Self-Managing Systems / MIT Press / IEEE Intelligent Systems / Reliable Distributed Systems / Adaptive Systems / Avida / Self-Organizing Systems / /
Country
United States / United Kingdom / / /
IndustryTerm
autonomic software development methodology / immune systems / software development process / energy conservation / autonomic systems / physical hardware / software platform / dynamic and resilient computational systems / selfadaptive software / autonomic software development model / real-world hardware / constrained sensor device / distributed computing / software developers / control software / less and less energy / possible solutions / clever solutions / autonomic computing concepts / limited resource devices / autonomic networking architecture / software development / energy remaining / software systems / scientific tool / energy / energy costs / mobile agent systems / software development methods / on realworld devices / computational systems / final product / real-world solutions / economical software solutions / energy consumption / autonomic computing focuses / higher energy cost / external devices / genetic algorithm / energy cost / adequate solutions / sensor/actuator networks / autonomic computing / dynamical neural networks / actual hardware / computational behavior needed in such systems / software development methodology / virtual hardware / self-* systems / problem-solving applications / resource-heavy server / topology management / communication protocols / adapted solutions / real-world systems / iterative stochastic search / distributed applications / emergent systems / fixed energy budget / real-world devices / /
Organization
National Science Foundation / MIT / MSU Quality Fund / National Academy of Sciences / Charles ofria Department of Computer Science and Engineering Michigan State University East Lansing / US Federal Reserve / U.S Army / IEEE Computer Society / /
Person
Andres Ramirez / Philip K. McKinley / Charles Ofria / Laura M. Grabowski / Wesley Elsberry / /