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CiteSeer.IST Home Check: The following citations are predicted to all refer to the same paper. Details

W. D. Hillis. Co-evolving parasites improves simulated evolution as an optimization technique. In C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, editors, Artificial Life II, pages 313--384. Addison-Wesley, 1991.

Hillis, D. W. (1990) Co-evolving parasites improve simulated evolution as an optimization procedure.

Hillis, W. 1990. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234.

Hillis, W. D., Co-Evolving Parasites Improve Simulated Evolution as An Optimization Procedure, Emergent Computation, pp. 228-234, The MIT Press (1991).

Hillis, W. D. (1992) Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure, in Artificial Life II, Santa Fe Institute Studies in the Sciences of Complexity, Proceedings Volume X, C. Langton, Ed., Addison-Wesley, Redwood City, California, pages 313-324.

W. D. Hillis, "Co-evolving parasites improve simulated evolution as an optimization procedure," in Santa Fe Institute Studies in the Sciences of Complexity, Volume 10, pp. 313--323, AddisonWesley, 1991.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Artifical Life II, SFI Studies in the Sciences of Complexity, vol. X, 1991.

Hillis, D., (1992), "Co-evolving parasites improves simulated evolution as an optimization procedure", In Artificial Life II, edited by C. Langton, C. Taylor, J. Farmer and S.

W. D. Hillis. Co--evolving parasites improve simulated evolution as an optimization procedure. In C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, editors, Artificial Life II, pages 313--324, Redwood City, CA, 1992. Addison--Wesley.

Hillis, W. D. (1992), "Co-evolving parasites improve simulated evolution as an optimization procedure". In Langton, C.

W. D. Hillis (1991), Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure. C. G. Langton, C. Taylar, J. D. Farmer, and S. Rasmussen eds. Artificial Life II. SFI Studies in the Science of Complexity Vol. X, Addison-Wesley

Hillis, W.D., (1992), Coevolving Parasites Improve Simulated Evolution as an Optimization Procedure, in Artificial Life II, Langton, C.G.; Taylor, C.; Farmer, J.D., and Rasmussen, S., (eds), Addison-Wesley, California.

Hillis, W. D. (1990), `Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure', Physica D 42, 228--234.

Hillis, D. (1992), "Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure" In Artificial Life II, edited by C. Langton, C. Taylor, J. Farmer, and S. Rasmussen. Santa Fe Institute Studies in the Sciences of Complexity Proc. Vol. X. Addison-Wesley, Redwood City, CA, 1992.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

Hillis, W. Daniel. 1990. Co-evolving parasites improve simulated evolution as an optimization procedure. In Forrest, Stephanie (editor). Emergent Computation: SelfOrganizing, Collective, and Cooperative Computing Networks. Cambridge, MA: The MIT Press.

Hillis, W. Daniel. 1992. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, Christopher, Taylor, Charles, Farmer, J. Doyne, and Rasmussen, Steen (editors). Artificial Life II, SFI Studies in the Sciences of Complexity. Volume X.

W. D. Hillis, "Coevolving parasites improve simulated evolution as an optimization procedure," in Artificial Life II (C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, eds.), pp. 313--324, Addison-Wesley, 1992.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42, 228--234.

Hillis, D. (1990) Co-Evolving Parasites Improve Simulated Evolution as an Optimizing Procedure.

W. Daniel Hillis. Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure. In Artificial Life II, Langton, et al, Eds. Addison Wesley, 1992, pp. 313-324.

Hillis, D. (1992). Co-evolving Parasites Improves Simulated Evolution as an Optimization Procedure. In Artificial Life II. Ed. C.G. Langton, 228-234. Santa Fe: Addison-Wesley.

Hillis, D. (1992) "Co-evolving Parasites Improves Simulated Evolution as an Optimization Procedure,"in Artificial Life II , C. Langton, C. Taylor, J. Farmer and S. Rasmussen, Ed. Reading, MA: Addison-Wesley Publishing Co.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. Physics D, 42, 228--234.

W. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

Hillis, W. D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In et al., L., editor, Proc. of ALIFE-2, pages 313--324. Addison Wesley.

Hillis, W. D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, C. et al. (Eds.), Artificial Life II. Addison Wesley.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Forrest [137], pages 228--234. y([10]) ga:Hillis90.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

Hillis, W. Daniel. 1992. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, Christopher, Taylor, Charles, Farmer, J. Doyne, and Rasmussen, Steen (editors). Artificial Life II, SFI Studies in the Sciences of Complexity. Volume X.

