<p>Industrial environments present significant challenges for computer terminals, including peripheral device compatibility, inefficient power management, limited connectivity options as well as inadequate cooling systems. This research study introduces a robust industrial computer terminal system (ICTS) framework designed to address these critical issues, optimizing performance in industrial settings. The proposed ICTS integrates a simulated black annealing (SBA) algorithm to enhance power efficiency, connectivity reliability, and cooling performance. A Simulink model of the ICTS, comprising a display unit, peripheral connectivity module, power management system, and cooling mechanism, was developed and simulated using MATLAB/Simulink. Key performance metrics, such as optimal fitness value, simulation completion time, and system efficiency, were evaluated. Compared to existing industrial terminals like those from ADVANTECH, the optimized ICTS demonstrates clear improvements in power management, peripheral compatibility, connectivity robustness, and cooling efficiency. By leveraging the SBA algorithm for advanced optimization, the ICTS framework creates a more stable, energy-efficient as well as reliable terminal solution tailored for challenging industrial environments.</p>

错误:搜索内容不能为空,请输入英文关键词
错误:关键词超出字数限制,请精简
高级检索

A robust ICTS framework for industrial environments: optimizing power efficiency, connectivity, and cooling with SBA

  • Abeer Aljohani

摘要

Industrial environments present significant challenges for computer terminals, including peripheral device compatibility, inefficient power management, limited connectivity options as well as inadequate cooling systems. This research study introduces a robust industrial computer terminal system (ICTS) framework designed to address these critical issues, optimizing performance in industrial settings. The proposed ICTS integrates a simulated black annealing (SBA) algorithm to enhance power efficiency, connectivity reliability, and cooling performance. A Simulink model of the ICTS, comprising a display unit, peripheral connectivity module, power management system, and cooling mechanism, was developed and simulated using MATLAB/Simulink. Key performance metrics, such as optimal fitness value, simulation completion time, and system efficiency, were evaluated. Compared to existing industrial terminals like those from ADVANTECH, the optimized ICTS demonstrates clear improvements in power management, peripheral compatibility, connectivity robustness, and cooling efficiency. By leveraging the SBA algorithm for advanced optimization, the ICTS framework creates a more stable, energy-efficient as well as reliable terminal solution tailored for challenging industrial environments.