Engineering self-organising emergent systems with simulation-based scientific analysis
作者: Tom De Wolf , Giovanni Samaey , Tom Holvoet , None
DOI:
关键词:
摘要: The goal of engineering self-organising emergent systems is to acquire a macroscopic system behaviour solely from autonomous local activity and interaction. Due the non-deterministic nature such systems, it hard guarantee that required achieved maintained. Before even considering in an industrial context, e.g. for Automated Guided Vehicle (AGV) transportation guarantees are needed. An empirical analysis approach proposed combines realistic agentbased simulations with existing scientific numerical algorithms analysing behaviour. algorithm itself obtains results on fly by steering accelerating simulation process according algorithm’s goal. feasible, compared formal proofs, leads more reliable valuable results, mere observation results. Also, allows systematically analyse feedback can be used iteratively shape solution.
kuleuven.be 参考文章(16)
H. Van Dyke Parunak, Sven A. Brueckner, Engineering Swarming Systems Methodologies and Software Engineering for Agent Systems. pp. 341- 376 ,(2004) , 10.1007/1-4020-8058-1_21
Bruce Edmonds, Using the Experimental Method to Produce Reliable Self-Organised Systems Engineering Self-Organising Systems. pp. 84- 99 ,(2005) , 10.1007/11494676_6
Radhika Nagpal, A catalog of biologically-inspired primitives for engineering self-organization ESOA'03 Proceedings of the 2003 International Conference on Engineering Self-Organising Systems: Nature-Inspired Approaches to Software Engineering. pp. 53- 62 ,(2003) , 10.1007/978-3-540-24701-2_4
Geoff Poulton, Ying Guo, Geoff James, Phil Valencia, Vadim Gerasimov, Jiaming Li, Directed Self-assembly of 2-Dimensional Mesoblocks Using Top-Down/Bottom-Up Design Engineering Self-Organising Systems. pp. 154- 166 ,(2005) , 10.1007/11494676_10
T. De Wolf, G. Samaey, T. Holvoet, D. Roose, Decentralised Autonomic Computing: Analysing Self-Organising Emergent Behaviour using Advanced Numerical Methods international conference on autonomic computing. pp. 52- 63 ,(2005) , 10.1109/ICAC.2005.20
C. William Gear, James M. Hyman, Panagiotis G Kevrekidid, Ioannis G. Kevrekidis, Olof Runborg, Constantinos Theodoropoulos, Equation-Free, Coarse-Grained Multiscale Computation: Enabling Mocroscopic Simulators to Perform System-Level Analysis Communications in Mathematical Sciences. ,vol. 1, pp. 715- 762 ,(2003) , 10.4310/CMS.2003.V1.N4.A5
William G. Wilson, Resolving Discrepancies between Deterministic Population Models and Individual‐Based Simulations The American Naturalist. ,vol. 151, pp. 116- 134 ,(1998) , 10.1086/286106
Ioannis G. Kevrekidis, C. William Gear, Gerhard Hummer, Equation-free: The computer-aided analysis of complex multiscale systems Aiche Journal. ,vol. 50, pp. 1346- 1355 ,(2004) , 10.1002/AIC.10106
Daniel Kunkle, Stephen Guerin, Emergence of constraint in self-organizing systems. Nonlinear Dynamics, Psychology, and Life Sciences. ,vol. 8, pp. 131- 146 ,(2004)
H. Van Dyke Parunak, Robert Savit, Rick L. Riolo, Agent-Based Modeling vs. Equation-Based Modeling: A Case Study and Users' Guide multi agent systems and agent based simulation. pp. 10- 25 ,(1998) , 10.1007/10692956_2