Hillis, W. Daniel. 1990. Co-evolving parasites improve simulated evolution as an optimization procedure. In Forrest, Stephanie (editor). Emergent Computation: SelfOrganizing, Collective, and Cooperative Computing Networks. Cambridge, MA: The MIT Press.

Hillis, W. Daniel. 1992. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, Christopher, Taylor, Charles, Farmer, J.

W. Daniel Hillis, 1990, Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure, ARTIFICIAL LIFE II, Santa Fe Institute, Addison-Wesley.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C.G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, editors, Artificial Life II, pages 313--324. Addison Wesley Publishing Company, 1992.

W. Daniel Hillis, Co-evolving parasites improve simulated evolution as an optimization procedure, In Santa Fe Institute Studies in the Sciences of Complexity, Volume 10, pages 313--323. Addison-Wesley, 1991.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimizing procedure. Physica.

, pp 313--324.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher Langton, editor, Artificial Life II, volume 10 of Santa Fe Institute Studies in the Sciences of Complexity, pages 313--324, Reading, 1991. Addison-Wesley.

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

Hillis, D. (1990). "Co-evolving parasites improve simulated evolution as an optimization prcedure," Physica D 42, 228-334.

W. D. Hillis, "Co-evolving parasites improve simulatedevolution as an optimization procedure," in Artificial Life 2, C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, Eds., vol. 10 of Santa Fe Institute Studies in the Sciences of Complexity, pp. 313--323. Addison-Wesley, Redwood City, California, 1991.

Hillis, W.D. (1991). Co-evolving parasites improve simulated evolution as an optimization procedure.

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C.G. Langton, C. Taylor, J. Doyne Farmer, and S. Rasmussen, editors, Proceedings of the Second International Conference on Artificial Life II, Santa Fe Institute Studies in the Sciences of Complexity, Proc. Vol. X, pages 313--324, 1992.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton et al. [32], pages 313--323.

Hillis W. D. (1992), "Coevolving parasites improve simulated evolution as an optimization procedure," Artificial Life II, Langton C. G. et al. (eds.), Addison-Wesley, pp. 313--324.

Hillis, D. (1992). Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton, C. Taylor, J. F. and Rasmussen, S., editors, Artificial Life II. Addison-Wesley, Reading, MA.

W. D. Hillis, "Co-evolving parasites improve simulated evolution as an optimization procedure," Physica 42, pp. 228--234, 1990.

W. Daniel Hillis, Co-evolving parasites improve simulated evolution as an optimization procedure, In Santa Fe Institute Studies in the Sciences of Complexity, Volume 10, pages 313--323. Addison-Wesley, 1991.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Technical Report TR-1 AE91-1, Thinking Machines Corporation, 1990. (Appeared in Physica D42

D. Hillis: "Co-evolving parasites improve simulated evolution as an optimization procedure." Physica D 42 (1990) 228-234.

Hillis, W. D. (1991) Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure. C. G.

Hillis, W.D. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life II Addison-Wesley, 1991.

W. D. Hillis. Co-evolving parasites improves simulated evolution as an optimization procedure. In C. G. Langton, editor, Proceedings Artificial Life II, pages 313--324. Addison Wesley, 1992.

W. D. Hillis, 1992. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton et al., eds, "Artificial Life II," pp313-- 324. Addison-Wesley.

Hillis, 1991. W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Stephanie Forrest, editor, Emergent Computation. MIT Press (Cambridge, MA), 1991.

Hillis, W. D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In Proc ALIFE-2.

Hillis, W. D., (1992), Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure, in Artificial Life II, Langton, C.G.; Taylor, C.; Farmer, J.D., and Rasmussen, S., (eds), Addison-Wesley, California.

W.D.Hillis "Co-evolving parasites improve simulated evolution as an optimisation procedure" in S.Forrest(Ed.) "Emergent computation" pp228-234, North Holland 1990.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C. Langton et al., editor, Artificial Life II. Addison-Wesley, 1991.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. In Physica D42, pp. 228--234.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimizing procedure. Physica.

Hillis, W. D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, C., Taylor, C., Farmer, J. D., & Rasmussen, S. (Eds.), Artificial Life II, pp. 313--324. Addison Wesley.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C. Langton et al., editors, Artificial Life II. Addison-Wesley, 1991.

Hillis, W.D. (1991) Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure. Artificial Life II.

D.W. Hillis, Co-evolving Parasites Improve Simulated Evolution as an optimization Procedure, In Artificial Life II, C. Langton et al. Editors, AddisonWesley, 313-324, 1992.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. Physics D, 42, 228--234.

