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Design and Implementation of Human-Computer Interaction Adjustment in Nuclear Power Monitoring System
Microprocessors and Microsystems ( IF 2.6 ) Pub Date : 2021-02-14 , DOI: 10.1016/j.micpro.2021.104096
Xueyang Liu , Li Zhang

As a new energy source, nuclear energy is a hot topic in the world energy research. Due to its large nuclear reaction energy and serious potential harm, its reaction monitoring system has become an important research topic. This thesis has passed five investigation experiments, including the parameter data comparing the nuclear power reaction related to manual detection and human-computer interaction detection; comparing the differences between the human-computer interaction system and the artificial system that detect the temperature data during the day; and using the human-computer interaction system. The feasibility experiment of human-machine interaction adjustment design in artificial sensor-nuclear power monitoring system for the rise and fall of labor costs before and after detection. The experimental data show that the human-machine interaction detection scheme in the nuclear power monitoring system can be consistent with the manual detection data, and at the same time, the system can be used to ensure its accuracy at all times; and it can significantly reduce the labor cost and use the funds for scientific research. Improvement, at the same time, this scheme is also feasible. The experimental data show that the design of the human-computer interaction detection scheme in the nuclear power monitoring system is conducive to the systematic management of the micro data of the nuclear power reaction, while achieving macro-control, and reducing the labor cost by 80% and increasing the calculation speed value by 70% .The above will also provide a solid technical foundation for the future development of nuclear power.



中文翻译:

核电监控系统中人机交互调整的设计与实现

核能作为一种新能源,已成为世界能源研究的热点。由于其巨大的核反应能量和严重的潜在危害,其反应监测系统已成为重要的研究课题。本文通过了五个调查实验,包括比较与人工检测和人机交互检测有关的核动力反应的参数数据;比较人机交互系统和人工系统之间在白天检测温度数据的差异;并使用人机交互系统。人工传感器-核电监控系统中人机交互调整设计在检测前后人工成本上升和下降的可行性实验。实验数据表明,核电监控系统中的人机交互检测方案可以与人工检测数据保持一致,并且可以始终用于确保其准确性。它可以大大降低人工成本,并将资金用于科学研究。改进的同时,该方案也是可行的。实验数据表明,核电监控系统中人机交互检测方案的设计有利于核电反应微观数据的系统管理,同时实现了宏观控制,降低了人工成本80%。 %,并将计算速度值提高70%。以上内容也将为核电的未来发展提供坚实的技术基础。

更新日期:2021-02-15
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