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Cross-Domain Features of Runs of Genetic Programming Used to Evolve Designs for Analog Circuits, Optical Lens Systems, Controllers, Antennas, Mechanical Systems, and Quantum Computing Circuits.

, , and . Evolvable Hardware, page 205-214. IEEE Computer Society, (2005)

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Routine High-Return Human-Competitive Evolvable Hardware., , and . Evolvable Hardware, page 3-17. IEEE Computer Society, (2004)What's AI Done for Me Lately? Genetic Programming's Human-Competitive Results., , and . IEEE Intelligent Systems, 18 (3): 25-31 (2003)A parallel implementation of genetic programming that achieves super-linear performance, and . Proceedings of the International Conference on Parallel and Distributed Processing Techniques and Applications, III, page 1163--1174. Sunnyvale, CSREA, (9-11 August 1996)Evolution of Intricate Long-Distance Communication Signals in Cellular Automata using Genetic Programming, , and . Artificial Life V: Proceedings of the Fifth International Workshop on the Synthesis and Simulation of Living Systems, 1, Nara, Japan, MIT Press, (16--18 May 1996)Automatic Synthesis of the Topology and Sizing for Analog Electrical Circuits Using Genetic Programming, , , and . Evolutionary Algorithms in Engineering and Computer Science, page 199--229. Jyvaskyla, Finland, John Wiley & Sons, (30 May - 3 June 1999)Automatic synthesis using genetic programming of improved PID tuning rules, , and . Preprints of the 2003 Intelligent Control Systems and Signal Processing Conference, page 494--499. Faro, Portugal, (2003)Working notes AAAI-95 Fall Symposium Series Genetic Programming, and . Technical Report, FS-95-01. The American Association for Artificial Intelligence, (10--12 November 1995)Genetic Programming II: Automatic Discovery of Reusable Programs. MIT Press, Cambridge Massachusetts, (May 1994)Parallel Genetic Programming on a Network of Transputers, and . Technical Report, CS-TR-95-1542. Stanford University, Department of Computer Science, (January 1995)The genetic programming paradigm: Genetically breeding populations of computer programs to solve problems. Dynamic, Genetic, and Chaotic Programming, John Wiley, New York, (1992)