General
Changwen Zheng, PhD
Professor
National Key Laboratory of Integrated Information System Technology,
Institute of Software, Chinese Academy of Sciences,
#4, South 4th Street, Zhongguancun,
Beijing, 100190 China
Tel.: +86 10 6266 1156
Fax: +86 10 6255 2533
E-mail:changwen(at)iscas.ac.cn
Research Areas
Information Processing, System Integration, Computer Simulation, Intelligent Search
Education
1999~2003, Huazhong University of Science and Technology, Ph.D in Control Science and Engineering
1996~1999, Huazhong University of Science and Technology, Master in Economics
1988~1992, Huazhong Normal University, Bachelor in Science
Experience
2008.10~ , Professer, Institute of Software, Chinese Academy of Sciences
2008.10~ , Deputy Director, National Key Lab of Integrated Information System Technology
2005.06~2008.09, Associate Professer, Institute of Software, Chinese Academy of Sciences
2003.10~2005.05, PostDoc, Institute of Software, Chinese Academy of Sciences
1992.07~1996.08, Teacher, The Wuhan 76th Middle School
2008.10~ , Deputy Director, National Key Lab of Integrated Information System Technology
2005.06~2008.09, Associate Professer, Institute of Software, Chinese Academy of Sciences
2003.10~2005.05, PostDoc, Institute of Software, Chinese Academy of Sciences
1992.07~1996.08, Teacher, The Wuhan 76th Middle School
Publications
[1] KD-Tree Based Parallel Adaptive Rendering. The Visual Computer, 2012. In press.
[2] Rendering realistic spectral bokeh due to lens stops and aberrations. The Visual Computer, 2012. In press.
[3] A geneti c clustering algorithm using a message-based similarity measure, Expert Systems with Applications, 2012, 39(2): 2194-2202.
[4] A hierarchical evolutionary trajectory planner for spacecraft formation reconfiguration, IEEE Transactions on Aerospace and Electronic Systems, 2012, 48(1): 279-289.
[5] A multi-objective evolutionary algorithm for minimal visual coverage path problem in raster terrain, ICIC Express Letters, 2011, 5(7): 2299-2304.
[6] Realistic rendering of bokeh effect based on optical aberrations, The Visual Computer, 2010, 20(6-8): 555-563.
[7] A robust dynamic niching genetic algorithm with niche migration for automatic clustering problem, Pattern Recognition, 2010, 43(4): 1346- 1360.
[8] A genetic algorithm with gene rearrangement for K-means clustering, Pattern Recognition, 2009, 42(7): 1210-1222.
[9] Mission-adaptable route planning in an uncertain and adversarial environment, International Journal of Artificial Intelligence Tools, 2006, 15(5): 803-821.
[10] Coordinated route planning via Nash equilibrium and evolutionary computation, Chinese Journal of Aeronautics, 2006, 9(1):18-23.
[11] Performance evaluation on a double-layered satellite networks, International Journal of Satellite Communications and Networking, 2005, 23(6): 359-371.
[12] A neuro-fuzzy controller for networked control systems via a discrete-time jump fuzzy system approach, Dynamics of Continuous Discrete and Impulsive Systems-Series B-Applications & Algorithms, 2005, 12(supl): 417-421.
[13] Evolutionary route planner for unmanned air vehicles, IEEE Transactions on Robotics. 2005, 21(4): 609-620.
[14] Real-time mission-adaptable path planning for UAV, Advances in System Science and Application, 2004, 4(4): 649~654.
[15] Coevolving and cooperating path planner for multiple unmanned air vehicles, Engineering Applications of Artificial Intelligence. 2004, 17(8): 887-896.
[16] Real-time route planning for unmanned air vehicle with an evolutionary algorithm, International Journal of Pattern Recognition and Artificial Intelligence, 2003, 17(1): 63-81.
[17] An evolutionary real-time 3D route planner for aircraft, Journal of Systems Engineering and Electronics, 2003, 14(1): 47-53.
[2] Rendering realistic spectral bokeh due to lens stops and aberrations. The Visual Computer, 2012. In press.
[3] A geneti c clustering algorithm using a message-based similarity measure, Expert Systems with Applications, 2012, 39(2): 2194-2202.
[4] A hierarchical evolutionary trajectory planner for spacecraft formation reconfiguration, IEEE Transactions on Aerospace and Electronic Systems, 2012, 48(1): 279-289.
[5] A multi-objective evolutionary algorithm for minimal visual coverage path problem in raster terrain, ICIC Express Letters, 2011, 5(7): 2299-2304.
[6] Realistic rendering of bokeh effect based on optical aberrations, The Visual Computer, 2010, 20(6-8): 555-563.
[7] A robust dynamic niching genetic algorithm with niche migration for automatic clustering problem, Pattern Recognition, 2010, 43(4): 1346- 1360.
[8] A genetic algorithm with gene rearrangement for K-means clustering, Pattern Recognition, 2009, 42(7): 1210-1222.
[9] Mission-adaptable route planning in an uncertain and adversarial environment, International Journal of Artificial Intelligence Tools, 2006, 15(5): 803-821.
[10] Coordinated route planning via Nash equilibrium and evolutionary computation, Chinese Journal of Aeronautics, 2006, 9(1):18-23.
[11] Performance evaluation on a double-layered satellite networks, International Journal of Satellite Communications and Networking, 2005, 23(6): 359-371.
[12] A neuro-fuzzy controller for networked control systems via a discrete-time jump fuzzy system approach, Dynamics of Continuous Discrete and Impulsive Systems-Series B-Applications & Algorithms, 2005, 12(supl): 417-421.
[13] Evolutionary route planner for unmanned air vehicles, IEEE Transactions on Robotics. 2005, 21(4): 609-620.
[14] Real-time mission-adaptable path planning for UAV, Advances in System Science and Application, 2004, 4(4): 649~654.
[15] Coevolving and cooperating path planner for multiple unmanned air vehicles, Engineering Applications of Artificial Intelligence. 2004, 17(8): 887-896.
[16] Real-time route planning for unmanned air vehicle with an evolutionary algorithm, International Journal of Pattern Recognition and Artificial Intelligence, 2003, 17(1): 63-81.
[17] An evolutionary real-time 3D route planner for aircraft, Journal of Systems Engineering and Electronics, 2003, 14(1): 47-53.