Journal papers

  • Kang, S., Ishihara, K., Sugimoto, N., Morimoto, J. (2023/11).
    Curriculum-based humanoid robot identification using large-scale human motion database
    Front. Robot. AI, Vol.10
    https://doi.org/10.3389/frobt.2023.1282299
  • Chiyohara, S., Furukawa, J., Noda, T., Morimoto, J., Imamizu, H. (2023/11).
    Proprioceptive short‑term memory in passive motor learning
    Scientific Reports, Vol.13 (1), 20826
    https://doi.org/10.1038/s41598-023-48101-9
  • 細井 雄一郎、紙本 貴之、野田 智之、河口 大洋、寺前 達也、山田 祐歌、辻 哲也、川上 途行 (2023/10).
    異なる異常歩行を呈した小児脳卒中患者二例に対する空気圧人工筋を用いたロボット歩行練習の安全性と有効性に関する予備的検証
    臨床神経生理学, Vol.51 (5), pp.576
    https://doi.org/10.11422/jscn.51.297
  • Kamimoto, T., Hosoi, Y., Tanamachi, K., Yamamoto, R., Yamada, Y., Teramae, T., Noda, T., Kaneko, F., Tsuji, T., Kawakami, M. (2023/08).
    Combined Ankle Robot Training and Robot-assisted Gait Training Improved the Gait Pattern of a Patient with Chronic Traumatic Brain Injury
    Prog. Rehabil. Med., Vol.8
    https://doi.org/10.2490/prm.20230024
  • Jabbari Asl, H., Uchibe, E. (2023/08).
    Online Reinforcement Learning Control of Nonlinear Dynamic Systems: A State-action Value Function Based Solution
    Neurocomputing, Vol.544, 126291
    https://doi.org/10.1016/j.neucom.2023.126291
  • Takai, A., Teramae, T., Noda, T., Ishihara, K., Furukawa, J., Fujimoto, H., Hatakenaka, M., Fujita, N., Jino, A., Hiramatsu, Y., Miyai, I., Morimoto, J. (2023/07).
    Development of split-force-controlled body weight support (SF-BWS) robot for gait rehabilitation
    Front. Hum. Neurosci., Vol.17, 1197380
    https://doi.org/10.3389/fnhum.2023.1197380
  • Jabbari Asl, H., Uchibe, E. (2023/07).
    Reinforcement learning-based optimal control of unknown constrained-input nonlinear systems using simulated experience
    Nonlinear Dynamics, Vol.111 (17), pp.16093–16110
    https://doi.org/10.1007/s11071-023-08688-0
  • 森 公彦、桑原 嵩幸、脇田 正徳、間野 直人、久保 峰鳴、中條 雄太、寺前 達也、野田 智之、長谷 公隆 (2023/05).
    足関節底屈アシスト歩行トレーニングが片麻痺者の内観や麻痺肢推進力に及ぼす影響
    Jpn. J. Rehabil. Med., Vol.60 (Suppl.)
    https://doi.org/10.2490/jjrmc.60.S1077
  • 桑原 嵩幸、森 公彦、久保 峰鳴、間野 直人、中條 雄太、寺前 達也、野田 智之、長谷 公隆 (2023/05).
    片麻痺歩行の立脚期後半における制動力が足関節ロボット底屈アシストのタイミング設定に及ぼす影響
    Jpn. J. Rehabil. Med., Vol.60 (Suppl.)
    https://doi.org/10.2490/jjrmc.60.S1077
  • 新明 俊英、瀧口 述弘、藤島 弘樹、平野 佑典、寺前 達也、野田 智之 (2023/05).
    ロボットアシストを加えたトレッドミル歩行練習により平地歩行速度が向上した一例
    Jpn. J. Rehabil. Med., Vol.60 (Suppl.)
    https://doi.org/10.2490/jjrmc.60.S497
  • Takahashi, Y., Okada, K., Noda, T., Teramae, T., Nakamura, T., Haruyama, K., Okuyama, K., Tsujimoto, K., Mizuno, K., Morimoto, J., Kawakami, M. (2023/01).
