Arduino Empowered: Smart Glove Review and Analysis

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Year : June 15, 2024 at 11:40 am | [if 1553 equals=””] Volume :11 [else] Volume :11[/if 1553] | [if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] : 01 | Page : –

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Amol Nivrutti Godase, Akshay Santosh Shinde, Yash Navnath Shinde, Anil Jagannath Karanavar, Aditya Appa Devkule

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  1. Professor, Student, Student, Student, Student Department of Electrical Engineering, SKN Sinhgad College of Engineering Pandharpur, Department of Electrical Engineering, SKN Sinhgad College of Engineering Pandharpur, Department of Electrical Engineering, SKN Sinhgad College of Engineering Pandharpur, Department of Electrical Engineering, SKN Sinhgad College of Engineering Pandharpur, Department of Electrical Engineering, SKN Sinhgad College of Engineering Pandharpur Maharashtra, Maharashtra, Maharashtra, Maharashtra, Maharashtra India, India, India, India, India

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Abstract

nIn recent years, there has been a growing interest in wearable technology, particularly in the realm of human-computer interaction (HCI). Smart gloves, equipped with various sensors and actuators, have emerged as a promising interface for facilitating seamless interaction between humans and digital devices. This paper presents the development of Arduino-based smart gloves designed to augment conventional HCI methods by incorporating gesture recognition and tactile feedback capabilities. The smart gloves feature an array of sensors, including flex sensors, accelerometers, and gyroscopes, strategically integrated into the glove fabric to capture hand movements accurately. These sensors detect finger flexion, hand orientation, and gesture patterns, enabling intuitive and precise control over connected devices. The Arduino microcontroller processes the sensor data in real-time, implementing algorithms for gesture recognition and mapping specific gestures to predefined commands or actions. Moreover, smart gloves are enhanced with haptic feedback modules, such as vibrotactile motors, to provide users with tactile sensations corresponding to interactions with digital interfaces. This tactile feedback enriches the user experience by offering confirmation and guidance during interactions, thus improving usability and accessibility, especially in scenarios where visual or auditory feedback may be limited or impractical.

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Keywords: Flex sensor, Arduino, Hand Gloves, microcontroller, Internet of things (IoT)

n[if 424 equals=”Regular Issue”][This article belongs to Journal of Microcontroller Engineering and Applications(jomea)]

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[/if 424][if 424 equals=”Special Issue”][This article belongs to Special Issue under section in Journal of Microcontroller Engineering and Applications(jomea)][/if 424][if 424 equals=”Conference”]This article belongs to Conference [/if 424]

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How to cite this article: Amol Nivrutti Godase, Akshay Santosh Shinde, Yash Navnath Shinde, Anil Jagannath Karanavar, Aditya Appa Devkule. Arduino Empowered: Smart Glove Review and Analysis. Journal of Microcontroller Engineering and Applications. May 31, 2024; 11(01):-.

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How to cite this URL: Amol Nivrutti Godase, Akshay Santosh Shinde, Yash Navnath Shinde, Anil Jagannath Karanavar, Aditya Appa Devkule. Arduino Empowered: Smart Glove Review and Analysis. Journal of Microcontroller Engineering and Applications. May 31, 2024; 11(01):-. Available from: https://journals.stmjournals.com/jomea/article=May 31, 2024/view=0

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Volume 11
[if 424 equals=”Regular Issue”]Issue[/if 424][if 424 equals=”Special Issue”]Special Issue[/if 424] [if 424 equals=”Conference”][/if 424] 01
Received May 3, 2024
Accepted May 18, 2024
Published May 31, 2024

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