Charles Perkins Centre, The University of Sydney
November 30 – December 4, 2015
The study of complex systems is about understanding indirect effects. Why is it necessary to study complex systems? Humans are typically inclined to use reductionist logic. To understand how a system would behave overall, or to test whether a human-made system works as it was intended to, we put it through a series of ‘short, discrete’ scenarios, expecting a ‘correct response’ to each scenario. However, complex systems do not lend themselves to short, discrete scenarios. Not all scenarios have clear endings or known, correct answers. How do we evaluate the usability of, or predict the behaviour of systems that are too complex for our typical reductionist reasoning? The answer to this question is not intuitive or trivial, and a specific skill set needs to be developed in order to answer it.
We will consider a diverse range of systems, applications, theoretical and practical approaches to computational modelling of modern complex systems such as health, including information theory, agent-based simulation, network theory, nonlinear dynamics, swarm intelligence, evolutionary methods, computational neuroscience, and econophysics, among others.
The program is organised into three themes: Mathematics and Simulation for Complex Systems, Complex Physical Systems, and Health and Complex Systems.
The closing lecture on 4 Dec will be given by Prof Paul Davies (The Beyond Centre for Fundamental Concepts in Science, Arizona, USA) — http://sydney.edu.au/perkins/events/featured-events/annual-oration.shtml
The Research Camp will be held in conjunction with a C3 Symposium on Nov 26-27 — http://sydney.edu.au/perkins/events/featured-events/c3-symposium.shtml
Registration is now open via the Research Camp website, until October 30.