - [c65]Tetsugaku Okamoto, Kyo Kutsuzawa
Trajectory planning by variable length chunk of sequence-to-sequence using hierarchical decoder. AMC 2018: 209-214 - [c64]Kota I, Koudai Umeda, Kenta Tsuda, Sho Sakaino, Toshiaki Tsuji
Force control of electro-hydrostatic actuator using pressure control considering torque efficiency. AMC 2018: 385-390 - [c63]Kazuya Morito, Junya Tsunoda, Sho Sakaino, Toshiaki Tsuji
Reaction force observer using load dependent friction model. AMC 2018: 423-428 - [c62]Tomoya Kitamura, Naoto Mizukami, Hiroto Mizoguchi, Sho Sakaino, Toshiaki Tsuji:
Control with Adjusted Pulse Frequency and Amplitude in Functional Electrical Stimulation. EMBC 2018: 2064-2067 - [c61]Daisuke Okumura, Sho Sakaino, Toshiaki Tsuji:
High Dynamic Range Sensing by a Multistage Six-Axis Force Sensor with Stopper Mechanism. ICRA 2018: 1-6 - [c60]Ryuichiro Koike, Sho Sakaino, Toshiaki Tsuji:
Hysteresis Compensation in Force/Torque Sensor based on Machine Learning. IECON 2018: 2769-2774 - [c59]Tomoya Kitamura, Sho Sakaino, Yuu Hasegawa, Toshiaki Tsuji:
Estimation of Relationship Between Stimulation Current and Force Exerted During Isometric Contraction. IECON 2018: 5080-5085 - [c58]Yuu Hasegawa, Tomoya Kitamura, Sho Sakaino, Toshiaki Tsuji:
Bilateral Control of Two Finger Joints Using Functional Electrical Stimulation. IECON 2018: 5433-5438 - [c57]Masahiro Kawazawa, Sho Sakaino, Toshiaki Tsuji:
High Backdrivability Control Based on Estimation of Shaft Torsion Using Load Side Angle Sensor. IECON 2018: 5457-5462 - [c56]Tsuyoshi Adachi, Kazuki Fujimoto, Sho Sakaino, Toshiaki Tsuji:
Imitation Learning for Object Manipulation Based on Position/Force Information Using Bilateral Control. IROS 2018: 3648-3653 - [i2]Tomoya Kitamura, Yuu Hasegawa, Sho Sakaino, Toshiaki Tsuji:
Estimation of Relationship between Stimulation Current and Force Exerted during Isometric Contraction. CoRR abs/1811.02795 (2018) - [i1]Tsuyoshi Adachi, Kazuki Fujimoto, Sho Sakaino, Toshiaki Tsuji:
Imitation Learning for Object Manipulation Based on Position/Force Information Using Bilateral Control. CoRR abs/1811.03759 (2018) - 2017
- [j19]Kunihiro Ogata, Tokio Umino, Tsuyoshi Nakayama, Eiichi Ono, Toshiaki Tsuji
Dummy humanoid robot simulating several trunk postures and abdominal shapes - Report of element technologies. Adv. Robotics 31(6): 303-310 (2017) - [j18]Kyo Kutsuzawa
A Control System for a Tool Use Robot: Drawing a Circle by Educing Functions of a Compass. J. Robotics Mechatronics 29(2): 395-405 (2017) - [j17]Naoya Tojo
Estimation of Antagonistic Output Ratios Based on Force Distribution at End Effector of Limb. IEEE Trans. Ind. Electron. 64(2): 1783-1792 (2017) - [j16]Sho Sakaino, Takayuki Furuya, Toshiaki Tsuji
Bilateral Control Between Electric and Hydraulic Actuators Using Linearization of Hydraulic Actuators. IEEE Trans. Ind. Electron. 64(6): 4631-4641 (2017) - [j15]Toshiaki Tsuji
Intrinsic Contact Sensing for Touch Interface With Movable Structure. IEEE Trans. Ind. Electron. 64(9): 7342-7349 (2017) - [c55]Kunihiro Ogata, Tomoki Mita, Toshiaki Tsuji
Gait training assist system of a lower limb prosthetic visualizing muscle activation pattern using a color-depth sensor. ICORR 2017: 216-221 - [c54]Kunihiro Ogata, Yuto Hirabayashi, Keisuke Kubota, Yuri Hasegawa, Toshiaki Tsuji
Rehabilitation for hemiplegia using an upper limb training system based on a force direction. ICORR 2017: 533-538 - [c53]Masashi Sekiya, Toshiaki Tsuji
Inverse estimation of multiple muscle activations based on linear logistic regression. ICORR 2017: 935-940 - [c52]Kenta Tsuda, Koudai Umeda, I. Kota, Sho Sakaino, Toshiaki Tsuji
