What question did this study set out to answer?

The aim is to create a user-friendly interface for a prosthetic hand powered by miniature muscles, improving usability and response.

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March 26, 2026Open Access

Development of User Interface for an Externally Powered Forearm Prosthetic Hand Using Flexible Tactile Sensor

Key Points

The aim is to create a user-friendly interface for a prosthetic hand powered by miniature muscles, improving usability and response.
Developed a forearm-powered prosthetic hand using McKibben artificial muscles.
Implemented a flexible tactile sensor for control instead of traditional myoelectric sensors.
Analyzed the structure and driving principles of the prosthetic hand and sensor integration.
Demonstrated improved control of the prosthetic hand through the new tactile sensor interface.
Reduced user fatigue compared to conventional myoelectric controls, leading to better functionality.

Abstract

In this study, we have developed a forearm-powered prosthetic hand for children. This prosthetic hand is actuated by miniature McKibben artificial muscles to open and close its fingers. Previously, the prosthetic hand has been operated using a myoelectric sensor, continuous use would sometimes cause the arm to become fatigued, resulting in a poor response. There were also cases in which the wearer was unable to operate the prosthetic hand due to fatigue. Therefore, we investigated a new user interface using a flexible tactile sensor. This paper reports on the structure and driving principle of the powered prosthetic hand and how it is controlled using the flexible tactile sensor.

Development of User Interface for an Externally Powered Forearm Prosthetic Hand Using Flexible Tactile Sensor

Key Points

Abstract

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