Hillis, D. (1992). Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton, C. Taylor, J. F. and Rasmussen, S., editors, Artificial Life II.

Daniel Hillis, Coevolving parasites improves simulated evolution as an optmisation procedure. Proceedings of ALife II. 1989

Daniel Hillis. Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton, C. Taylor, J. Farmer, and S. Rasmussen, editors, Artificial Life II, Reading, MA, 1992. Addison-Wesley.

Hillis, D. "Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure", In Artificial Life II, edited by C. Langton, C. Taylor, J. Farmer and S. Rasmussen. Reading, MA: Addison-Wesley Publishing Company, Inc., 1992.

Hillis, W. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234.

Hillis, W. D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, C. et al. (Eds.), Artificial Life II, pp. 313--324. Addison Wesley.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Chris Langton et al., editors, Artificial Life II. Addison Wesley, 1992.

Hillis, W.D. 1992. Co-evolving parasites improve simulated evolution as an optimization procedure, in Langton et al., eds., Artificial Life II, Addison Wesley, 313--324.

Hillis, W.D. (1990) Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure Physica D 42: 228--234.

W. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

Hillis D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D 42: 228-234.

Hillis, W. Daniel. 1992. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, Christopher, Taylor, Charles, Farmer, J. Doyne, and Rasmussen, Steen (editors). Artificial Life II, SFI Studies in the Sciences of Complexity. Volume X.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life II, 1992.

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

Hillis, W. D., (1992), Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure, in Artificial Life II, Langton, C.G.; Taylor, C.; Farmer, J.D., and Rasmussen, S., (eds), Addison-Wesley, California.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. In Proc. Conf. on Emergent Computation. MIT Press.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, editors, Artificial Life II, volume X of Sante Fe Institute Studies in the Sciences of Complexity. Addison-Wesley, 1992.

Hillis, W.D. (1992). Coevolving parasites improve simulated evolution as an optimization procedure. In Langton, C.G., Taylor, C., Farmer, J.D., & Rasmussen, S. (Eds), Artificial Life II (pp. 313-324). Redwood City, CA: Addison-Wesley.

Hillis, W.D. (1991) Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure. Artificial Life II.

Hillis, W. D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In et al., L., editor, Proc. of ALIFE-2, pages 313--324. Addison Wesley.

W. Daniel Hillis. Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure. In Artificial Life II, Langton, et al, Eds. Addison Wesley, 1992, pp. 313-324.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Proceedings of the Conference on Emergent Computation. MIT Press, 1990.

Hillis, W. D. 1992. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, C., et al., eds., Artificial Life II, 313--324.

Hillis, W. D. (1990), `Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure', Physica D 42, 228--234.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. pages 228--234, 1990. y([61]) ga:Hillis90.

Hillis, D. (1989). Coevolving parasites improves simulated evolution as an optimisation procedure. In ALIFE II.

W. Daniel Hillis, "Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure". In Artificial Life II, Langton, et al, Eds. Addison Wesley, 1992, pp. 313-324.

Hillis, D. (1992). Co-evolving parasites improves simulated evolution as an optimization procedure. In Artificial Life II, C. Langton, C. Taylor, J. Farmer and S. Rasmussen (eds.). Reading, MA: Addison-Wesley Publishing Company, Inc., pp 313-324.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Technical Report TR-1 AE91-1, Thinking Machines Corporation, 1990. (Appeared in Physica D42

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life II, 1992.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228-234, 1990.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Chris Langton et al., editors, Artificial Life II. Addison Wesley, 1992.

W. Daniel Hillis, "Co-evolving parasites improve simulated evolution as an optimization procedure", in Artificial Life 2, Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, Eds., vol. 10 of Santa Fe Institute Studies in the Sciences of Complexity, pp. 313--323. Addison-Wesley, 1991.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life 2, pages 313--323. Addison-Wesley, 1991.

Daniel W. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton et al., editors, Artificial Life II, pages 313--324. Addison-Wesley, 1992.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C.G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, editors, Artificial Life II, pages 313--324. Addison Wesley Publishing Company, 1992.

W. Daniel Hillis, 1991. Co-evolving parasites improve simulated evolution as an optimization procedure. In Stephanie Forrest, editor, Emergent Computation. MIT Press (Cambridge, MA).

W. D. Hillis, "Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure," in Artificial Life II, C. G. Langton, C. Taylor, J. D. Farmer and S. Rasmussen, Eds. Reading, MA: Addison-Wesley, 1991.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228-- 234, 1990.