Analysis on rigidity of hydraulic hoses for electro-hydrostatic actuators. IECON 2017: 2828-2833 - [c51]Daichi Furuta, Kyo Kutsuzawa
Model predictive control based deep neural network for dynamic manipulation. IECON 2017: 5215-5220 - [c50]Kyo Kutsuzawa
Sequence-to-sequence models for trajectory deformation of dynamic manipulation. IECON 2017: 5227-5232 - [c49]Kohei Sekino, Sho Sakaino, Toshiaki Tsuji
Frontal posture control of jumping biped robot using stiffness bias control. IECON 2017: 6727-6732 - [c48]Tomoya Kitamura, Hiroto Mizoguchi, Naoto Mizukami, Sho Sakaino, Toshiaki Tsuji
Chattering reduction of functional electrical stimulation with the smith compensator. IECON 2017: 7577-7582 - [c47]Ryuichiro Koike, Sho Sakaino, Toshiaki Tsuji
Contact point estimation in tactile interface using particle filter. IECON 2017: 8267-8272 - [c46]Kunihiro Ogata, Yuto Hirabayashi, Keisuke Kubota, Toshiaki Tsuji
Home rehabilitation assist robot to facilitate isolated movements for hemiplegia patients. IROS 2017: 527-532 - [c45]Daisuke Okumura, Sho Sakaino, Toshiaki Tsuji
Development of a multistage six-axis force sensor with a high dynamic range. ISIE 2017: 1386-1391 - 2016
- [j14]Toshiaki Tsuji
Motion Matching in Rehabilitation Databases With Force and Position Information. IEEE Trans. Ind. Electron. 63(3): 1935-1942 (2016) - [j13]Toshiaki Tsuji
Dynamic Object Manipulation Considering Contact Condition of Robot With Tool. IEEE Trans. Ind. Electron. 63(3): 1972-1980 (2016) - [c44]Tomoya Kitamura, Naoto Mizukami, Sho Sakaino, Toshiaki Tsuji
Bilateral control using functional electrical stimulation with reaction torque observer. AMC 2016: 160-166 - [c43]Masashi Sekiya, Shota Itoh, Kunihiro Ogata, Toshiaki Tsuji
Estimation of lower-extremity muscle forces by using task-space information. AMC 2016: 382-387 - [c42]Yuto Hirabayashi, Kunihiro Ogata, Yuri Hasegawa, Toshiaki Tsuji
Consideration of force visualization for hemiplegia based on a force direction teaching system. AMC 2016: 394-399 - [c41]Nobuhiro Totsu, Sho Sakaino, Toshiaki Tsuji
A Cooking Support System with Force Visualization Using Force Sensors and an RGB-D Camera. AsiaHaptics 2016: 297-299 - [c40]Shota Itoh, Keisuke Kubota, Kunihiro Ogata, Toshiaki Tsuji
Exercise system for eccentric tibialis anterior contraction to improve ambulatory function. EMBC 2016: 5845-5848 - [c39]Kenta Tsuda, Sho Sakaino, Toshiaki Tsuji
Bilateral control between electric and electro-hydrostatic actuators using feedback modulator. IECON 2016: 506-511 - [c38]Sho Sakaino, Toshiaki Tsuji
Oil leakage and friction compensation for electro-hydrostatic actuator using drive-side and load-side encoders. IECON 2016: 5088-5093 - [c37]Nobuhiro Totsu, Sho Sakaino, Toshiaki Tsuji
Development of a desk-type tactile interface using force sensors and an acceleration sensor. IECON 2016: 6397-6402 - [c36]Kyo Kutsuzawa
Estimation of individual force at three contact points on an end-effector by a six-axis force/torque sensor. IECON 2016: 6409-6414 - [c35]Takeshi Kaneko, Masashi Sekiya, Kunihiro Ogata, Sho Sakaino, Toshiaki Tsuji
Force control of a jumping musculoskeletal robot with pneumatic artificial muscles. IROS 2016: 5813-5818 - [c34]Jun Ohkuma, Ryohei Matsuzaki, Sho Sakaino, Toshiaki Tsuji
Recognition of contact conditions by robots using tools. ISIE 2016: 1144-1149 - 2015
- [j12]Toshiaki Tsuji, Kunihiro Ogata:
Rehabilitation Systems Based on Visualization Techniques: A Review. J. Robotics Mechatronics 27(2): 122-125 (2015) - [c33]Hiroyuki Kawajiri, Sho Sakaino, Hiroto Mizoguchi, Toshiaki Tsuji
Sensorless pedaling torque estimation by front and rear wheels independently driven power assist bicycle. ICM 2015: 364-369 - [c32]Toshiaki Tsuji