    Robotized Knee-Ankle-Foot Orthosis-Assisted Gait Training on Genu Recurvatum during Gait in Patients with Chronic Stroke: A Feasibility Study and Case Report
    Journal of clinical medicine, Vol.12 (2)
    https://doi.org/10.3390/jcm12020415
  • 間野 直人、中條 雄太、森 公彦、桑原 嵩幸、久保 峰鳴、寺前 達也、野田 智之、長谷 公隆 (2022/10).
    足関節アシスト歩行訓練の効果と関係する筋Moduleの特徴
    臨床神経生理学, Vol.50 (5), pp.461
    https://doi.org/10.11422/jscn.50.261
  • 久保 峰鳴、間野 直人、桑原 嵩幸、中條 雄太、森 公彦、森 拓也、寺前 達也、野田 智之、長谷 公隆 (2022/10).
    空気圧人工筋肉付き足関節ロボットを用いた歩行練習が片麻痺歩行に与える影響
    臨床神経生理学, Vol.50 (5), pp.395
    https://doi.org/10.11422/jscn.50.261
  • Yamanokuchi, T., Kwon, Y., Tsurumine, Y., Uchibe, E., Morimoto, J., Matsubara, T. (2022/10).
    Randomized-to-Canonical Model Predictive Control for Real-World Visual Robotic Manipulation
    IEEE Robotics and Automation Letters, Vol..7 (4), pp. 8964-8971
    https://doi.org/10.1109/lra.2022.3189156
  • Uchibe, E. (2022/10).
    Model-Based Imitation Learning Using Entropy Regularization of Model and Policy
    IEEE Robotics and Automation Letters, Vol..7 (4), pp. 8964-8971
    https://doi.org/10.1109/lra.2022.3196139
  • Matsuo, Y., LeCun, Y., Sahani, M., Precup, D., Silver, D., Sugiyama, M., Uchibe, E., Morimoto, J. (2022/08).
    Deep learning, reinforcement learning, and world models
    Neural Networks, Vol.152, pp.267-275
    https://doi.org/10.1016/j.neunet.2022.03.037
  • 桑原 嵩幸、森 公彦、久保 峰鳴、間野 直人、中條 雄太、野田 智之、長谷 公隆 (2022/05).
    片麻痺歩行の麻痺側推進力を増加させる高速度トレッドミルと併用した足関節アシスト歩行練習の介入効果
    Jpn. J. Rehabil. Med., Vol.59 (特別号), S589
  • Zhu, L., Chen, Z., Uchibe, E., Matsubara, T. (2022/05).
    Enforcing KL Regularization in General Tsallis Entropy Reinforcement Learning via Advantage Learning
    Comput. Res. Repos. (CoRR), arXiv:2205.07885
    https://doi.org/10.48550/arXiv.2205.07885
  • 春山 幸志郎、川上 途行、野田 智之、中村 拓也、都築 圭太、奥山 航平、寺前 達也、岡田 紘佑、森本 淳、藤原 俊之 (2021/12).
    慢性期脳卒中者に対する膝-足関節ロボット歩行介入が歩行能力に及ぼす効果 : 単一症例における検討
    理学療法学Supplement, Vol.48 (suppl-1), pp.168
    https://doi.org/10.14900/cjpt.48S1.C-168_1
  • Furukawa, J., Chiyohara, S., Teramae, T., Takai, A., Morimoto, J. (2021/10).
    A Collaborative Filtering Approach Toward Plug-and-Play Myoelectric Robot Control
    IEEE Transactions on Human-Machine Systems, Vol.51 (5), pp.514-523
    https://doi.org/10.1109/THMS.2021.3098115
  • 藤田 暢一、藤本 宏明、平松 佑一、高井 飛鳥、寺前 達也、古川 淳一朗、畠中 めぐみ、神尾 昭宏、野田 智之、森本 淳、宮井 一郎 (2021/03).
    左右独立免荷ロボットを用いたトレッドミル歩行による、脳卒中後片麻痺患者の歩行パターン変容
    理学療法学Supplement, Vol.47 (suppl-1), pp.127
    https://doi.org/10.14900/cjpt.47S1.F-144_2
  • 野田 智之,Yuta CHUJO (2022/04).
