Design and control of an upper limb rehabilitation support device for disabled people using a pneumatic cylinder

Kirihara, Koichi; Saga, Norihiko; Saito, Naoki

doi:10.1108/01439911011044813

Cited by 14 publications

(9 citation statements)

References 20 publications

(17 reference statements)

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“…Robotics is increasingly used in poststroke upper extremity rehabilitation [14]. With regard to the upper extremity rehabilitation robot, studies have greatly contributed to the system mechanism design [15, 16], control method [17, 18], rehabilitation training method [19], visual feedback, and so on [20]. The aim of developing motion-rehabilitation training robots is to help patients affected with motor disability relearn motion skills based on the experience-dependent neural plasticity with robot-aided motion training.…”

Section: Introductionmentioning

confidence: 99%

Experimental Study on Upper-Limb Rehabilitation Training of Stroke Patients Based on Adaptive Task Level: A Preliminary Study

Pan

Song

Wang

et al. 2019

BioMed Research International

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During robot-aided motion rehabilitation training, inappropriate difficulty of the training task usually leads the subject becoming bored or frustrated; therefore, the difficulty of the training task has an important influence on the effectiveness of training. In this study, an adaptive task level strategy is proposed to intelligently serve the subject with a task of suitable difficulty. To make the training task attractive and continuously stimulate the patient's training enthusiasm, diverse training tasks based on grabbing game with visual feedback are developed. Meanwhile, to further enhance training awareness and inculcate a sense of urgency, a dynamic score feedback method is used in the design of the training tasks. Two types of experiments, functional and clinical rehabilitation experiments, were performed with a healthy adult and two recruited stroke patients, respectively. The experimental results suggest that the proposed adaptive task level strategy and dynamic score feedback method are effective strategies with respect to incentive function and rehabilitation efficacy.

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Section: Introductionmentioning

confidence: 99%

Experimental Study on Upper-Limb Rehabilitation Training of Stroke Patients Based on Adaptive Task Level: A Preliminary Study

Pan

Song

Wang

et al. 2019

BioMed Research International

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“…Active-assistive therapy involves applying an external force by a therapist or robot to help the patient fulfil the appointed task [16]. It is also used to improve the range of motion [17]. Active-assistive therapy was applied to a patient with an impaired shoulder and elbow, where the patient was asked to reach a specific target, and the attached robot helped the patient complete the task ( Figure 2) [18].…”

Section: Active Therapymentioning

confidence: 99%

A Review on Upper Limb Rehabilitation Robots

2020

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Rehabilitation is the process of treating post-stroke consequences. Impaired limbs are considered the common outcomes of stroke, which require a professional therapist to rehabilitate the impaired limbs and restore fully or partially its function. Due to the shortage in the number of therapists and other considerations, researchers have been working on developing robots that have the ability to perform the rehabilitation process. During the last two decades, different robots were invented to help in rehabilitation procedures. This paper explains the types of rehabilitation treatments and robot classifications. In addition, a few examples of well-known rehabilitation robots will be explained in terms of their efficiency and controlling mechanisms.

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“…Figure 2 presents the outline drawing of the device designed previously [4]. Table 1 shows the dimensions of each part, which were obtained based on human body data [17] and human dynamics data [18].…”

Section: Upper Limb Supporting Devicementioning

confidence: 99%

Development of a Meal Support Device for Functional Recovery Using EMG Signals

Saga¹,

Umeki²,

Saito³

et al. 2020

IEEE Access

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This paper describes a device to support a patient's motion of their upper limbs. The device has three functions in a single system: power assistance, rehabilitation, and meal support. The former two functions have been described in a previous study. In this paper, designs and evaluations of the meal supporting function considering maintaining residual muscular strength are presented. The mechanical design is based on human body statistical data. The controller consists of an electromyogram signal-based interface used for maintaining muscular strength. We evaluate the effectiveness of the meal supporting mode through some experimentation.

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Design and control of an upper limb rehabilitation support device for disabled people using a pneumatic cylinder

Cited by 14 publications

References 20 publications

Experimental Study on Upper-Limb Rehabilitation Training of Stroke Patients Based on Adaptive Task Level: A Preliminary Study

Experimental Study on Upper-Limb Rehabilitation Training of Stroke Patients Based on Adaptive Task Level: A Preliminary Study

A Review on Upper Limb Rehabilitation Robots

Development of a Meal Support Device for Functional Recovery Using EMG Signals

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