Muscle Synergy Analysis Under Fast Sit-to-stand Assist : A Preliminary Study

被引:2
|
作者
Ito, Takahide [1 ]
Furukawa, Jun-ichiro [2 ]
An, Qi [3 ]
Morimoto, Jun [1 ]
Nakamura, Yuichi [4 ]
机构
[1] Kyoto Univ, Riken, Kyoto, Japan
[2] Riken, Kyoto, Japan
[3] Univ Tokyo, Tokyo, Japan
[4] Kyoto Univ, Kyoto, Japan
来源
PROCEEDINGS OF THE 4TH AUGMENTED HUMANS INTERNATIONAL CONFERENCE 2023, AHS2023 | 2023年
关键词
human assistance; sit-to-stand; chair robot; muscle synergy;
D O I
10.1145/3582700.3583706
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
With the recent advance in robot technologies and the aging of society, a variety of sit-to-stand (StS) assisting systems have been proposed. In this research, we preliminary measured the performance of the chair assistance that enables StS motions faster movements than conventional assistive chairs. The chair has two actuators for sliding forward and lifting up the seat, and has enough power and speed for enabling fast StS. We analyzed the users' coordination of muscle activities in terms of the muscle synergy through the experiments. The results show that the users can perform natural sit-to-stand in which muscle synergy patterns similar to those without assists appear. It suggests that the chair device potentially enables natural and fast StS that healthy young people commonly perform.
引用
收藏
页码:320 / 322
页数:3
相关论文
共 50 条
  • [41] Muscle thickness contribution to sit-to-stand ability in institutionalized older adults
    A. Mateos-Angulo
    A. Galán-Mercant
    A. I. Cuesta-Vargas
    Aging Clinical and Experimental Research, 2020, 32 : 1477 - 1483
  • [42] Assessment of Sit-to-Stand Movements Using a Single Kinect Sensor: A Preliminary Study in Healthy Subjects
    Zhao, Wenbing
    Espy, Deborah D.
    Reinthal, M. Ann
    INTERNATIONAL JOURNAL OF HEALTHCARE INFORMATION SYSTEMS AND INFORMATICS, 2019, 14 (01) : 29 - 43
  • [43] Muscle thickness contribution to sit-to-stand ability in institutionalized older adults
    Mateos-Angulo, A.
    Galan-Mercant, A.
    Cuesta-Vargas, A. I.
    AGING CLINICAL AND EXPERIMENTAL RESEARCH, 2020, 32 (08) : 1477 - 1483
  • [44] Muscles limiting the sit-to-stand movement An experimental simulation of muscle weakness
    Van der Heijden, Marion M. P.
    Meijer, Kenneth
    Willems, Paul J. B.
    Savelberg, Hans H. C. M.
    GAIT & POSTURE, 2009, 30 (01) : 110 - 114
  • [45] The Role of Muscle Strength in the Sit-to-Stand Task in Parkinson's Disease
    Baizabal-Carvallo, Jose Fidel
    Alonso-Juarez, Marlene
    Fekete, Robert
    PARKINSONS DISEASE, 2023, 2023
  • [46] Leg muscle activation patterns of sit-to-stand movement in stroke patients
    Cheng, PT
    Chen, CL
    Wang, CM
    Hong, WH
    AMERICAN JOURNAL OF PHYSICAL MEDICINE & REHABILITATION, 2004, 83 (01) : 10 - 16
  • [47] Predicting greyhound sit-to-stand muscle dynamics using computer simulation
    Hutchinson, J. R.
    Ellis, R. G.
    Rankin, J. W.
    INTEGRATIVE AND COMPARATIVE BIOLOGY, 2016, 56 : E99 - E99
  • [48] Impedance Modulation Control of a Lower-Limb Exoskeleton to Assist Sit-to-Stand Movements
    Huo, Weiguang
    Moon, Huiseok
    Alouane, Mohamed Amine
    Bonnet, Vincent
    Huang, Jian
    Amirat, Yacine
    Vaidyanathan, Ravi
    Mohammed, Samer
    IEEE TRANSACTIONS ON ROBOTICS, 2022, 38 (02) : 1230 - 1249
  • [49] Sit-to-Stand Assist System by Using Handrail and Electric Bed Moving Up and Down
    Hirata, Yasuhisa
    Higuchi, Jun'ichi
    Hatsukari, Takuro
    Kosuge, Kazuhiro
    2008 2ND IEEE RAS & EMBS INTERNATIONAL CONFERENCE ON BIOMEDICAL ROBOTICS AND BIOMECHATRONICS (BIOROB 2008), VOLS 1 AND 2, 2008, : 187 - 192
  • [50] Electromyographical characteristics and muscle utilization in hemiplegic patients during sit-to-stand activity: an observational study
    Lu, Rong-Rong
    Li, Fang
    Zhu, Bing
    EUROPEAN JOURNAL OF PHYSICAL AND REHABILITATION MEDICINE, 2016, 52 (02) : 186 - 194
12345