    How to decide the number of gait cycles in different low-pass filters to extract motor modules by non-negative matrix factorization during walking in chronic post-stroke patients
    Frontiers in Human Neuroscience April 2022/ Vol.16, Article 803542
    https://doi.org/10.3389/fnhum.2022.803542
  • Furukawa, J., Okajima, S., An, Q., Nakamura, Y., Morimoto, J. (2022/02).
    Selective Assist Strategy by Using Lightweight Carbon Frame Exoskeleton Robot
    Vol.7/ No.2/pp.3890-3897
    https://doi.org/ 10.1109/LRA.2022.3148799
  • Takeshi D. Itoh,Koji Ishihara,Jun Morimoto (2022/01).
    Implicit Contact Dynamics Modeling With Explicit Inertia Matrix Representation for Real-Time, Model-Based Control in Physical Environment
    Neural Computation (2022) 34 (2): 360–377.
    https://doi.org/10.1162/neco_a_01465
  • Takai,A., Fu,Q., Doibata,Y., Lisi, G.,Tsuchiya, T., Mojtahedi,K., Yoshioka,T., Kawato M., Morimoto, J., Santello, M. (2021/12).
    Leaders are made: Learning acquisition of consistent leader-follower relationships depends on implicit haptic interactions.
    bioRxiv(Web)
    https://doi.org/10.1101/2021.12.09.471486
  • Takai,A., Lisi, G., Noda, T., Teramae, T., Imamizu, H., Morimoto,J. (2021/10).
    Bayesian Estimation of Potential Performance Improvement Elicited by Robot-Guided Training
    Frontiers in Neuroscience Vol.15,No.704402
    https://doi.org/10.3389/fnins.2021.704402
  • 石原弘二、 森本淳 (2021/09).
    全身のダイナミクスを考慮した最適制御
    日本ロボット学会誌 39巻 7号 p. 597-600
    https://doi.org/10.7210/jrsj.39.597
  • Macpherson, T., Matsumoto, M., Gomi, H., Morimoto,J., Uchibe,E., Hidaka, T. (2021/09).
    Parallel and hierarchical neural mechanisms for adaptive and predictive behavioral control
    Neural Networks Vol.144, pp.507-521
    https://doi.org/10.1016/j.neunet.2021.09.009
  • Furukawa,J., Chiyohara,S., Teramae,T., Takai,A., Morimoto,J. (2021/08).
    A collaborative filtering approach toward plug-and-play myoelectric robot control
    IEEE Transactions on Human-Machine Systems
    https://10.1109/THMS.2021.3098115
  • Furukawa,J., Morimoto,J.(2021/01).
    Composing an assistive control strategy based on linear bellman combination from estimated user’s motor goal
    IEEE Robotics and Automation Letters Vol.6,No.2,pp.1051-1058
    https://doi.org/10.1109/LRA.2021.3051562
  • Teramae,T., Matsubara,T., Noda,T., Morimoto,J.(2020/10).
    Quaternion-based trajectory optimization of human postures for inducing target
    IEEE Robotics and Automation Letters Vol.5, No.4, pp.6607-6614
    https://doi.org/10.1109/LRA.2020.3015460
  • Uchibe,E., Doya,K.(2020/08).
    Imitation learning based on entropy-regularized forward and inverse reinforcement learning
    arXiv(Web)
    https://arxiv.org/abs/2008.07284
  • Pahic,R., Ridge,B., Gams,A., Morimoto,J., Ude,A.(2020/04).
    Training of deep neural networks for the generation of dynamic movement primitives
    Neural Netowrks Vol.127, pp.121-131
    https://doi.org/10.1016/j.neunet.2020.04.010
  • Ohnishi,S., Uchibe,E., Yamaguchi,Y., Nakanishi,K., Yasui,Y., Ishii,S. (2019/12).
    Constrained deep Q-learning gradually approaching ordinary Q-learning
    Frontiers in Neurorobotics Vol.13, Article 103
    https://doi.org/10.3389/fnbot.2019.00103
  • Ishihara,K., Itoh D.T., Morimoto,J. (2019/10).
    Full-body optimal control toward versatile and agile behaviors in a humanoid robot
    “IEEE Robotics and Automation Letters Vol.5,No.1,pp.119-126”
    https://doi.org/10.1109/LRA.2019.2947001
  • Iwane,F., Lisi,G., Morimoti,J. (2019/08).
