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shop at KI-94, Saarbrucken) , pages 33-38. Max-Planck-Institut f ur Informatik,
Saarbr ucken, Germany, 1994.
[8] D. Bray. Protein molecules as computational elements in living cells. Nature ,
376:307-312, 1995.
[9] M. Capstick, W. P. Liam Marnane, and R. Pethig. Biological computational build-
ing blocks. IEEE Computer , 25(11):22-29, 1992.
[10] M. Conrad. Molecular computing: the lock-key paradigm. IEEEComputer , 25(11):
11-20, 1992.
[11] M. J. Fisher, R. C. Paton, and K. Matsuno. Intracellular signalling proteins as
'smart' agents in parallel distributed processes. BioSystems , 50:159-171, 1999.
[12] L. Fogel, A. Owens, and M Walsh. Artificial Intelligence through Simulated Evo-
lution . Wiley, New York, 1966.
[13] D. E. Goldberg. Genetic Algorithms in Search, Optimisation and Machine Learn-
ing . Addison-Wesley, Reading, MA, 1989.
[14] Holland J. H. Adaptation in Natural and Artificial Systems . MIT Press, Cambridge,
1975.
[15] J. Koza. Genetic Programming II: Automatic Discovery of Reusable Programs .
MIT Press, Cambridge, 1994.
[16] John Koza. Genetic Programming: On the Programming of Computers by Means
of Natural Selection . MIT Press, Cambridge, 1992.
[17] John Koza, Forrest Bennett, III, David Andre, and Martin Keane. Genetic Pro-
gramming III: Darwinian Invention and Problem Solving . Morgan Kaufmann,
San Francisco, CA, 1999.
[18] W. Langdon and R. Poli. Why “building blocks” don't work on parity problems.
Technical Report CSRP-98-17, School of Computer Science, University of Bir-
mingham, UK, July 1998.
[19] W. B. Langdon. Quadratic bloat in genetic programming. In D. Whitley, editor,
Proceedings of the 2000Genetic and Evolutionary ComputationConference , pages
451-458. Morgan Kaufmann, San Francisco, CA, 2000.
[20] W. B. Langdon. Size fair and homologous tree genetic programming crossovers.
Genet. Program. Evolvable Machines , 1(1/2):95-119, April 2000.
[21] W. B. Langdon and R. Poli. Fitness causes bloat. In P. K. Chawdhry, editor, Soft
Computing in Engineering Design and Manufacturing , pages 13-22. Springer,
Berlin, 1997.
[22] M. A. Lones and A. M. Tyrrell. Biomimetic representation in genetic programming.
In H. Kargupta, editor, Proceedings of the 2001 Genetic and Evolutionary Com-
putation Conference Workshop Program , pages 199-204, IEEE Press, Piscataway,
NJ, July 2001.
[23] M. A. Lones and A. M. Tyrrell. Enzyme genetic programming. In Proceedings of
the 2001 Congress on Evolutionary Computation , vol. 2, pages 1183-1190. IEEE
Press, Piscataway, NJ, May 2001.
[24] Michael A. Lones and Andy M. Tyrrell. Biomimetic representation with enzyme
genetic programming. J. Genet. Program. Evolvable Machines , 3(2):193-217,
2002.
[25] Michael A. Lones and Andy M. Tyrrell. Crossover and bloat in the functionality
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