Dear Computational Neuroscience Community, the program for the "Workshop on Neural Information Dynamics, Causality and Computation near Criticality" (below) is available from Thursday, Nov. 26th at: http://www.proloewe.de/en/neff A few places are still left for both, workshop and course, and will be given away first come, first serve (email to wibral@em.uni-frankfurt.de). The program of the workshop now offers the opportunity to bring a Poster. Best Regards, Michael Wibral ------------------------------------------------------------------------------------------------------------------ LOEWE-NeFF and the Frankfurt Institute for Advanced Studies (FIAS) jointly invite to the “Workshop on Neural Information Dynamics, Causality and Computation near Criticality” December 12-13th, 2014 The workshop is preceded by a “Software course on Neural Information Dynamics with TRENTOOL, the Java Information Dynamics Toolkit and MuTE” December 10-11th, 2014 Venue: Workshop and Software course will be held at the Frankfurt Institute for Advanced Studies (FIAS, www.fias.uni-frankfurt.de), Ruth-Moufang-Straße 1, 60438 Frankfurt, Germany The workshop addresses methods and recent advances in the analysis of computation in large neural systems, focusing on three tightly interrelated topics: Neural information dynamics Information theoretic quantities separate and measure key elements of distributed computation in neural systems, such as the storage, transfer, and modification of information. These concepts can help to better understand the computational algorithms implemented by the dynamics of a neural system, and to provide the link between these algorithms and their biophysical implementation. Causality The analysis of causal interactions yields important insights into the biophysical substrate of neural dynamics that enable emergent computation. It is one of the goals of the workshop to discuss the link between causal analysis and the analyses of information processing proper, in order to clarify the dividing line and the mutual benefit of these two types of analyses. Large scale organisation and criticality Neural systems orchestrate the activity of an enormous number of interacting neurons to achieve their computational capabilities. Recent technological advances make it possible to record simultaneously from a large number of neurons. Here we explore recent developments in identifying large-scale organizing principles underlying computation in extended neural system.