Cosmos 2008: Complex Systems Modelling and SimulationSusan Stepney, Fiona Polack, Peter Welch Luniver Press, 2008 - 136 sider The study of Complex Systems is growing rapidly, and modelling and simulation tools are an important part of the process. This volume brings together work from a multidisciplinary group of scientists, from biology and computer science, who are studying a variety of techniques and applications for modelling and simulating complex systems. A common theme emerging from much of this work is an emphasis on validation: how one can have confidence that a computer simulation is saying something sensible about the complex real-world domain of interest. |
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Side 3
... activities and practices. As an ongoing work the paper also addresses the application of the proposed process and activities to a case study dealing with formation and dynamics of herds in animals. The rest of the paper is structured as ...
... activities and practices. As an ongoing work the paper also addresses the application of the proposed process and activities to a case study dealing with formation and dynamics of herds in animals. The rest of the paper is structured as ...
Side 7
... activities (steps) and transitions. An activity defines the tasks (operations) which need be performed at a particular point, while the transitions define the output from one activity and the input to the next one. The section that ...
... activities (steps) and transitions. An activity defines the tasks (operations) which need be performed at a particular point, while the transitions define the output from one activity and the input to the next one. The section that ...
Side 8
... Activities and Transitions Figure 4.2 presents a detailed overview of the activities and transitions envisioned in a cycle . However it has to be noted that the first two steps are performed only in the initial cycle of the first phase ...
... Activities and Transitions Figure 4.2 presents a detailed overview of the activities and transitions envisioned in a cycle . However it has to be noted that the first two steps are performed only in the initial cycle of the first phase ...
Side 15
... activities. Identify the possible states and state transitions for the system at the macro-level. Determine the possible roles of the micro level compo- nents for a particular state at the macro-level. Identify (if possible) how state ...
... activities. Identify the possible states and state transitions for the system at the macro-level. Determine the possible roles of the micro level compo- nents for a particular state at the macro-level. Identify (if possible) how state ...
Side 16
... activities 1 and 2 ) in terms of the properties of the individual animal , communication and environment as well as the emergent behaviour exhibited are presented in section 5.2 . The developed models of the individual animal , the ...
... activities 1 and 2 ) in terms of the properties of the individual animal , communication and environment as well as the emergent behaviour exhibited are presented in section 5.2 . The developed models of the individual animal , the ...
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abstraction accidents activities AP lifespan AP system apoplast approach argument aspects assumptions AUX/LAX Auxin Canal auxin transport biological detail biologists blood circulation canalisation capture cause cell membrane chemokine class diagram clotting complex systems Complex Systems Modelling components Computer Science computer simulations conceptual model CoSMoS project defined detection Diffuse Domain Model dynamics Eleftherakis emergent behaviour emergent phenomena emergent properties endothelial cells environment example figure Formal Verification framework fuzzy goal hazard analysis herd formation HEV lumen hypothesis identified implementation interaction lymph node lymphocyte lymphocyte processes macro-level methods micro Model class diagram modelling and simulation multi-agent model neighbours NetLogo output overview parameters pericytes phase PIN protein Plant platelets probability problem entity produce safety engineering safety-critical Sargent software engineering Software Model specific speed structure Susan Stepney techniques tion tool transition University of York vacuole venule XMDL zone