Processes Of Emergence Of Systems And Systemic Properties
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Processes of Emergence of Systems and Systemic Properties
This book contains the Proceedings of the 2007 Conference of the Italian Systems Society. Papers deal with the interdisciplinary study of processes of emergence, considering theoretical aspects and applications from physics, cognitive science, biology, artificial intelligence, economics, architecture, philosophy, music and social systems. Such an interdisciplinary study implies the need to model and distinguish, in different disciplinary contexts, the establishment of structures, systems and systemic properties. Systems, as modeled by the observer, not only possess properties, but are also able to make emergent new properties. While current disciplinary models of emergence are based on theories of phase transitions, bifurcations, dissipative structures, multiple systems and organization, the present volume focuses on both generalizing those disciplinary models and identifying correspondences and new more general approaches. The general conceptual framework of the book relates to the attempt to build a general theory of emergence as a general theory of change, corresponding to Von Bertalanffy''s project for a general system theory.
Processes Of Emergence Of Systems And Systemic Properties: Towards A General Theory Of Emergence - Proceedings Of The International Conference
Author: Gianfranco Minati
language: en
Publisher: World Scientific
Release Date: 2008-12-04
This book contains the Proceedings of the 2007 Conference of the Italian Systems Society. Papers deal with the interdisciplinary study of processes of emergence, considering theoretical aspects and applications from physics, cognitive science, biology, artificial intelligence, economics, architecture, philosophy, music and social systems. Such an interdisciplinary study implies the need to model and distinguish, in different disciplinary contexts, the establishment of structures, systems and systemic properties. Systems, as modeled by the observer, not only possess properties, but are also able to make emergent new properties. While current disciplinary models of emergence are based on theories of phase transitions, bifurcations, dissipative structures, multiple systems and organization, the present volume focuses on both generalizing those disciplinary models and identifying correspondences and new more general approaches. The general conceptual framework of the book relates to the attempt to build a general theory of emergence as a general theory of change, corresponding to Von Bertalanffy's project for a general system theory.
Fundamental Properties of the Human Nervous System
Author: V. Nebylitsyn
language: en
Publisher: Springer Science & Business Media
Release Date: 2013-03-08
Although today differential psychology embraces a large and ever-increasing body of facts, conclusions, and practical recommendations which have wide applicability, a number of critical problems are still unresolved or only partly resolved. One of the most important of these is the relationship between individual variations in human behavior and in dividual features of a range of correlated physiological functions. Adequate concepts exist for understanding individual variations in some physiological functions underlying specific aspects (speed, tempo, rhythm, amplitude) of the flow of psychical activity. This fact alone is of considerable importance, especially when we consider that such dynamic features can-and sometimes do in a fundamental way-modulate psychological functioning. If we consider, in addition, that in certain circumstances these variables have a direct and sometimes decisive effect on the final behavioral outcome, it seems obvious that the parameters of physiologically active systems determine a number of important features of complex human behavior. According to Pavlov, the most important of these is that system com prising central nervous system properties, which determine the generation of excitatory and inhibitory processes in the structures of the central nervous system. The concept of basic nervous system properties as leading parameters of the psychophysiological organization of individuality seems to be one of the outstanding achievements of the Pavlovian school. It provided the framework within which investigators could attempt to determine ex perimentally individual features of behavior and reactivity.