Computationally fast estimation of muscle tension for realtime Bio-feedback

Murai, Akihiko; Kurosaki, Kosuke; Yamane, Katsu; Nakamura, Yoshihiko

doi:10.1109/iembs.2009.5334504

Cited by 11 publications

(8 citation statements)

References 16 publications

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“…Several studies have been made on apparatuses which use EMG. In the past few years, various efforts have been made to measure and visualize human motion by utilizing electrophysiological techniques or motion capture [4]. However, those systems usually require large space or special equipment available only in a limited areas.…”

Section: Introductionmentioning

confidence: 99%

BioTones: A wearable device for EMG auditory biofeedback

Tsubouchi

Suzuki

2010

2010 Annual International Conference of the IEEE Engineering in Medicine and Biology

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In this paper, we introduce a novel technology to convert bioelectrical signals into sound and its application in biofeedback. The surface electromyogram is adopted as the bioelectrical signal and converted into an auditory signal. The sound conversion occurs inside a wearable device. In general, visual feedback can provide more information than acoustic feedback, however, we assume that the latter can represent bioelectrical signals as well as the visual medium. We have been investigating auditory conversion methods and analyze how they were perceived by several subjects. We also investigated the auditory ability of humans from an acousticopsychological point of view. According to the results of this examination, the acoustic sense has the ability to gather enough information to cognize the bioelectrical signal. Another important point we analyzed was whether a conversion algorithm should map multiple bioelectrical signals into sounds signals at once or sequentially.

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Section: Introductionmentioning

confidence: 99%

BioTones: A wearable device for EMG auditory biofeedback

Tsubouchi

Suzuki

2010

2010 Annual International Conference of the IEEE Engineering in Medicine and Biology

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“…It would help a lot to decrease the actuation redundancy problem. Muscle grouping to realize real-time computation is already implemented in [20]. Muscle grouping concept would help also for systematical detection of high correlated motion in torque-muscle force mapping.…”

Section: Discussionmentioning

confidence: 99%

Muscle strength and Mass Distribution Identification toward subject-specific musculoskeletal modeling

Hayashibe

Venture²,

Ayusawa

et al. 2011

2011 IEEE/RSJ International Conference on Intelligent Robots and Systems

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In current biomechanics approach, the assumptions are commonly used in body-segment parameters and muscle strength parameters due to the difficulty in accessing those subject-specific values. Especially in the rehabilitation and sports science where each subject can easily have quite different anthropometry and muscle condition due to disease, age or training history, it would be important to identify those parameters to take benefits correctly from the recent advances in computational musculoskeletal modeling. In this paper, Mass Distribution Identification to improve the joint torque estimation and Muscle Strength Identification to improve the muscle force estimation were performed combined with previously proposed methods in muscle tension optimization. This first result highlights that the reliable muscle force estimation could be extracted after these identifications. The proposed framework toward subject-specific musculoskeletal modeling would contribute to a patient-oriented computational rehabilitation.

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“…As a way of displaying additional information with kinetic information, there are two ways as visualization [16] [17] and sonification [18] [19]. These methods make it easier for learners to know their own motion by converting kinetic information to vision or sound that cannot be observed in a usual way.…”

Section: Detecting Error Of Motion and Modifying Motionmentioning

confidence: 99%

Optimization for inducing multi-degree of freedom motion by information presentation of one degree of freedom

Kumakura¹,

Hashimoto²,

Kondo³

et al. 2012

2012 IEEE/SICE International Symposium on System Integration (SII)

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When human exercises multi-degrees of freedom (DOF) motion, they just pay attention to only part of the body motion and can control the whole body motion. By consciously adjusting low-DOF movements, it is possible to induce multi-DOF motion, which is referred as a "knack" in the sport. Acquiring knacks can drastically improve multi-DOF motor skills by low-DOF information presentation, and it is also used in motor learning. We consider that "knack" is "what induces multi-DOF motion by low-DOF information presentation" and "what improves motor skills". In this study, we investigated whether multi-DOF motion can be induced by single-DOF information presentation, that is sound frequency, and whether motor skills are improved through our human experiments.

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Computationally fast estimation of muscle tension for realtime Bio-feedback

Cited by 11 publications

References 16 publications

BioTones: A wearable device for EMG auditory biofeedback

BioTones: A wearable device for EMG auditory biofeedback

Muscle strength and Mass Distribution Identification toward subject-specific musculoskeletal modeling

Optimization for inducing multi-degree of freedom motion by information presentation of one degree of freedom

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