The Beyond 5G (B5G) Era of Next-Generation Digital Networks: Preliminary Study of a Task-Technology Fit (TTF) Model for Remote Robotic Surgery Applications

Maradona Gatara; Mjumo Mzyece; Sijo Parekattil; Sijo Parekattil

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Paper

The Beyond 5G (B5G) Era of Next-Generation Digital Networks: Preliminary Study of a Task-Technology Fit (TTF) Model for Remote Robotic Surgery Applications

Topics: Decision Support Systems; Design and Development of Methodologies for Healthcare IT; Evaluation and Use of Healthcare IT; Human-Machine Interaction in Healthcare IT; Human-Machine Interfaces; Physiological and Behavioral Modeling; Telehealth ; Usability and UX of Healthcare IT

In Proceedings of the 17th International Joint Conference on Biomedical Engineering Systems and Technologies - Volume 2: , 112-122, 2024 , Rome, Italy

Authors: Maradona Gatara ¹ ; Mjumo Mzyece ² and Sijo Parekattil ^{3

;

4}

Affiliations: ¹ Independent Researcher, South Africa ; ² Business & Economics Department, Northwestern College, Orange City, Iowa, U.S.A. ; ³ College of Medicine, University of Central Florida, Florida, U.S.A. ; ⁴ Avant Concierge Urology, Winter Garden, Florida, U.S.A.

Keyword(s): Beyond 5G (B5G), Task-Technology Fit (TTF), Predictive Modelling, Haptic-Enabled Internet of Skills (IoS), Remote-Robotic Surgery Applications, Human-in-the-Loop (HITL), Minimally Invasive Surgery (MIS), Health Informatics.

Abstract: The coming Beyond 5G (B5G) era could mark a paradigm shift towards user-centric Quality of Experience (QoE) centred network architectures. The infusion of QoE user requirements into network architectures will be crucial for future ultra-reliable, ultra-low latency haptic-enabled Internet applications. One such application will be the mission-critical use case of remote (tele-haptic) robotic surgery, signifying a transition towards skillset delivery networks that will augment user task performance experience. In extending traditional Quality of Service (QoS)-oriented networks to user focused QoE and with it, Quality of Task (QoT) components, human users in a global control loop (such as robotic surgeons) will be capable of true-to-life immersive remote task performance through the manipulation of objects in real-time, and of transcending geographical distance. In this preliminary study using data elicited from 20 practising robotic surgeons (n = 20), we examine the emergence of a future B5G network and haptic-enabled Internet of Skills (IoS) architecture, applied to the task-sensitive mission-critical use case of remote (tele-haptic) robotic surgery. We conceptualise and demonstrate the use of non-linear Task-Technology Fit (TTF) predictive modelling to empirically assess this futuristic use case, and in doing so, provide a novel QoE/QoT perspective of future B5G communication networks. (More)

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Paper citation in several formats:

Gatara, M.; Mzyece, M. and Parekattil, S. (2024). The Beyond 5G (B5G) Era of Next-Generation Digital Networks: Preliminary Study of a Task-Technology Fit (TTF) Model for Remote Robotic Surgery Applications. In Proceedings of the 17th International Joint Conference on Biomedical Engineering Systems and Technologies - HEALTHINF; ISBN 978-989-758-688-0; ISSN 2184-4305, SciTePress, pages 112-122. DOI: 10.5220/0012384400003657

@conference{healthinf24,
author={Maradona Gatara. and Mjumo Mzyece. and Sijo Parekattil.},
title={The Beyond 5G (B5G) Era of Next-Generation Digital Networks: Preliminary Study of a Task-Technology Fit (TTF) Model for Remote Robotic Surgery Applications},
booktitle={Proceedings of the 17th International Joint Conference on Biomedical Engineering Systems and Technologies - HEALTHINF},
year={2024},
pages={112-122},
publisher={SciTePress},
organization={INSTICC},
doi={10.5220/0012384400003657},
isbn={978-989-758-688-0},
issn={2184-4305},
}

TY - CONF

JO - Proceedings of the 17th International Joint Conference on Biomedical Engineering Systems and Technologies - HEALTHINF
TI - The Beyond 5G (B5G) Era of Next-Generation Digital Networks: Preliminary Study of a Task-Technology Fit (TTF) Model for Remote Robotic Surgery Applications
SN - 978-989-758-688-0
IS - 2184-4305
AU - Gatara, M.
AU - Mzyece, M.
AU - Parekattil, S.
PY - 2024
SP - 112
EP - 122
DO - 10.5220/0012384400003657
PB - SciTePress