    EEG sensorimotor correlates of speed during forearm passive movements
    IEEE Transactions on Neural Systems and Rehabilitation Engineering Vol.27,Issue9, pp.1667-1675
    https://doi.org/10.1109/TNSRE.2019.2934231
  • Hamaya,M., Matsubara,T., Teramae,T., Noda,T., Morimoto,J. (2019/06).
    Design of physical user-robot interactions for model identification of soft
    International Journal of Robotics Research
    https://doi.org/10.1177/0278364919853618
  • Ugurlu B., Forni,P., Doppmann,C., Sariyiliz,E., Morimoto,J. (2019/05).
    Stable control of force, position, and stiffness for robot joints powered via pneumatic muscles
    IEEE Transactions on Industrial Informatics
    https://doi.org/10.1109/TII.2019.2916228
  • Petric,T., Peternel,L., Morimoto,J., Babic,J. (2019/05).
    Assistive arm-exoskeleton control based on human muscular manipulability
    Frontiers in Neurorobotics Vol.13, Article 30
    https://doi.org/10.3389/fnbot.2019.00030
  • Tsurumine, Y.,Cui,Y., Uchibe,E., Matsubara,T. (2018/11).
    Deep reinforcement learning with smooth policy update: application to robotic cloth manipulation
    Robotics and Autonomous Systems Vol.112, pp.72-83
    https://doi.org/10.1016/j.robot.2018.11.004
  • Teramae,T., Ishihara, K., Babic,J., Morimoto,J. Oztop,E. (2018/11).
    Human-in-the-loop control and task learning for pneumatically actuated muscle based robots
    Frontiers in Human-in-the-Loop Robot Control and Learning                  Vol.12, Article 71
    https://doi.org/10.3389/fnbot.2018.00071
  • Uchibe,E. (2018/09).
    Cooperative and competitive reinforcement and imitation learning for a mixture of heterogeneous learning modules
    Frontiers in Neurorobotics Vol.12,Artcle61
    https://doi.org/10.3389/fnbot.2018.00061
  • Ewerton,M., Rother, D., Weimar, O.J., Kollegger,G., Wiemeyer J., Peters, J., Maeda,G (2018/05).
    Assisting movement training and execution with visual and haptic feedback
    Frontiers in Robotics and AI Vol.24, Article 24, pp.1-19
    https://doi.org/10.3389/fnbot.2018.00024
  • Lisi,G., Rivela,D., Takai,A., Morimoto,J. (2018/02).
    Markov switching model for quick detection of event related desynchronization in EEG
    Frontiers in Neuroscience-Neuroprosthetics Vol.12, Article 24
    https://doi.org/10.3389/fnins.2018.00024
  • Ishihara,K., Morimoto,J. (2018/01).
    An optimal control strategy for hybrid actuator systems: application to an artificial muscle with electric motor assist
    Neural Networks Vol.99, pp.92-100
    https://doi.org/10.1016/j.neunet.2017.12.010
  • Gasper,T., Nemec,B., Morimoto,J., Ude,A. (2017/12).
    Skill learning and action recognition by arc-length dynamic movement primitives
    Robotics and Autonomous Systems Vol.100, pp.225-235
    https://doi.org/10.1016/j.robot.2017.11.012
  • Hamaya,M., Tatsubara,T., Noda,T., Teramae,T., Morimoto,J. (2017/11).
    Learning assistive strategies for exoskeleton robots from user-robot physical interaction
    Pattern Recognition Letters Vol.99, pp.67-76
    https://doi.org/10.1016/j.patrec.2017.04.007
  • Kozono,T., Uchibe,E., Doya,K. (2017/10).
    Unifying value iteration, advantage learning, and dynamic policy programming
    arXiv.org(Web) arXiv:1710.10866
    https://arxiv.org/abs/1710.10866
  • Kinjo,K., Uchibe,E., Doya,K. (2017/10).
    Robustness of linearly solvable markov games employing inaccurate dynamics model
    Journal of Artificial Life and Robotics Vol.23,Issue1, pp.1-9
    https://doi.org/10.1007/s10015-017-0401-2
  • Teramae,T., Noda,T., Morimoto,J. (2017/08).
