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Main Authors: Wang, David, Chen, Wilson, Wang, Tianju, Zhang, Jiale
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2512.05071
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author Wang, David
Chen, Wilson
Wang, Tianju
Zhang, Jiale
author_facet Wang, David
Chen, Wilson
Wang, Tianju
Zhang, Jiale
contents Interactive surfaces have evolved from capacitive touch and IR based systems into a diverse ecosystem of sensing technologies that support rich and expressive human computer interaction. This survey traces that progression, beginning with infrared vision based approaches, such as FTIR and diffuse illumination, and the rise of capacitive touch as the dominant technology in modern devices, to focusing on contemporary modalities including vision and acoustic sensing. New technologies under development are also discussed, including mmWave radar, and vibration based techniques. Each sensing technique is examined in terms of its operating principles, resolution, scalability, and applications, along with discussions of multimodal integration. By comparing tradeoffs between sensing modalities, the survey highlights the technical and design factors that shape interactive surface performance and user experience. The review concludes by identifying persistent challenges, including sensing accuracy, power constraints, and privacy concerns, and outlines how emerging sensing modalities can enable future interactive environments to be ubiquitous and intelligent.
format Preprint
id arxiv_https___arxiv_org_abs_2512_05071
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle The Evolving Landscape of Interactive Surface Sensing Technologies
Wang, David
Chen, Wilson
Wang, Tianju
Zhang, Jiale
Systems and Control
H.5.2; C.3
Interactive surfaces have evolved from capacitive touch and IR based systems into a diverse ecosystem of sensing technologies that support rich and expressive human computer interaction. This survey traces that progression, beginning with infrared vision based approaches, such as FTIR and diffuse illumination, and the rise of capacitive touch as the dominant technology in modern devices, to focusing on contemporary modalities including vision and acoustic sensing. New technologies under development are also discussed, including mmWave radar, and vibration based techniques. Each sensing technique is examined in terms of its operating principles, resolution, scalability, and applications, along with discussions of multimodal integration. By comparing tradeoffs between sensing modalities, the survey highlights the technical and design factors that shape interactive surface performance and user experience. The review concludes by identifying persistent challenges, including sensing accuracy, power constraints, and privacy concerns, and outlines how emerging sensing modalities can enable future interactive environments to be ubiquitous and intelligent.
title The Evolving Landscape of Interactive Surface Sensing Technologies
topic Systems and Control
H.5.2; C.3
url https://arxiv.org/abs/2512.05071