姓名：  蔡开元     
  性别：  男     
  出生年份：  1965     
  职称：  教授     
  院系：  自动化科学与电气工程学院     
  首次聘任导师时间：  1998     
  现聘任导师一级学科名称：  控制科学与工程   
 现聘任导师二级学科名称：  导航、制导与控制  
 聘任在第二学科培养博士生专业名称：  无  
 主要研究方向及特色：  1、系统可靠性与安全性，2、智能控制与复杂系统控制。  
  电子信箱：  kycai@buaa.edu.cn   
  办公电话：  82317328   
  办公地点：  6号教学楼313   
 通信地址：  北京航空航天大学自动化学院  

 个人简介：
 
 
个人情况简介：1980年考入北京航空航天大学本科, 分别于1984年、1987年、1991年在北航获得学士、硕士、博士学位。之后留校工作。1992年底任副教授。1993年至1995年应聘在英国伦敦城市大学软件可靠性中心工作, 任Research Fellow, 参加欧共体尤里卡计划软件可信性方面的科研项目。1995年10月任北航教授。1998年获国家杰出青年基金。1999年被教育部批准为"长江学者奖励计划"特聘教授。担任Fuzzy Sets and Systems国际杂志编委；(美国) Kluwer Academic Publishers出版社 The Kluwer International Series on Asian Studies in Computer and Information Science (http://www.wkap.nl/series.htm/ASIS)国际丛书主编。

学科专业（含第二专业）：
1、导航、制导与控制
2、计算机软件

主要研究方向：
1、系统可靠性与安全性，2、智能控制与复杂系统控制。

教学及人才培养情况(含承担教学任务,编写教材,培养研究生等)：
主讲研究生课程（软件可靠性工程、模糊数学）

科研项目情况：
1、国家自然科学基金重点项目
2、国家自然科学基金面上项目

发表学术论文及出版专著情况：

1. K.Y.Cai, “Software Reliability Experimentation and Control”, Journal of Computer Science and Technology, Vol.21, No.5, 2006.
2. K.Y.Cai, “Variable-Structure Coherent Systems”, International Journal of General Systems, Vol.34, No.6, 2005, pp639-672.
3. K.Y.Cai, L.Cai, W.D.He, Z.Y.Yu, D.Zhang, “On the Neural Network Approach in Software Reliability Modeling”, Journal of Systems and Software, Vol.58, 2001, pp47-62.
4. K.Y.Cai, “Toward a Conceptual Framework of Software Run Reliability Modeling”, Information Sciences, Vol.126, 2000, pp137-163.
5. K.Y.Cai, “On Estimating the Number of Defects Remaining in Software”, Journal of Systems and Software, Vol.40, No.2, 1998, pp93-114.
6. K.Y.Cai, Software Defect and Operational Profile Modeling, Kluwer Academic Publishers, Boston/Dordrecht/London, 1998.
7. K.Y.Cai, “Censored Software-Reliability Models”, IEEE Transactions on Reliability, Vol.46, No.1, 1997, pp69-75.
8. K.Y.Cai, “System Failure Engineering and Fuzzy Methodology”, Fuzzy Sets and Systems, Vol.83, 1996, pp113-133.
9. K.Y.Cai, Introduction to Fuzzy Reliability, Kluwer Academic Publishers, Boston/Dordrecht/London, 1996.
10. K.Y.Cai, C.Y.Wen, M.L.Zhang, “Posbist Reliability Behavior of Fault-Tolerant Systems”, Microelectronics and Reliability, Vol.35, No.1, 1995, pp49-56.
11. K.Y.Cai, C.Y.Wen, M.L.Zhang, “Mixture Models in Profust Reliability Theory”, Microelectronics and Reliability, Vol.35, No.6, 1995, pp985-993.
12. 蔡开元，软件可靠性工程基础，清华大学出版社，1995。
13. K.Y.Cai, C.Y.Wen, M.L.Zhang, “Fuzzy States as a Basis for a Theory of Fuzzy Reliability”, Microelectronics and Reliability, Vol.33, No.15, 1993, pp2253-2263.
14. K.Y.Cai, C.Y.Wen, M.L.Zhang, “A Novel Approach to Software Reliability Modeling”, Microelectronics and Reliability, Vol.33, No.15, 1993, pp2265-2267.
15. K.Y.Cai, C.Y.Wen, M.L.Zhang, “Fuzzy Reliability Modeling of Gracefully Degradable Computing Systems”, Reliability Engineering and System Safety, Vol.33, 1991, pp141-157.
16. K.Y.Cai, C.Y.Wen, M.L.Zhang, “Survivability Index for CCNs: A Measure of Fuzzy Reliability”, Reliability Engineering and System Safety, Vol.33, 1991, pp71-99.
17. K.Y.Cai, C.Y.Wen, M.L.Zhang, “A Critical Review on Software Reliability Modeling”, Reliability Engineering and System Safety, Vol.32, 1991, pp357-371.
18. K.Y.Cai, C.Y.Wen, M.L.Zhang, “Posbist Reliability Behavior of Typical Systems with Two Types of Failure”, Fuzzy Sets and Systems, Vol.43, 1991, pp17-32.
19. K.Y.Cai, C.Y.Wen, M.L.Zhang, “Fuzzy Variables as a Basis for a Theory of Fuzzy Reliability in the Possibility Context”, Fuzzy Sets and Systems, Vol.42, 1991, pp145-172.
20. K.Y.Cai, C.Y.Wen, “Street-Lighting Lamps Replacement: a Fuzzy Viewpoint”, Fuzzy Sets and Systems, Vol.37, 1990, pp161-172.