    EMG-based model predictive control for physical human-robot interaction: Application for assist-as-needed control
    IEEE Robotics and Automation Letters(RA-L) Vol.3, No.1, pp.210-217
    https://doi.org/10.1109/LRA.2017.2737478
  • Ichikawa,N., Lisi,G., Yahata,N., Okada,G., Takamura,M., Yamada,M., Suhara,T., Hashimoto,R., Yamada,T., Yoshihara,Y., Takahashi,H., Kasai,K., Kato,N., Yamawaki,S., Kawato,M., Morimoto,J., Okamoto,Y. (2017/04).
    Identifying melancholic depression biomarker using whole-brain functional connectivity
    arXiv.org(Web) arXiv:1704.01039
    https://arxiv.org/abs/1704.01039
  • Furukawa,J., Noda,T., Teramae,T., Morimoto,J. (2017/04).
    Human movement modeling to detect biosignal sensor failures for myoelectric assistive robot control
    IEEE Transactions on Robotics Vol.33, No.4, pp.846-856
    https://ieeexplore.ieee.org/document/7906627
  • Wang,J., Uchibe,E., Doya,K. (2017/01).
    Adaptive baseline enhances EM-based policy search: validation in a view-based positioning task of a smartphone balancer
    Frontiers in Neurorobotics(Web) Vol.11, Article 1
    https://doi.org/10.3389/fnbot.2017.00001
  • Elfwing,S., Uchibe,E., Doya,K. (2016/08).
    From free energy to expected energy:improving energy-based value function approximation in reinforcement learning
    Neural Networks Vol.84,pp.17-27
    https://doi.org/10.1016/j.neunet.2016.07.013
  • 内部英治 (2016/03).
    線形可解マルコフ決定過程を用いた順・逆強化学習
    日本神経回路学会誌 Vol.23, No.1, pp.2-13
    https://doi.org/10.3902/jnns.23.2
  • Sugimoto,N., Tangkaratta,V., Wensveen,T., Zhao,T., Sugiyama,M., Morimoto,J. (2016/02).
    Trial and error: using previous experiences as simulation models in humanoid motor learning
    IEEE Robotics and Automation Magazine Vol.23, Issue 1, pp.96-105
    https://doi.org/10.1109/MRA.2015.2511681
  • Peternel,L., Noda,T., Petric,T., Ude,A., Morimoto,J., Babic,J. (2016/02).
    Adaptive control of exoskeleton robots for periodic assistive behaviours based on EMG feedback minimisation
    PLoS ONE Vol.11, Issue2, e0148942
    https://doi.org/10.1371/journal.pone.0148942
  • Gams,A., Petric,T., Do,M., Nemec,B., Morimoto,J., Asfour,T., Ude,A. (2016/01).
    Adaptation and coaching of periodic motion primitives through physical and visual interaction
    Robotics and Autonomous Systems Vol.75, Part B, pp.340-351
    https://doi.org/10.1016/j.robot.2015.09.011
  • Ugurlu,B., Doppmann,C., Hamaya,M., Forni,P., Teramae,T., Noda,T., Morimoto,J. (2015/06).
    Variable ankle stiffness improves balance control:experiments on a bipedal exoskeleton
    IEEE Transactions on Mechatronics Vol.21,No.1,pp.79-87
    https://doi.org/10.1109/TMECH.2015.2448932
  • Tangkaratt, V., Mori, S., Zhao, T., Mmorimoto, J., Sugiyama, M. (2015).
    Model-based policy gradients with parameter-based exploration by least-squares conditional density estimation
    Neural Networks, Vol.57, 128-140
  • Morimoto, J., Kawato, M. (2015).
    Creating the brain and interacting with the brain:an Integrated approach to understanding the brain
    Journal of the Royal Society Interface, Vol.12, 104, 20141250
  • Furukawa, J., Noda, T., Teramae, T., Morimoto, J. (2015).
    Fault tolerant approach for biosignal-based robot control
    Advanced Robotics, Vol.29, 7, 505-514.
  • Lisi, G., Morimoto, J. (2015).
    EEG single-trial detection of gait speed changes treadmill walk
    PLoS ONE, Vol.10, 4, 1-28.