Hillis, D. (1992). Co-evolving parasites improves simulated evolution as anoptimization procedure.In C. Langton, C. Taylor, J. F. and Rasmussen, S., editors, Artificial Life II, Reading, MA. Addison-Wesley Publishing Company, Inc.

Hillis, W.D. (1992) Co-evolving parasites improve simulated evolution as an optimization procedure. In C.

Hillis, W.D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In C.G. Langton, C. Taylor, J.D. Farmer, and S. Rasmussen (Eds.), Artificial Life II (pp. 313-324). Redwood City, CA: Addison-Wesley.

Hillis, Daniel W. 1991. Co-evolving parasites improve simulated evolution as an optimization procedure.

SAB-5. #Hillis, 1992# Hillis, W. D. #1992#. Co-evolving parasites improve simulated evolution as an optimization procedure. In et al., L., editor, Proc. of ALIFE-2, pages 313#324. Addison Wesley.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. In Forrest, S., editor, Emergent Computation. North Holland.

Hillis, W.D. Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure, Physica D 42, 228-234 (1990).

Hillis, 1991. W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Stephanie Forrest, editor, Emergent Computation. MIT Press (Cambridge, MA), 1991.

Hillis, W. D., 1991. "Co-evolving parasites improve simulated evolution as an optimization procedure", in Santa Fe Institute Studies in the 346 Xin Yao and Paul Darwen Sciences of Complexity, Volume 10, Addison-Wesley, Reading: 313-323.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

Hillis, W.D. (1991). "Co-evolving parasites improve simulated evolution as an optimization procedure." Artificial Life II, SFI Studies in the Sciences of Complexity, Ed. C. Langton, C. Tylor, J. D. Farmer, & S. Rasmussen, Addison-Wesley Publishing Company.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life 2, pages 313--323. Addison-Wesley, Redwood City, California, 1991.

Hillis, DW, 1992, "Coevolving parasites improve simulated evolution as an optimization procedure", In Langton, C, ed., Artificial Life II, Addison Wesley.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life II, SFI Studies in the Sciences of Complexity, volume 10, pages 313--323.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228-234, 1990.

Hillis, D. W. (1991). Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, C. G., Taylor, C., Farmer, J. D. and Rasmussen, S., editors, Artificial Life II, SFI Studies in the Sciences of Complexity, Volume 10, pages 313--324. Addison-Wesley, Redwood City, California.

W. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C. Langton, C. Taylor, J. Farmer, and S. Rasmussen, editors, Artificial Life II, SFI Studies in the Sciences of Complexity, volume 10, pages 313--323. AddisonWesley Publishing Co., 1991.

W. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C. Langton, C.Taylor, J. Farmer, and S. Rasmussen, editors, Artificial Life II, pages 264--270. Massachusetts: Addison-Wesley, 1992.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton et al. [39], pages 313--324. ga:Hillis92.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Forrest [312], pages 228--234. y([?]) ga:Hillis90.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Forrest [1481], pages 228--234. y[?] ga:Hillis90.

Hillis, D. W.: Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure. In: Langton, C. G., Taylor, C. (eds.): Artificial Life II, pp. 313--322. Addison-Wesley, Redwood City CA (1992).

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Technical Report TR-1 AE91-1, Thinking Machines Corporation, 1990. (Appeared in Physica D42 [1990]: pp. 228-234).

D. Hillis. Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton et al., editors, Articial Life II. Addison-Wesley, 1991.

Hillis, W. D. (1992). Co-evolving parasites improve simulated evolution as an optimization procedure. In Langton, C. G., Taylor, C., Farmer, J. D., and Rasmussen, S., editors, Artificial Life II, volume X of Sante Fe Institute Studies in the Sciences of Complexity, pages 313--324. AddisonWesley, Santa Fe Institute, New Mexico, USA.

, pp. 238--247. HILLIS, D. W. (1990); Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Physica D42, 228-234, 1990.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Chris Langton et al., editors, Articial Life II. Addison Wesley, 1992.

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228-234, 1990.

Hillis, D. (1990). Co-evolving parasites improve simulated evolution as an optimisation procedure. Physica D, 42, 228 -- 234.

Hillis, W. D., 1992, "Co-evolving parasites improve simulated evolution as an optimization procedure" in Artificial Life II, SFI Studies in the Sciences of Complexity, vol. X, edited by Langton, C.G., Farmer, J. D. and Rasmussen, S., Addison-Wesley.

