000			02081nmm a2200217Ia 4500
008			240425s9999 xx 000 0 und d
020			_a9783540714620
020			_a9783540715122
082			_a620 _bJ566H
100			_aJirsa, Victor K. _eeditor _944926
100			_aMcintosh, A. R. _eeditor _944927
245		0	_aHandbook of Brain Connectivity _cby Viktor K. Jirsa, A. R. McIntosh _h[electronic resource]
250			_a1st ed.
260			_aHeidelberg _bSpringer _c2007
300			_ax, 528p.
500			_aOur contemporary understanding of brain function is deeply rooted in the ideas of the nonlinear dynamics of distributed networks. Cognition and motor coordination seem to arise from the interactions of local neuronal networks, which themselves are connected in large scales across the entire brain. The spatial architectures between various scales inevitably influence the dynamics of the brain and thereby its function. But how can we integrate brain connectivity amongst these structural and functional domains? Our Handbook provides an account of the current knowledge on the measurement, analysis and theory of the anatomical and functional connectivity of the brain. All contributors are leading experts in various fields concerning structural and functional brain connectivity. In the first part of the Handbook, the chapters focus on an introduction and discussion of the principles underlying connected neural systems. The second part introduces the currently available non-invasive technologies for measuring structural and functional connectivity in the brain. Part three provides an overview of the analysis techniques currently available and highlights new developments. Part four introduces the application and translation of the concepts of brain connectivity to behavior, cognition and the clinical domain.
650			_aMathematical and Computational Engineering _944928
650			_aVibration, Dynamical Systems, Control _944929
856			_uhttps://link.springer.com/book/10.1007/978-3-540-71512-2#bibliographic-information
942			_cEBK _2ddc
999			_c16491 _d16491