CPS: Synergy: Collaborative Research: Boolean Microgrid

CPS：协同：协作研究：布尔微电网

• 批准号: 1239118
• 负责人: Sudip Mazumder
• 金额: $ 62.93万
• 依托单位: University of Illinois at Chicago
• 依托单位国家: 美国
• 项目类别: Standard Grant
• 财政年份: 2012
• 资助国家: 美国
• 起止时间: 2012-10-01 至 2017-09-30
• 项目状态: 已结题
• 来源: https://www.nsf.gov/awardsearch/showAward?AWD_ID=1239118&HistoricalAwards=false
• 关键词: CPS; Synergy; Collaborative; Research; Boolean

The Boolean Microgrid (BM) emulates the Internet by supplying discrete power and discrete data over a network link that follows Boolean logic and is not continuous as in a conventional 60-Hz-ac or dc microgrid. BM is thus a highly integrated cyber-physical system (CPS) that features the convergence of control, communication and the physical plant. BM?s realization poses the following research challenges that we plan to address: a) what is the most efficient, economic, power-dense, and reliable way of integrating the distributed energy sources and loads to the BM, and the BM to the utility grid, using power-electronic interfaces for seamless and on-demand distributed power delivery? b) what is the control-communication mechanism that optimizes BM nodal and network control performances under conditions of varying power generation and load demand and communication-network throughput and reliability? Our unique approaches to address these research challenges will encompass novel mechanisms based on high-frequency-link power conversion, dynamic-pricing based optimal network capacity and resource utilization, event-triggered sampling and communication, and optimal switching-sequence control.BM has the potential to influence next-generation systems including smart grid, vehicular microgrid, electric ships, military microgrid, electric aircraft, telecommunication systems, and residential, commercial, and critical-infrastructure (e.g., hospital) power systems. On the educational front, the proposed project will provide graduate- and post-graduate-level education to four researchers. Further, multiple undergraduate (including minority) students and middle-school students will be provided research/educational opportunities. The results of the research will be integrated into undergraduate and graduate courses at the collaborating universities including a dedicated course on CPS.

布尔微电网（BM）通过在遵循布尔逻辑的网络链路上提供离散的功率和离散数据来模仿互联网，并且不像传统的60 Hz-AC或DC微网络那样连续。因此，BM是一种高度集成的网络物理系统（CPS），其具有控制，通信和物理植物的收敛性。 BM的认识提出了我们计划解决的以下研究挑战：a）将分布式能源和负载整合到BM的最有效，经济，功率密集和可靠的方式，以及BM，使用BM，使用无功率电力的无线和无线电器分布式电力输送的功率电子接口？ b）在不同的发电和负载需求以及通信网络吞吐量和可靠性的条件下优化BM节点和网络控制性能的控制通信机制是什么？我们解决这些研究挑战的独特方法将涵盖基于高频链接电源转换，基于动态定价的最佳网络能力和资源利用，事件触发的采样和沟通以及最佳切换序列控制的新型机制。商业和关键基础设施（例如医院）电力系统。在教育方面，拟议的项目将向四名研究人员提供研究生和研究生的教育。此外，将为多个本科生（包括少数民族）学生和中学生提供研究/教育机会。研究结果将纳入合作大学的本科和研究生课程，包括专门的CPS课程。