  • Bouyarmane, K., Vaillant, J., Sugimoto, N., Keith, F., Furukawa, J., Morimoto, J. (2014).
    Brain-machine interfacing control of whole-body humanoid motion
    Frontiers in Systems Neurosciences, Vol.8, 138, 1-10.
  • Lisi, G., Noda, T., Morimoto, J. (2014).
    Decoding the ERD/ERS: influence of afferent input induced by a leg assistive robot
    Frontiers in Neuroscience, Vol.8, 85, 1-12.
  • Furukawa, J., Noda, T., Teramae, T., Morimoto, J. (2014).
    An EMG-driven weight support system with pneumatic artificial muscles
    IEEE Systems Journal, DOI:10.1109/JSYST.2014.2330376.
  • Ugurlu, B., Saglia, J., Tsagarakis, N., Morfey, S., Caldwell, D. (2014).
    Bipedal hopping pattern generation for passively compliant humanoids:exploiting the resonance
    IEEE Transactions on Industrial Electronics, Vol.61, 10, 5431-5443.
  • 森本淳, 杉本徳和 (2013).
    高次元・実環境における強化学習
    計測と制御, Vol.52, 8, 742-748.
  • Zhao, T., Hachiya, H., Tangkaratt, V., Morimoto, J., Sugiyama, M. (2013).
    Efficient sample reuse in policy gradients with parameter-based exploration
    Neural Computation, Vol.25, 6, 1512-1547.
  • Ariki, Y., Hyon, S., Morimoto, J. (2013).
    Extraction of primitive representation from captured human movements and measured ground reaction force to generate physically consistent imitated behaviors
    Neural Networks, Vol.40, 32-43.
  • Matsubara, T., Morimoto, J. (2013).
    Bilinear modeling of EMG Signals to extract user-independent features for multiuser myoelectric interface
    IEEE Transactions on Biomedical Engineering, Vol.60, 8, 2205-2213.
  • 松原崇充, 森本淳 (2013).
    多重時系列データ解析のための正準多重整列法
    電子情報通信学会論文誌D, Vol.J96-D, 2, 298-305.
  • Schiebener, D., Morimoto, J., Asfour, T., Ude, A. (2013).
    Integrating visual perception and manipulation for autonomous learning of object representations
    Adaptive Behavior, Vol.21, 5, 328-345.
  • Manoonpong, P., Kolodziejski, C., Worgotter, F., Morimoto, J. (2013).
    Combining correlation-based and reward-based learning in neural control for policy improvement
    Advances in Complex Systems, Vol.16, 2&3, 1350015-pp.1-38.
  • Forte, D., Gams, A., Morimoto, J., Ude, A. (2012).
    On-line motion synthesis and adaptation using a trajectory database
    Robotics and Autonomous Systems, Vol.60, 10, 1327-1339.
  • 内方章雅, 松原崇充, 森本淳 (2012).
    スタイル-位相適応に基づく周期運動の時空間同期:2足歩行運動への適用
    電子情報通信学会和文論文誌D, J95-D, 7, 1476-1487.
  • Sugimoto, N., Haruno, M., Doya, K., Kawato, M. (2012).
    Mosaic for multiple-reward environments.
    Neural Computation, 24, 3, 577-606.
  • Matsubara, T., Hyon, S., Morimoto, J. (2012).
    Real-time stylistic prediction for whole-body human motions.
    Neural Networks, 25, 191-199.
  • Matsubara, T., Hyon, S., Morimoto, J. (2011).
    Learning parametric dynamic movement primitives from multiple demonstrations.
    Neural Networks, 24, Issue 5, 493-500.
  • 松原崇充, 玄相昊, 森本淳 (2011).
    個性を考慮した周期的全身運動の予測.
    電子情報通信学会論文誌, J94-D, 1, 344-355.
  • Ude, A., Gams, A., Asfour, T., Morimoto, J. (2010).
    Task-specific generalization of discrete and periodic dynamic movement primitives.
    IEEE Transactions on Robotics, 26, 5, 800-815.
  • 玄相昊, 里宇明元 (2010).
    可変重力環境における全身運動制御と等身大ヒト型ロボットを用いた検証.
    バイオメカニズム学会誌, 34, 1, 5-11.
  • 玄相昊 (2009).
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