1. 汇报安排
题目:参加IEEE ICIEA2019国际会议总结报告会
时间:2019年4月22日11:00 - 11:30
地点:逸夫科学馆263会议室
报告人:博1628——李阳帆, 博1730——张琳
指导教师:张英杰教授
2. 参加国际会议信息
会议名称:2019 IEEE 6th International Conference on Industrial Engineering and Applications
会议时间:April 12th –15th, 2019
会议地点:Tokyo, Japan
会议简介:
ICIEA is an annual conference of Industrial Engineering and Applications for all researchers home and abroad, it have the strong organization team, dependable reputation and wide sponsors all around the world..
2019 IEEE 6th International Conference on Industrial Engineering and Applications (ICIEA), will take place in International Conference Center, Waseda University, Tokyo, Japan, April 12-15, 2019. The topics related to reporting advances in industrial engineering theory, techniques, methodology, applications and practice; general surveys and critical reviews; announcements; etc. will be pondered on, through the interactions between academic researchers from different regions and cultures. Timely research topics will be discussed via presentations of the latest progresses and developments of Industrial Engineering and Applications for solving social problems.
会议交流工作:
Presentation: New Design Method for Flexspline Tooth Profile of Harmonic Drive Considering Deformation. 汇报人:李阳帆
Presentation: Solving the Facility Layout Problem with Genetic Algorithm. 汇报人:张琳
3. 参会论文信息
Title: New Design Method for Flexspline Tooth Profile of Harmonic Drive Considering Deformation
Author: Yangfan Li, Yingjie Zhang, Ning Zhang, Bochao Dai
Abstract:
In the paper, the deformation of the inner surface of the flexspline (FS) of the harmonic drive (HD) is different with the deformation of the top of the flexible gear is presented. For improving the meshing qualities of harmonic drive, to analysis the cause of the different deformation, to avoid meshing interference between FS and circular spline (CS), the curvature difference between the inner surface and the tooth top of the FS after deformation is analyzed based on ring theory. In order to make the deformed tooth profile reach the predetermined meshing position, this paper takes the double arc tangent tooth profile as an example; a new tooth profile of FS was designed by shifting the coordinates of tooth profile to avoid undercutting during meshing, and then improves the operation reliability between FS with CS. To verify the effectiveness and correctness of the research, the finite element method (FEM) is employed to verify the different deformation between the inner surface and the tooth top of the flexspline.
Title: Solving the Facility Layout Problem with Genetic Algorithm
Author: Zhang Lin, Zhang Yingjie
Abstract:
Layout problems are common in various manufacturing systems. Actually, the layout problems are related to the location of facilities in a plant, and they have great impact on system performance. However, real systems are large and complicated, and the computation cost of them is high. Thus, the most of layout problems are NP hard. The notion of survival signature is introduced to preprocess the layout problem, and it reduces the economic costs and complexity of computation. Then, the optimization of layout solutions are presented by the genetic algorithm(GA). This study demonstrates that the proposed algorithm is effective, and it can be used in solving the larger layout problems.
欢迎各位感兴趣的同学前来交流。
