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Found 6 papers, 0 papers with code
Self-Modifying Code in Open-Ended Evolutionary Systems
After highlighting some current modelling and implementation challenges, model building blocks of open-ended evolutionary systems are identified, a system metamodel of open-ended evolution is formalised in the allagmatic method, an implementation self-modifying code prototype with a high-level programming language is provided, and guidance from the allagmatic method to create code blocks is described.
Open-Ended Automatic Programming Through Combinatorial Evolution
We found that reserved keywords of a programming language are suitable for defining the basic code blocks at the beginning of the simulation.
Philosophy-Guided Modelling and Implementation of Adaptation and Control in Complex Systems
In earlier works we have developed a system metamodel that on the one hand refers to cybernetic concepts such as structure, operation, and system, and on the other to the philosophy of individuation of Gilbert Simondon.
Philosophy-Guided Mathematical Formalism for Complex Systems Modelling
We recently presented the so-called allagmatic method, which includes a system metamodel providing a framework for describing, modelling, simulating, and interpreting complex systems.
Cybernetical Concepts for Cellular Automaton and Artificial Neural Network Modelling and Implementation
As a discipline cybernetics has a long and rich history.
Automatic Programming of Cellular Automata and Artificial Neural Networks Guided by Philosophy
By automatically combining these building blocks in an evolutionary computation, interpretability might be increased by the relationship to the metamodel, and models might be translated into more interpretable models via the metamodel.
