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讲准字453号:面向应用的电磁器件与系统设计的系统优化方法

发布时间:2019-12-16|浏览次数:

讲座报告主题:面向应用的电磁器件与系统设计的系统优化方法
专家姓名:朱建国  
日期:2019-12-26时间:15:30
地点:电气学院415报告厅  
主办单位:电气信息工程学院

主讲简介:朱建国教授1982年于江苏理工学院获学士学位,1987年于上海大学获硕士学位,1995年于悉尼科技大学获博士学位,专业均为电气工程。澳大利亚悉尼大学教授,电子信息与工程学院院长,悉尼科技大学电机和电力电子中心杰出教授、主任。曾多次担任COMPUMAG、ICEMS等知名国际会议主席。研究领域主要包括计算电磁学、材料磁性能的测量和建模、电子设备和驱动器、电力电子、可再生能源系统和智能微网。主持项目60余项,发表论文974篇,引用次数10782次,根据2019年4月谷歌学术搜索,h因子为50。在339篇期刊论文中,200余篇为各类IEEE Transactions期刊论文,50余篇为IEEE Transactions on Industrial Electronics或IEEE Transactions on Power Electronics期刊论文,2篇为IEEE Transactions最高等级论文。研究专长:计算电磁学、材料磁性能的测量和建模、电子设备和驱动器、电力电子、可再生能源系统和智能微网。

主讲内容:Traditionally, when engineers design an equipment/appliance that contains one or more electromagnetic devices and systems, they would choose “suitable” products from the catalogs of commercial manufacturers. As the standard products are not designed for any specific applications, the functionality of equipment/appliance is limited by the performance and availability of commercial electromagnetic devices and systems. A better approach is to design the electromagnetic devices and systems specifically for the equipment/appliance simultaneously with the mechanical design. This requires a systematic approach including a good understanding and accurate modelling of material characteristics, ingenious intuition of topological design, precision and fast analyses of electromagnetic and often coupled multi-physical fields, electrical and electronic circuits, and control systems, advanced control methods and algorithms, rich data of material characteristics and prototype fabrication and testing, and design optimization strategies and algorithms.This research seminar series is composed to present a systematic approach to application oriented design of electromagnetic devices and systems based on the research work of Prof. Zhu and his CEMPE team of the last twenty eight years. It contains the eight chapters as the following:
1.Introduction
2.Measurement and modelling of magnetic materials
3.Analyses of coupled multi-physical fields
4.Topology matters
5.Power electronic converters and control methods
6.Component and system level design optimization approaches
7.Robust design optimization for high quality manufacturing
8.Concluding remarks


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