摘要
从虚实两方面概述了平行电池的概念、框架、方法与应用。平行电池是基于ACP方法的平行智能在电池与相关能源领域中的应用。实际电池系统和与之对应的虚拟空间中的人工电池系统平行运行、虚实互动,物理空间映射于虚拟空间,人工电池系统描述、预测、引导实际电池系统,虚实闭环,迭代优化,实现智能生态电池与能源系统管理新模式。
The concept,framework,process methodology and applications of parallel battery were proposed from both virtual and real aspects.The parallel battery was an application of ACP-based parallel intelligence in battery and related energy system areas.The real battery system was running with its equivalent,and the artificial battery system was in a virtual space,in a parallel and interactive manner.The artificial battery system contained the descriptive,predictive,and prescriptive functions on the real battery and related energy systems.There was a closed-loop workflow between the real battery system and the artificial battery system,which iteratively optimizes the battery and related energy systems,leading to a new paradigm of intelligent and ecological parallel battery system management.
作者
王飞跃
蒋怀光
WANG Fei-Yue;JIANG Huaiguang(The State Key Laboratory for Management and Control of Complex Systems,Institute of Automation,Chinese Academy of Sciences,Beijing 100190,China;National Renewable Energy Laboratory,Golden 80401,America)
出处
《智能科学与技术学报》
2021年第4期521-531,共11页
Chinese Journal of Intelligent Science and Technology
基金
国家自然科学基金资助项目(No.61533019)。
关键词
平行智能
ACP方法
计算实验
平行电池
能源系统
平行系统
parallel intelligence
ACP approach
computational experiment
parallel battery
energy system
parallel system