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Main Authors: Muhammad Luthfi Fauzam, Mohamad Sukram Mohamad, Muhammad Adammi Amir, Liziana Kamarul Zaman, Azmahani Yaacob@Othman, Siti Farah Haryatie Mohd Kanafiah, Norshaieda Abdullah@Adnan, Mariam Setapa
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Published: Zenodo 2025
Online Access:https://doi.org/10.5281/zenodo.16022412
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author Muhammad Luthfi Fauzam
Mohamad Sukram Mohamad
Muhammad Adammi Amir
Liziana Kamarul Zaman
Azmahani Yaacob@Othman
Siti Farah Haryatie Mohd Kanafiah
Norshaieda Abdullah@Adnan
Mariam Setapa
author_facet Muhammad Luthfi Fauzam
Mohamad Sukram Mohamad
Muhammad Adammi Amir
Liziana Kamarul Zaman
Azmahani Yaacob@Othman
Siti Farah Haryatie Mohd Kanafiah
Norshaieda Abdullah@Adnan
Mariam Setapa
contents <p><span lang="EN-US">Traditional computer mice, while long-standing tools in digital navigation, present limitations in ergonomics, accessibility, and adaptability to modern computing demands. Issues such as repetitive strain injuries (RSI), lack of support for users with physical disabilities, and inefficiencies in sterile or space-constrained environments highlight the urgent need for a more intuitive, inclusive, and ergonomic input device. The Fingerband Mouse introduces a transformative solution to these challenges by replacing the conventional mouse with a sensor-equipped armband that translates natural hand and finger gestures into digital commands. The device offers high-precision control, customizable gestures, and wireless connectivity by utilising advanced motion detection technologies such as accelerometers, gyroscopes, and magnetometers. The device provides a hands-free and seamless human-computer interaction experience. Its design prioritises comfort, adaptability, and battery efficiency, supported by intelligent learning algorithms for personalised use. The device shows significant potential for commercialisation, particularly in healthcare, gaming, virtual reality, and office productivity markets. It enhances accessibility for disabled users, promotes sterility in clinical environments, improves creative control for professionals, and delivers immersive experiences for gamers. Currently in the prototype phase, the Fingerband Mouse is undergoing optimisation and testing, with promising prospects for mass production and market entry. By redefining how users interact with digital systems, this innovation exemplifies the convergence of technology management and human-centred design, offering a scalable, inclusive, and futuristic solution to modern computing challenges.</span></p>
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publishDate 2025
publisher Zenodo
record_format zenodo
spellingShingle The Finger-band Mouse and the Future of Human-Computer Interaction
Muhammad Luthfi Fauzam
Mohamad Sukram Mohamad
Muhammad Adammi Amir
Liziana Kamarul Zaman
Azmahani Yaacob@Othman
Siti Farah Haryatie Mohd Kanafiah
Norshaieda Abdullah@Adnan
Mariam Setapa
<p><span lang="EN-US">Traditional computer mice, while long-standing tools in digital navigation, present limitations in ergonomics, accessibility, and adaptability to modern computing demands. Issues such as repetitive strain injuries (RSI), lack of support for users with physical disabilities, and inefficiencies in sterile or space-constrained environments highlight the urgent need for a more intuitive, inclusive, and ergonomic input device. The Fingerband Mouse introduces a transformative solution to these challenges by replacing the conventional mouse with a sensor-equipped armband that translates natural hand and finger gestures into digital commands. The device offers high-precision control, customizable gestures, and wireless connectivity by utilising advanced motion detection technologies such as accelerometers, gyroscopes, and magnetometers. The device provides a hands-free and seamless human-computer interaction experience. Its design prioritises comfort, adaptability, and battery efficiency, supported by intelligent learning algorithms for personalised use. The device shows significant potential for commercialisation, particularly in healthcare, gaming, virtual reality, and office productivity markets. It enhances accessibility for disabled users, promotes sterility in clinical environments, improves creative control for professionals, and delivers immersive experiences for gamers. Currently in the prototype phase, the Fingerband Mouse is undergoing optimisation and testing, with promising prospects for mass production and market entry. By redefining how users interact with digital systems, this innovation exemplifies the convergence of technology management and human-centred design, offering a scalable, inclusive, and futuristic solution to modern computing challenges.</span></p>
title The Finger-band Mouse and the Future of Human-Computer Interaction
url https://doi.org/10.5281/zenodo.16022412