Development of an upper limb rehabilitation robot with guidance control by pneumatic artificial muscles. ICM 2015: 426-431 - [c31]Shuhei Iwata, Kunihiro Ogata, Sho Sakaino, Toshiaki Tsuji
Specular reflection removal with high-speed camera for video imaging. IECON 2015: 1735-1740 - [c30]Tatsuki Seki, Sho Sakaino, Toshiaki Tsuji
A method for converting end effectors of various forms into tactile interfaces. IECON 2015: 1759-1764 - [c29]Tomoya Kitamura, Sho Sakaino, Toshiaki Tsuji
Bilateral control using functional electrical stimulation. IECON 2015: 2336-2341 - [c28]Ryoken Miyazaki, Tomohisa Terata, Takahiro Kanno
Compact haptic device using a pneumatic bellows for teleoperation of a surgical robot. IROS 2015: 2018-2023 - [c27]Takeshi Kaneko, Kunihiro Ogata, Sho Sakaino, Toshiaki Tsuji
Impact force control based on stiffness ellipse method using biped robot equipped with biarticular muscles. IROS 2015: 2246-2251 - 2014
- [j11]Toshiaki Tsuji
Introduction to the special section on new emerging technologies in motion control systems - Part I. IEEE Trans. Ind. Electron. 61(2): 982-984 (2014) - [j10]Toshiaki Tsuji
New Emerging Technologies in Motion Control Systems - Part II. IEEE Trans. Ind. Electron. 61(7): 3607-3609 (2014) - [c26]Takeshi Kaneko, Shota Ito, Sho Sakaino, Toshiaki Tsuji
Haptic data compression for rehabilitation databases. AMC 2014: 657-662 - [c25]Sho Sakaino, Toshiaki Tsuji
Position/force decoupled bilateral communication without force controller in slave side by using multirate control. AMC 2014: 717-722 - [c24]Toshiaki Tsuji
A Mounting Foot-Type Force-Sensing Device for a Desk with Haptic Sensing Capability. AsiaHaptics 2014: 191-195 - [c23]Sho Sakaino, Toshiaki Tsuji
Integration of disturbance observer and feedback modulator for dead zone compensation of hydraulic actuator. IECON 2014: 2786-2791 - [c22]Toshiaki Tsuji
Development of a desk-type tactile interface using force sensors. IECON 2014: 5248-5253 - [c21]Toshiaki Tsuji
Development and evaluation of an operation interface for physical therapy devices based on rehabilitation database. IROS 2014: 3543-3548 - 2013
- [j9]Toshiaki Tsuji, Mitsuyuki Yamada, Yasuyoshi Kaneko:
A Robot Measuring Upper Limb Range of Motion for Rehabilitation Database. J. Robotics Mechatronics 25(3): 515-520 (2013) - [c20]Chikara Morito, Tomoyuki Shimono, Naoki Motoi, Yasutaka Fujimoto
Development of a haptic bilateral interface for arm self-rehabilitation. AIM 2013: 804-809 - [c19]Ryohei Matsuzaki, Makoto Kamibayashi, Sho Sakaino, Toshiaki Tsuji
Classification of a hybrid control system for robotic tool use. ICM 2013: 712-717 - [c18]Daiki Takahashi, Takayuki Furuya, Sho Sakaino, Toshiaki Tsuji
Experimental evaluation of bilateral control of velocity control system using electric and hydraulic actuators. IECON 2013: 4120-4125 - [c17]Naoyuki Kurita, Hiroki Hasunuma, Sho Sakaino, Toshiaki Tsuji
Simplified whole-body tactile sensing system using soft material at contact areas. IECON 2013: 4264-4269 - [c16]Toshiaki Tsuji
Stiffness control of a pneumatic rehabilitation robot for exercise therapy with multiple stages. IROS 2013: 1480-1485 - 2012
- [c15]Tomonori Yokoo, Mitsuyuki Yamada, Sho Sakaino, Shigeru Abe, Toshiaki Tsuji
Development of a physical therapy robot for rehabilitation databases. AMC 2012: 1-6 - [c14]Sho Sakaino, Toshiaki Tsuji
An extended Jacobian matrix and multirate control for bilateral control between different time resolution systems. IECON 2012: 2656-2661 - [c13]Toshiaki Tsuji
High bandwidth attitude control based on musculoskeletal system with biarticular muscles. IECON 2012: 5428-5433 - [c12]Naoyuki Kurita, Sho Sakaino, Toshiaki Tsuji