Hillis, W. D. (1990). Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D 42, 228--234.

W. D. Hillis, "Co-evolving parasites improve simulated evolution as an optimization procedure, " in Santa Fe Institute Studies in the Sciences of Complexity, Volume 10, pp. 313--323, Addison-Wesley, 1991. 20

W. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Physica D, volume 42, pages 228--234. 1990.

Hillis, W.D., "Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure," in Emergent Computation: Self-Organizing, Collective, and Cooperative Phenomena in Natural and Artificial Computing Networks, S. Forrest, (ed.). 1991, The MIT Press: Cambridge. pp. 228--234.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization parameter. In J.D. Farmer, C.G. Langton, S. Rasmussen, and C. Taylor, editors, Artificial Life II, pages 311--324. Addison-Wesley, 1992.

D. Hillis. Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton et al., editors, Articial Life II, pages 313-324. AddisonWesley, 1991.

Hillis, W. (1992). Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton, C. Taylor, and J. Farmer (Eds.), Artificial Life II, pp. 313-- 324. Addison Wesley.

W.D. Hillis, Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure, in: C.G. Langton, C. Taylor, J.D. Farmer and S. Rasmussen, eds., Articial Life II: Proceedings of the Second Articial Life Workshop (Addison-Wesley, 1992), 313-324.

W.D. Hillis. Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton, C. Taylor, and J.D. Farmer, editors, Articial Life II, pages 313-324. Addison Wesley, 1992.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C.G. Langton, C. Taylor, J.D. Farmer, and S. Rasmussen, editors, Artificial Life II: Proceedings of the Second Artificial Life Workshop, pages 313-- 324. Addison-Wesley, 1992.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life 2, pages 313--323. Addison-Wesley, 1991.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life 2, pages 313--323. Addison-Wesley, 1991.

W. Hillis. Co-evolving parasites improve simulated evolution as an opimization procedure. Articial Life II, pages 313-324, 1992.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, editors, Artificial Life 2, pages 313--323. Addison-Wesley, 1991.

Hillis W. D. (1991), \Co-evolving parasites improve simulated evolution as an optimization procedure", in Articial Life 2, pages 313-323, Addison-Wesley.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life 2, pages 313--323. Addison-Wesley, 1991.

D. Hillis, "Co-evolving parasites improves simulated evolution as an optimization procedure," in Z. Artificial Life II, C. Langton, et al. Eds. , Addison-Wesley: Reading, MA, 1992, pp. 313#324.

W. D. Hillis. "Co-evolving parasites improves simulated evolution as an optimization technique." Artificial Life II, Addison-Wesley, pp. 313-384, 1991.

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Physica D, volume 42, pages 228--234. 1990.

Hillis, W. D.: Co-evolving parasites improves simulated evolution as an optimization procedure, in C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen (eds.), Artificial Life II, pp. 313--323, Addison-Wesley (1992).

W. Hillis. Co-evolving parasites improve simulated evolution as an opimization procedure. Arti cial Life II, pages 313-324, 1992.

W. D. Hillis. "Co-evolving parasites improves simulated evolution as an optimization technique." Artificial Life II, Addison-Wesley, pp. 313-384, 1991.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, editors, Articial Life II, volume X, pages 313324. Addison-Wesley, Santa Fe Institute, New Mexico, USA, 1990.

W. Daniel Hillis. Co-evolving parasites improvesimulated evolution as an optimization procedure. PhysicaD, 42:228--234, 1990.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Proceedings of ALIFE-2, pages 313-324. Addison Wesley, 1992.

Hillis, D., (1990) "Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure." Physic D 42:228-234.

Hillis, D., Co-Evolving Parasites Improve Simulated Evolution as an Optimization Procedure, Physica D, 42: pp. 228-234, 1990.

Danny Hillis, \Co-Evolving parasites improve simulated evolution as an optimization procedure ", Arti cial Life II, Addison-Wesley.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228-234, 1990.

W.D Hillis, "Co-evolving parasites improve simulated evolution as an optimisation procedure", in Proc. of Artificial Life II, ed. by Langton, Taylor, Farmer and Rasmussen, 1991, pp. 313-324.

Daniel W. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Chris Langon et al., editor, Artificial Life II, pages 313-324, 1992.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life II: Proceedings of the Workshop on Artificial Life Held in 1990.

