Real-time human-robot interaction and service provision using hybrid intelligent computing framework
Mohammed Albekairi, Meshari D. Alanazi, Turki M. Alanazi, Mohamed Vall O. Mohamed, Khaled Kaaniche, Anis Sahbani, Ali Elrashidi

TL;DR
This paper introduces a new computing model to improve robots' ability to interact with humans and provide efficient, real-time services.
Contribution
The novel Hybrid Intelligent Computing Model (HICM) enhances robotic query processing with improved speed and accuracy.
Findings
HICM reduced calculation time by 8.67%, service time by 15.09%, and failure rates by 7.87%.
The model outperformed existing systems with a 11.8% higher success factor and 14.88% higher matching ratio.
HICM demonstrated greater reliability and efficiency in real-time robotic service delivery.
Abstract
Human-robot interaction has gained significant attention in various domains, including healthcare, customer service, and industrial automation. High computational cost, inefficient service matching, and elevated failure rates in dynamic service contexts are some primary disadvantages of existing query-processing systems. This research introduces a Hybrid Intelligent Computing Model (HICM) to improve robots’ ability to process inquiries autonomously. The goal is to make robots better at responding to human questions in real time with efficient, personalized, and context-specific solutions. Using self-organized computing approaches, robotic agents can reliably provide end-users with services suited to their demands. Due to their autonomous nature, robots must be able to calculate quickly and accurately to provide timely services. To meet these needs, the proposed HICM incorporates a…
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Taxonomy
TopicsIoT and Edge/Fog Computing · Robotics and Automated Systems · AI in Service Interactions
