Multiscale analysis and nonlinear dynamics : from genes to the brain

Introduction - Multiscale Analysis: Modeling, Data, Networks, and Dynamics I. MULTIRESOLUTION ANALYSIS Mathieu Desbrun, Roger D. Donaldson, Houman Owhadi: Discrete Geometric Structures in Homogenization and Inverse Homogenization Isaac Z. Pesenson: Multiresolution Analysis on Compact Riemannian Manifolds II. NONLINEAR DYNAMICS of TRANSCRIPTION NETWORKS and SYNTHETIC BIOCHEMICAL CIRCUITS Elisa Franco, Jongmin Kim, Friedrich Simmel: Dynamics of synthetic transcription networks Raphael Plasson, Yannick Rondelez: Synthetic biochemical dynamic circuits III. NONLINEAR DYNAMICS: THE BRAIN AND THE HEART Paul L. Nunez, Ramesh Srinivasan, Lester Ingber: Theoretical and experimental electrophysiology in human neocortex: multiscale dynamic correlates of conscious experience Danielle S. Bassett, Felix Siebenhuhner: Multiscale network organization in the human brain Michel Le Van Quyen, Vicente Botella-Soler, Mario Valderrama: Neuronal oscillations scale up and scale down the brain dynamics Michael X. Cohen, Bradley Voytek: Linking nonlinear neural dynamics to single-trial human behavior Etienne Hugues, Juan R. Vidal, Jean-Philippe Lachaux, Gustavo Deco: Brain dynamics at rest: how structure shapes dynamics Misha Z. Pesenson: Adaptive multiscale encoding - a computational function of neuronal synchronization Zhilin Qu, Michael Nivala: Multi-scale nonlinear dynamics in cardiac electrophysiology: from sparks to sudden death Connor Houghton, Thomas Kreuz: Measures of spike train synchrony: from single neurons to populations