Design of Portable Power Maintenance Products Based on Human-Computer Interaction

Abstract

The construction of the new power system has made power operation and maintenance increasingly complex. The traditional operation methods can no longer meet the requirements of high efficiency and high safety. Based on the operation scenarios of the frontline power operation, this paper studies and designs a portable operation terminal based on human-computer interaction logic. After in-depth analysis of the operation behaviors and cognitive psychology of the operation personnel, a system framework consisting of hardware human engineering, graphic interface visual communication, and multimodal interaction feedback is obtained. During the product design process, the grip stability of the terminal in extreme environments, the comfort of wearing, and the touch and voice interaction strategies under complex electromagnetic interference were mainly studied. Through the research, it is known that the improved interaction design can effectively reduce the cognitive burden of the operation personnel, reduce the risk of misoperation, and enhance the accuracy of power fault diagnosis and data collection. The research in this paper provides rigorous theoretical basis and design practice references for the intelligent and humanized transformation of special portable equipment in the power industry.