Shapes in the shadow: evolutionary dynamics of morphogenesis
Artificial Life
Shrinking the Genotype: L-systems for EHW?
ICES '01 Proceedings of the 4th International Conference on Evolvable Systems: From Biology to Hardware
RapidAccurate Optimization of Difficult Problems Using Fast Messy Genetic Algorithms
Proceedings of the 5th International Conference on Genetic Algorithms
A Divide-and-Conquer Approach to Evolvable Hardware
ICES '98 Proceedings of the Second International Conference on Evolvable Systems: From Biology to Hardware
Bidirectional Incremental Evolution in Extrinsic Evolvable Hardware
EH '00 Proceedings of the 2nd NASA/DoD workshop on Evolvable Hardware
An adaptive divide-and-conquer methodology for evolutionary multi-criterion optimisation
EMO'03 Proceedings of the 2nd international conference on Evolutionary multi-criterion optimization
A cellular model for the evolutionary development of lightweight material with an inner structure
Proceedings of the 10th annual conference on Genetic and evolutionary computation
Phenotypic, developmental and computational resources: scaling in artificial development
Proceedings of the 10th annual conference on Genetic and evolutionary computation
Investigating the effect of regulatory decisions in a development model
CEC'09 Proceedings of the Eleventh conference on Congress on Evolutionary Computation
Global shape with morphogen gradients and motile polarized cells
CEC'09 Proceedings of the Eleventh conference on Congress on Evolutionary Computation
Evolving plastic responses in artificial cell models
CEC'09 Proceedings of the Eleventh conference on Congress on Evolutionary Computation
ECAL'09 Proceedings of the 10th European conference on Advances in artificial life: Darwin meets von Neumann - Volume Part I
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Artificial Development Systems have been introduced as a technique aimed at increasing the scalability of evolutionary algorithms. Most commonly the development model is part of the evolutionary process, each individual developed during fitness evaluation. To achieve scalability it may be argued that the implicit requirements of evolvability and effectivity ( in terms of its resource requirements) are thus placed on the development model. To achieve an effective development model, one of the challenges is to find appropriate mechanisms from developmental biology and ways to implement them for the application in hand. This work presents a development model for the evolution and development of 3D shapes. The goal being to create a simple development model for any 3D shape. Further, this work provides a preliminary investigation into the usefulness of one of the mechanisms implemented in this model, that of chemicals.