Hillis, D.W. 1990. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D 42:228-234.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, editors, Artificial Life II, volume X, pages 313--324. Addison-Wesley, Santa Fe Institute, New Mexico, USA, 1990.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990. Proceedings of the Ninth Annual Int. Conf. of the Center for Nonlinear Studies, Ed. Stephanie Forrest.

Hillis, W. D.: Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure. In: Langton, C. G., Taylor, C., Farmer, J. D., and Rasmussen, S. (eds.): Artificial Life II, Santa Fe Institute Studies in the Sciences of Complexity Vol. X 313-324 (1991)

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, editors, Artificial Life II, volume X, pages 313--324. Addison-Wesley, Santa Fe Institute, New Mexico, USA, 1990.

D. Hillis. Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton et al., editors, Artificial Life II, pages 313--324. AddisonWesley, 1991.

Hillis, W.D.: Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D 42 (1990) 228--234

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42(1-3):228--234, 1990.

W. D. Hillis, "Co-evolving parasites improve simulated evolution as an optimization procedure," In Forrest [220], pp. 228-- 234.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, editors, Arti cial Life II, pages 313-324. Addison Wesley, 1992.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Artificial Life 2, pages 313--323. Addison-Wesley, 1991.

D. W. Hillis, Co-evolving parasites improve simulated evolution as an optimization procedure. Pages 313-324 of: Langton, C., Taylor, C., Farmer, J. D., Rasmussen, S. (eds), Artificial life 2, vol. X. Redwood City, CA: AddisonWesley, 1991.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Arti cial Life II: Proc. of the 2nd Conf. on Arti cial Life, 1992.

D. W. Hillis. Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D, 42:228--234, 1990.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, editors, Arti cial Life 2, volume 10 of Santa Fe Institute Studies in the Sciences of Complexity, pages 313-323. Addison-Wesley, 1991.

W. Daniel Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In Christopher G. Langton, Charles Taylor, J. Doyne Farmer, and Steen Rasmussen, editors, Artificial Life II, volume X of Santa Fe Institute Studies in the Sciences of Complexity, pages 313--324. Addison-Wesley, Santa Fe Institute, New Mexico, USA, February 1990 1992.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, editors, Arti cial Life II, volume X, pages 313-324. Addison-Wesley, Santa Fe Institute, New Mexico, USA, 1990.

W. D. Hillis, "Coevolving parasites improve simulated evolution as an optimization procedure," in Proc. Artificial Life II, 1991, pp. 313--324.

D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. In C. Langdon, editor, Artificial Life II, pages 313--324, 1992.

W. D. Hillis, \Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure," in Arti cial life II, edited by C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, 313-324, (AddisonWesley, 1992).

W. D. Hillis, "Co-evolving Parasites Improve Simulated Evolution as an Optimization Procedure," in Artificial life II, (C. G. Langton, C. Taylor, J. D. Farmer, and S. Rasmussen, eds.), pp. 313--324, Addison-Wesley, 1992.

Hillis, D.: Coevolving Parasites Improves Simulated Evolution as an Optimization Procedure. In: Langton, C. G., Taylor, C., Farmer, J. D., Rasmussen, S. (eds.): Artificial Life II - Proc. of the Workshop on the Synthesis and Simulation of Living Systems. Addison Wesley, Redwood City CA (1990) 313--324

D. Hillis: "Co-evolving parasites improve simulated evolution as an optimization procedure." Physica D 42 (1990) 228-234.

D. W. Hillis. Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D, 42:228--234, 1990.

Hillis, D.W.: Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D 42 (1990) 228--234

D. W. Hillis. Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D, 42:228--234, 1990.

D. W. Hillis. Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D, 42:228--234, 1990.

W.D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990. NOT READ.

Hillis, W. D. (2000) "Co-Evolving Parasites Improve Simulated Evolutions as an Optimization Procedure", in Artificial Life II, SFI Studies in the Sciences of Complexity, vol. X., pp. 313-322, (Eds Langton, C. G., Taylor, C., Farmer, J. D., and Rasmussen, S.) Addison-Wesley.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Physica D, 42:228--234, 1990.

D. W. Hillis. Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D, 42:228--234, 1990.

W. D. Hillis. Co-evolving parasites improve simulated evolution as an optimization procedure. Phys. D, 42(1-3):228--234, 1990.

Hillis, D. 1991. Co-evolving parasites improves simulated evolution as an optimization procedure. In C. Langton, C. Taylor, J. F., and Rasmussen, S., eds., Artificial Life II. Reading, MA: Addison-Wesley.

D. W. Hillis. Co-evolving parasites improve simulated evolution in an optimization procedure. Physica D, 42:228--234, 1990.

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