English

Biometric-enabled Personalized Augmentative and Alternative Communications

Human-Computer Interaction 2026-03-09 v1 Computers and Society

Abstract

This study focuses on the roadmapping of biometric technologies onto personalized Augmentative and Alternative Communication (AAC), a branch of assistive technologies for people with communication disabilities. This technology roadmapping revolves around the proposed notions of an AAC biometric register and biometric-enabled reconfigurable AAC channels. The biometric register is referred to as a tool for acquiring and processing physiological and behavioural traits that are essential for augmentative and alternative communication. It links biometric traits, such as gestures, to intermediate traits, such as synthesized speech, for customizable communication channels. The proposed methodology is used to assess the gaps between the social and practical demands, such as assisting people with communication disabilities in the contemporary semi-automated border control, and the emerging advances in AI, such as advanced video and speech processing. We provide two case studies of the AAC that rely on hand gesture recognition and sign language word recognition, and conclude that the current accuracy of those AI technologies does not meet the practical requirements. The proposed roadmapping provides recommendations for further improvement to close these gaps.

Keywords

Cite

@article{arxiv.2603.05512,
  title  = {Biometric-enabled Personalized Augmentative and Alternative Communications},
  author = {S. Yanushkevich and E. Berepiki and P. Ciunkiewicz and V. Shmerko and G. Wolbring and R. Guest},
  journal= {arXiv preprint arXiv:2603.05512},
  year   = {2026}
}

Comments

20 pages, 14 figures, preprint for accepted paper to CVIU

R2 v1 2026-07-01T11:05:29.496Z