Whole-body force sensation by force sensor with end-effector of arbitrary shape. IROS 2012: 5428-5433 - 2011
- [c11]Toshiaki Tsuji
Real-time personal identification based on haptic information. ICRA 2011: 1354-1359 - 2010
- [j8]Kenji Natori, Toshiaki Tsuji
Time-Delay Compensation by Communication Disturbance Observer for Bilateral Teleoperation Under Time-Varying Delay. IEEE Trans. Ind. Electron. 57(3): 1050-1062 (2010) - [c10]Toshiaki Tsuji
A model of antagonistic triarticular muscle mechanism for lancelet robot. AMC 2010: 496-501 - [c9]Ryosuke Hanyu, Toshiaki Tsuji
A simplified whole-body haptic sensing system with multiple supporting points. AMC 2010: 691-696 - [c8]Toshiaki Tsuji
Specular reflection removal on high-speed camera for robot vision. ICRA 2010: 1542-1547 - [c7]Toshiaki Tsuji
Fault tolerance measurement using a six-axis force/torque sensing system with redundancy. IROS 2010: 1890-1895 - [c6]Toshiaki Tsuji
High-speed stroboscope for specular reflection removal of DC illumination. IROS 2010: 2704-2709 - [c5]Ryosuke Hanyu, Toshiaki Tsuji
Command recognition based on haptic information for a robot arm. IROS 2010: 4662-4667
2000 – 2009
- 2009
- [j7]Toshiaki Tsuji
A Wide-Range Velocity Measurement Method for Motion Control. IEEE Trans. Ind. Electron. 56(2): 510-519 (2009) - [j6]Toshiaki Tsuji
Whole-Body Force Sensation by Force Sensor With Shell-Shaped End-Effector. IEEE Trans. Ind. Electron. 56(5): 1375-1382 (2009) - [c4]Toshiaki Tsuji
Command recognition by haptic interface on human support robot. IROS 2009: 3178-3183 - 2008
- [j5]Hiroshi Kobayashi, Toshiaki Tsuji, Yukinari Awano, Katsumi Mizuno, Hiroshi Kawamura, Zenichi Onuki, Aki Ishimaru:
Development of the Breast Pump with a Baby-Like Peristaltic Motion. J. Robotics Mechatronics 20(3): 456-465 (2008) - 2007
- [j4]Mariko Mizuochi, Toshiaki Tsuji
Multirate Sampling Method for Acceleration Control System. IEEE Trans. Ind. Electron. 54(3): 1462-1471 (2007) - [j3]Eijirou Ohashi, Takahiro Aiko, Toshiaki Tsuji
Collision Avoidance Method of Humanoid Robot With Arm Force. IEEE Trans. Ind. Electron. 54(3): 1632-1641 (2007) - [j2]Toshiaki Tsuji
A Controller Design Method Based on Functionality. IEEE Trans. Ind. Electron. 54(6): 3335-3343 (2007) - [c3]Takuya Hashimoto
Realization and Evaluation of Realistic Nod with Receptionist robot SAYA. RO-MAN 2007: 326-331 - [c2]Hiroshi Kobayashi, Hidetoshi Suzuki, Hirokazu Nozaki, Toshiaki Tsuji
Development of Power Assist System for Manual Worker by Muscle Suit. RO-MAN 2007: 332-337 - 2001
- [c1]Hiroshi Kobayashi, Yoshiro Ichikawa, Toshiaki Tsuji, Kohki Kikuchi:
Development on face robot for real facial expressions. IROS 2001: 2215-2220
1990 – 1999
- 1994
- [j1]Hisakazu Kotani, Hironori Akamatsu, Yasushi Naito, Toyokazu Fujii, Tohru Iwata, Toshiaki Tsuji, Yutaka Itoh, Norisato Shimizu, Junji Hirase, Yoshiyuki Shibata, Kazuhiro Yamashita, Takashi Hori, Tsutomu Fujita:
A 256-Mb DRAM with 100 MHz serial I/O ports for storage of moving pictures. IEEE J. Solid State Circuits 29(11): 1310-1316 (1994)
Coauthor Index
[j43] [c84] [i19] [j41] [i16] [j40] [j39] [j38] [j36] [j35] [j34] [i14] [i13] [i12] [j32] [j31] [j30] [j29] [c82] [c81] [c80] [c79] [c78] [i11] [i10] [i9] [i8] [j28] [j27] [j26] [c77] [c76] [i7] [i6] [j25] [j22] [c73] [c72] [c70] [c69] [c68] [c67] [c66] [i5] [i4] [i3] [j21] [j20] [c65] [c64] [c63] [c62] [c61] [c60] [c59] [c58] [c57] [c56] [i2] [i1] [j18] [j16] [j15] [c52] [c51] [c50] [c49] [c48] [c47] [c45] [j14] [j13] [c44] [c41] [c39] [c38] [c37] [c36] [c35] [c34] [c33] [c32] [c31] [c30] [c29] [c27] [c26] [c25] [c24] [c23] [c22] [c21] [c19] [c18] [c17] [c16] [c15] [c14] [c13] [c12]
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