The Local Information Dynamics of Distributed Computation in Complex Systems (Springer Theses),Used

The Local Information Dynamics of Distributed Computation in Complex Systems (Springer Theses),Used

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The nature of distributed computation in complex systems has often been described in terms of memory, communication and processing. This thesis presents a complete informationtheoretic framework to quantify these operations on information (i.e. information storage, transfer and modification), and in particular their dynamics in space and time. The framework is applied to cellular automata, and delivers important insights into the fundamental nature of distributed computation and the dynamics of complex systems (e.g. that gliders are dominant information transfer agents). Applications to several important network models, including random Boolean networks, suggest that the capability for information storage and coherent transfer are maximised near the critical regime in certain orderchaos phase transitions. Further applications to study and design information structure in the contexts of computational neuroscience and guided selforganisation underline the practical utility of the techniques presented here.

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