The sciences of the artificial (3rd ed.)
The sciences of the artificial (3rd ed.)
Multi-Objective Optimization Using Evolutionary Algorithms
Multi-Objective Optimization Using Evolutionary Algorithms
Computer
Artificial Intelligence for Engineering Design, Analysis and Manufacturing
Proceedings of the 2011 Symposium on Simulation for Architecture and Urban Design
Proceedings of the 2012 Symposium on Simulation for Architecture and Urban Design
Proceedings of the Symposium on Simulation for Architecture & Urban Design
Integrated design in the simulation process
Proceedings of the Symposium on Simulation for Architecture & Urban Design
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Simulation is an increasingly essential tool in the design of our environment, but any model is only as good as the initial assumptions on which it is built. This paper aims to outline some of the limits and potential dangers of reliance on simulation, and suggests how to make our models, and our buildings, more robust with respect to the uncertainty we face in design. It argues that the single analyses provided by most simulations display too precise and too narrow a result to be maximally useful in design, and instead a broader description is required, as might be provided by many differing simulations. Increased computing power now allows this in many areas. Suggestions are made for the further development of simulation tools for design, in that these increased resources should be dedicated not simply to the accuracy of single solutions, but to a bigger picture that takes account of a design's robustness to change, multiple phenomena that cannot be predicted, and the wider range of possible solutions. Methods for doing so, including statistical methods, adaptive modelling, machine learning and pattern recognition algorithms for identifying persistent structures in models, will be identified. We propose a number of avenues for future research and how these fit into design process, particularly in the case of the design of very large buildings.