Research: Difference between revisions
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"Professor Doyle's current research interests are in theoretical foundations for complex networks, primarily in network engineering and biology." He is also "interested in multiscale physics and financial markets, and the interplay between robustness, feedback, control, dynamical systems, computation, communications, and statistical physics" from [http://www.cds.caltech.edu/people/ CDS website] | "Professor Doyle's current '''research''' interests are in theoretical foundations for complex networks, primarily in network engineering and biology." He is also "interested in multiscale physics and financial markets, and the interplay between robustness, feedback, control, dynamical systems, computation, communications, and statistical physics" from [http://www.cds.caltech.edu/people/ CDS website] | ||
Prof. Doyle has "applied complex ideas of robust design and control to many fields and is working on a unified theory of control in engineering, physics and biology" from [http://www.ieee.org/portal/pages/about/awards/bios/2004controlsystems.html IEEE website] | Prof. Doyle has "applied complex ideas of robust design and control to many fields and is working on a unified theory of control in engineering, physics and biology" from [http://www.ieee.org/portal/pages/about/awards/bios/2004controlsystems.html IEEE website] | ||
==Current Projects== | ==Current Projects== | ||
Revision as of 01:35, 18 August 2008
"Professor Doyle's current research interests are in theoretical foundations for complex networks, primarily in network engineering and biology." He is also "interested in multiscale physics and financial markets, and the interplay between robustness, feedback, control, dynamical systems, computation, communications, and statistical physics" from CDS website
Prof. Doyle has "applied complex ideas of robust design and control to many fields and is working on a unified theory of control in engineering, physics and biology" from IEEE website
Current Projects
Past Projects
- HOT: Highly Optimized/Organized Tradeoffs/Tolerance, A unified theory of complex networks
- SOSTOOLS: Software for analysis of complex systems
Related Research Groups
- FAST: Fast AQM Scalable TCP, new internet protocol design.
- CIMMS: Center for Integrative Multiscale Modeling and Simulation
See also
More research links
Notes
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