Journal of Electrical Engineering and Automation
Journal of Electrical Engineering and Automation. 2025; 4: (1) ; 10.12208/j.jeea.20250007 .
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宁波高发汽车控制系统股份有限公司 浙江宁波
*通讯作者: 洪捷,单位:宁波高发汽车控制系统股份有限公司 浙江宁波;
在汽车智能化与网联化飞速发展的当下,汽车控制器于复杂工况下的稳定性与可靠性成为制约行业前行的关键瓶颈。本研究深入汽车控制器工作核心,从硬件架构强化、软件算法优化,到环境适应能力提升等多个维度,全面探索突破性策略。力求为汽车产业在复杂工况场景中,构建稳固、可靠的控制器运行体系,提供兼具创新性与实用性的理论基石与实践蓝本。
With the rapid development of automotive intelligence and connectivity, the stability and reliability of automotive controllers under complex working conditions have become a key bottleneck restricting the progress of the industry. This study delves into the core of the operation of automotive controllers. From strengthening the hardware architecture, optimizing software algorithms to enhancing the environmental adaptability and other multiple dimensions, it comprehensively explores breakthrough strategies. The aim is to provide an innovative and practical theoretical foundation and practical model for the automotive industry to build a stable and reliable controller operation system in complex working condition scenarios.
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