21. H.N.Wu, K.Y.Cai, “H2 Guanranteed Cost Fuzzy Control Design for Discrete-Time Nonlinear Systems with Parameter Uncertainty”, Automatica, Vol.42, 2006, pp1183-1188.
22. H.N.Wu, K.Y.Cai, “Mode-Independent Robust Stabilization for Uncertain Markovian Jump Nonlinear Systems via Fuzzy Control”, IEEE Transactions on Systems, Man, and Cybernetics – Part B, Vol.36, No.3, 2006, pp509-519.
23. D.Zhang, L.F.Deng, K.Y.Cai, A.So, “Fuzzy Nonlinear Regression with Fuzzified Radial Basis Function Network”, IEEE Transactions on Fuzzy Systems, Vol.13, No.6, 2005, pp742-760.
24. H.X.Li, L.Zhang, K.Y.Cai, G.Chen, “An Improved Robust Fuzzy-PID Controller with Optimal Fuzzy Reasoning”, IEEE Transactions on Systems, Man, and Cybernetics – Part B, Vol.35, No.6, 2005, pp1283-1294.
25. L.Zhang, K.Y.Cai, “Optimal Fuzzy Reasoning and Its Robustness Analysis”, International Journal of Intelligent Systems, Vol.19, 2004, pp1033-1049.
26. D.Zhang, X.L.Bai, K.Y.Cai, “Extended Neuro-Fuzzy Models of Multilayered Perception”, Fuzzy Sets and Systems, Vol.142, 2004, pp221-242.
27. H.N.Wu, K.Y.Cai, “H2 Guaranteed Cost Fuzzy Control for Uncertain Nonlinear Systems via Linear Matrix Inequalities”, Fuzzy Sets and Systems, Vol.148, 2004, pp411-429.
28. K.Y.Cai, “Robustness of Fuzzy Reasoning and -Equalities of Fuzzy Sets”, IEEE Transactions on Fuzzy Systems, Vol.9, No.5, 2001, pp738-750.

29. K.Y.Cai, Y.C.Li, W.Y.Ning, “Optimal Software Testing in the Setting of Controlled Markov Chains”, European Journal of Operational Research, Vol.162, No.2, 2005, pp552-579.
30. K.Y.Cai, Y.C.Li, K.Liu, “Optimal and Adaptive Testing for Software Reliability Assessment”, Information and Software Technology, Vol.46, 2004, pp989-1000.
31. X.Y.Wang, Y.C.Li, K.Y.Cai, “On the Polynomial Dynamical System Approach to Software Development”, Science in China (Series F), Vol.47, No.4, 2004, pp437-457.
32. K.Y.Cai, “Optimal Stopping of Multi-project Software Testing in the Context of Software Cybernetics”, Science in China (Series F), Vol.46, No.35, 2003, pp335-354.
33. K.Y.Cai, “Optimal Software Testing and Adaptive Software Testing in the Context of Software Cybernetics”, Information and Software Technology, Vol.44, 2002, pp841-855.