会议名称(中文): 2015 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering
会议名称(英文): 2015 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering (QR2MSE 2015)
所属学科: 自动控制理论与技术,自动化技术应用,控制系统仿真技术
开始日期: 2015-07-21
结束日期: 2015-07-24
所在国家: 中华人民共和国
所在城市: 北京市 东城区
主办单位: 电子科技大学可靠性工程研究所、军械工程学院•装甲兵工程学院、国防科技大学•北京科技大学、西北工业大学、清华大学、香港城市大学、国立台湾科技大学
[ 重要日期 ]
全文截稿日期: 2015-03-10
会议背景介绍:
2015 International Conference on Quality, Reliability, Risk, Maintenance, and Safety Engineering (QR2MSE 2015) is to bring together leading academics, industry practitioners, and research scientists from around the world to advance the body of knowledge in quality, reliability, maintenance, and safety of engineering systems, to establish and strengthen the link between academia and industry, to promote applications of research results in practice, and to showcase state of the art of industrial technologies.
We cordially invite you to participate in QR2MSE 2015 by submitting papers, giving presentations, showcasing your products, learning from leading experts, and/or visiting Beijing, the capital of China and a world-famous historical city.
征文范围及要求:
TOPICS OF INTERESTS (not limited to the following topics)
Quality engineering
Survival data analysis
Quality assurance and cost issues
Data collection and analysis
Quality planning and measurements
Prognostics and health management
Total quality management techniques
Condition based maintenance
Experimental design for quality control
Equipment management and maintenance
Methodologies for quality control
e-Maintenance
Reliability theory and application
Maintenance engineering theory and application
Reliability testing and statistics
Reliability centered maintenance
Product reliability and safety evaluation
Software maintenance
Human factors and reliability
Emergency maintenance
Software reliability and testing
Maintenance support modeling and simulation
Structural reliability
Maintainability engineering theory and application
Mechanism reliability
Contractor logistics theory and practice
Mechanical reliability
Robust design
Network reliability
Optimal design
Reliability tools for product development
Multidisciplinary design optimization
Risk assessment methods
Failure of Physics |
