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Main Authors: Isiaka, ALU, Esther Samuel, AHMED, Mustafa Umar, Muhammad, Abdullahi Yau, Zainab, Adamu
Format: Recurso digital
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Published: Zenodo 2026
Online Access:https://doi.org/10.5281/zenodo.17810366
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author Isiaka
ALU, Esther Samuel
AHMED, Mustafa Umar
Muhammad, Abdullahi Yau
Zainab, Adamu
author_facet Isiaka
ALU, Esther Samuel
AHMED, Mustafa Umar
Muhammad, Abdullahi Yau
Zainab, Adamu
contents <p>Imagine interfaces that adapt to your stress levels, games that ramp up difficulty with your excitement, or assistive technology that anticipates your frustration. A key physiological signal for these insights is Electrodermal Activity (EDA), often known as Galvanic Skin Response (GSR). Traditionally, measuring EDA involves dedicated electrodes attached to the skin, typically on the fingers or palms. While effective, this<br>approach can be intrusive, cumbersome, and impractical for many real-world interaction scenarios. What if we could infer these valuable signals from the very surfaces we already touch every day ? This is where the innovative concept of integrating "mouse masks" and "finger masks" for simulated EDA from touch sensors comes into play. It’s about turning our common touchpoints into subtle emotional eavesdroppers, without<br>the need for additional hardware. This paper integrates mouse and finger mask contact from the touch sensor of a touch pad to generate a simulated EDA, which proves to be very effective for future research on EDA and Skin Temperature readings.</p>
format Recurso digital
id zenodo_https___doi_org_10_5281_zenodo_17810366
institution Zenodo
language
publishDate 2026
publisher Zenodo
record_format zenodo
spellingShingle Beyond Skin Deep : Integrating 'Mouse' and 'Finger' Masks for Simulated Electrodermal Activity from Touch Sensors
Isiaka
ALU, Esther Samuel
AHMED, Mustafa Umar
Muhammad, Abdullahi Yau
Zainab, Adamu
<p>Imagine interfaces that adapt to your stress levels, games that ramp up difficulty with your excitement, or assistive technology that anticipates your frustration. A key physiological signal for these insights is Electrodermal Activity (EDA), often known as Galvanic Skin Response (GSR). Traditionally, measuring EDA involves dedicated electrodes attached to the skin, typically on the fingers or palms. While effective, this<br>approach can be intrusive, cumbersome, and impractical for many real-world interaction scenarios. What if we could infer these valuable signals from the very surfaces we already touch every day ? This is where the innovative concept of integrating "mouse masks" and "finger masks" for simulated EDA from touch sensors comes into play. It’s about turning our common touchpoints into subtle emotional eavesdroppers, without<br>the need for additional hardware. This paper integrates mouse and finger mask contact from the touch sensor of a touch pad to generate a simulated EDA, which proves to be very effective for future research on EDA and Skin Temperature readings.</p>
title Beyond Skin Deep : Integrating 'Mouse' and 'Finger' Masks for Simulated Electrodermal Activity from Touch Sensors
url https://doi.org/10.5281/zenodo.17810366