Implementation and Comparison of Wearable Exoskeleton Arm Design with Fuzzy Logic and Machine Learning Control

Ersin, Çağatay; Yaz, Mustafa

doi:10.1155/2024/6808322

Journal of Sensors

2024

DOI: 10.1155/2024/6808322

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Implementation and Comparison of Wearable Exoskeleton Arm Design with Fuzzy Logic and Machine Learning Control

Çağatay Ersin,

Mustafa Yaz

Abstract: In this study, a wearable exoskeleton arm was designed and controlled with different control methods to help people with muscle disorders in their arms and support treatment. The developed robot arm was transferred to Simulink software with the Simmechanics application. Two electromyography (EMG) muscle sensors and the ADXL335 position and acceleration sensors attach to the human arm’s biceps and triceps muscle areas. As the human moved the arm, data were obtained from the EMG muscle sensors and the ADXL335 po… Show more

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Cited by 2 publications

References 46 publications

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Passive and Active Exoskeleton Solutions: Sensors, Actuators, Applications, and Recent Trends

Preethichandra,

Piyathilaka,

Sul

et al. 2024

Sensors

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Recent advancements in exoskeleton technology, both passive and active, are driven by the need to enhance human capabilities across various industries as well as the need to provide increased safety for the human worker. This review paper examines the sensors, actuators, mechanisms, design, and applications of passive and active exoskeletons, providing an in-depth analysis of various exoskeleton technologies. The main scope of this paper is to examine the recent developments in the exoskeleton developments and their applications in different fields and identify research opportunities in this field. The paper examines the exoskeletons used in various industries as well as research-level prototypes of both active and passive types. Further, it examines the commonly used sensors and actuators with their advantages and disadvantages applicable to different types of exoskeletons. Communication protocols used in different exoskeletons are also discussed with the challenges faced.

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Passive and Active Exoskeleton Solutions: Sensors, Actuators, Applications, and Recent Trends

Preethichandra,

Piyathilaka,

Sul

et al. 2024

Sensors

View full text Add to dashboard Cite

show abstract

An sEMG Signal-based Robotic Arm for Rehabilitation applying Fuzzy Logic

Nguyen,

Dao,

Nguyen

et al. 2024

Eng. Technol. Appl. Sci. Res.

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The recent surge in biosignal-based control signifies a profound paradigm shift in biomedical engineering. This innovative approach has injected new life into control theory, ushering in advancements in human-body interaction and control. Surface Electromyography (sEMG) emerges as a pivotal biosignal, attracting considerable attention for its wide-ranging applications across medicine, science, and engineering, particularly in the domain of functional rehabilitation. This study delves into the use of sEMG signals for controlling a robotic arm, with the overarching aim of improving the quality of life for people with disabilities in Vietnam. Raw sEMG signals are acquired via appropriate sensors and subjected to a robust processing methodology involving analog-to-digital conversion, band-pass and low-pass filtering, and envelope detection. To demonstrate the efficacy of the processed sEMG signals, this study introduces a robotic arm model capable of mimicking intricate human finger movements. Employing a fuzzy logic control strategy, the robotic arm demonstrates successful operation in experimental trials, characterized by swift response times, thereby positioning it as a valuable assistive device for people with disabilities. This investigation not only validates the feasibility of sEMG-based control for robotic arms, but also underscores its potential to significantly improve the lives of individuals with disabilities, a demographic that represents a substantial portion (approximately 8%) of the Vietnamese population.

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Implementation and Comparison of Wearable Exoskeleton Arm Design with Fuzzy Logic and Machine Learning Control

Cited by 2 publications

References 46 publications

Passive and Active Exoskeleton Solutions: Sensors, Actuators, Applications, and Recent Trends

Passive and Active Exoskeleton Solutions: Sensors, Actuators, Applications, and Recent Trends

An sEMG Signal-based Robotic Arm for Rehabilitation applying Fuzzy Logic

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