Cartesian genetic programming

Cartesian genetic programming is a form of genetic programming that uses a graph representation to encode computer programs. It grew from a method of evolving digital circuits developed by Julian F. Miller and Peter Thomson in 1997.^[1] The term ‘Cartesian genetic programming’ first appeared in 1999^[2] and was proposed as a general form of genetic programming in 2000.^[3] It is called ‘Cartesian’ because it represents a program using a two-dimensional grid of nodes.^[4]

Miller's keynote^[5] explains how CGP works. He edited a book entitled Cartesian Genetic Programming,^[6] published in 2011 by Springer.

The open source project dCGP^[7] implements a differentiable version of CGP developed at the European Space Agency by Dario Izzo, Francesco Biscani and Alessio Mereta ^[8] able to approach symbolic regression tasks, to find solution to differential equations, find prime integrals of dynamical systems, represent variable topology artificial neural networks and more.

References

↑ Miller, J.F., Thomson, P., Fogarty, T.C.: Designing Electronic Circuits Using Evolutionary Algorithms: Arithmetic Circuits: A Case Study. In: D. Quagliarella, J. Periaux, C. Poloni, G. Winter (eds.) Genetic Algorithms and Evolution Strategies in Engineering and Computer Science: Recent Advancements and Industrial Applications, pp. 105–131. Wiley (1998)
↑ Miller, J.F.: An Empirical Study of the Efficiency of Learning Boolean Functions using a Cartesian Genetic Programming Approach. In: Proc. Genetic and Evolutionary Computation Conference, pp. 1135–1142. Morgan Kaufmann (1999)
↑ Miller, J.F., Thomson, P.: Cartesian Genetic Programming. In: Proc. European Conference on Genetic Programming, LNCS, vol. 1802, pp. 121–132. Springer (2000)
↑ S. Sumathi; T. Hamsapriya; P. Surekha (15 May 2008). Evolutionary Intelligence: An Introduction to Theory and Applications with Matlab. Springer Science & Business Media. pp. 201–. ISBN 978-3-540-75382-7. https://books.google.com/books?id=_w7jx5KS0b8C.
↑ "Julian Miller - Tutorial: Cartesian Genetic Programming". https://www.youtube.com/watch?v=qb2R0rL4OHQ.
↑ Miller, Julian F., ed (2011) (in en-gb). Cartesian Genetic Programming. doi:10.1007/978-3-642-17310-3. ISBN 978-3-642-17309-7.
↑ "dCGP v1.5". https://darioizzo.github.io/dcgp/index.html.
↑ Izzo, D. and Biscani, F. and Mereta, A.: Differentiable Genetic Programming. In: Proc. European Conference on Genetic Programming, LNCS, vol. 10196, pp. 35–51. Springer (2017)

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[1] Miller, J.F., Thomson, P., Fogarty, T.C.: Designing Electronic Circuits Using Evolutionary Algorithms: Arithmetic Circuits: A Case Study. In: D. Quagliarella, J. Periaux, C. Poloni, G. Winter (eds.) Genetic Algorithms and Evolution Strategies in Engineering and Computer Science: Recent Advancements and Industrial Applications, pp. 105–131. Wiley (1998)

[2] Miller, J.F.: An Empirical Study of the Efficiency of Learning Boolean Functions using a Cartesian Genetic Programming Approach. In: Proc. Genetic and Evolutionary Computation Conference, pp. 1135–1142. Morgan Kaufmann (1999)

[3] Miller, J.F., Thomson, P.: Cartesian Genetic Programming. In: Proc. European Conference on Genetic Programming, LNCS, vol. 1802, pp. 121–132. Springer (2000)

[SumathiHamsapriya2008-4] S. Sumathi; T. Hamsapriya; P. Surekha (15 May 2008). Evolutionary Intelligence: An Introduction to Theory and Applications with Matlab. Springer Science & Business Media. pp. 201–. ISBN 978-3-540-75382-7. https://books.google.com/books?id=_w7jx5KS0b8C.

[5] "Julian Miller - Tutorial: Cartesian Genetic Programming". https://www.youtube.com/watch?v=qb2R0rL4OHQ.

[6] Miller, Julian F., ed (2011) (in en-gb). Cartesian Genetic Programming. doi:10.1007/978-3-642-17310-3. ISBN 978-3-642-17309-7.

[7] "dCGP v1.5". https://darioizzo.github.io/dcgp/index.html.

[8] Izzo, D. and Biscani, F. and Mereta, A.: Differentiable Genetic Programming. In: Proc. European Conference on Genetic Programming, LNCS, vol. 10196, pp. 35–51. Springer (2017)

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v t e Evolutionary computation
Main Topics	Convergence (evolutionary computing) Evolutionary algorithm Evolutionary data mining Evolutionary multimodal optimization Human-based evolutionary computation Interactive evolutionary computation
Algorithms	Cellular evolutionary algorithm Covariance Matrix Adaptation Evolution Strategy (CMA-ES) Differential evolution Evolutionary programming Genetic algorithm Genetic programming Gene expression programming Evolution strategy Natural evolution strategy Neuroevolution Learning classifier system
Related techniques	Swarm intelligence Ant colony optimization Bees algorithm Cuckoo search Particle swarm optimization Bacterial Colony Optimization
Metaheuristic methods	Grey Wolf Optimizer Firefly algorithm Harmony search Gaussian adaptation Memetic algorithm
Related topics	Artificial development Artificial intelligence Artificial life Digital organism Evolutionary robotics Fitness function Fitness landscape Fitness approximation Genetic operators Interactive evolutionary computation No free lunch in search and optimization Machine learning Mating pool Program synthesis
Journals	Evolutionary Computation (journal)

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