Kinematics of the Brain Activities: Volume Iii
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Any sensory input enters into brain with a physical effect of stress on the brain. it is normally within the safe range of absorption by the brain as an elastic material. the respond to the entered stress would be shut off immediately afterwards. the duration of its effects is in term of milliseconds and maximum as long as a brain activity and related working memory continues.
Any brain activity is a process of: receiving the pattern of things through input stress flow; finding a balance state with structural patterns of neurons; and responding as a processed pattern. The processing in macroscale, includes stress transfer, absorption, desorption and dispatch of travelling free energy associated to the induced stress through neuron networks, substrate by substrate in a pathway. The balanced condition of the consequence strains provides a complete landscape of strained pattern which back up a brain activity as it is known to us and disappears by releasing of strains. This book attempts to explain this process in a kinematic way of description.
Mostafa M. Dini
Mostafa M. Dini graduated in Chemical Engineering. His greatest achievements to date go back to working as a conceptual designer for years. His taste is scientific both experimental and theoretical. He likes nature and has tried to live closely to nature. He believes living close to nature brings back peace and love to humanity.
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Kinematics of the Brain Activities - Mostafa M. Dini
Copyright © 2012 by Fluent Writing Ltd.
Library of Congress Control Number: 2012903771
ISBN: Hardcover 978-1-4691-7592-8
Softcover 978-1-4691-7591-1
Ebook 978-1-4691-7593-5
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Contents
Preface
Introduction
Chapter I
Chapter II
Chapter III
Glossary
Preface
This is the third volume of a series on the Kinematics of the Brain Activities. The subject is developed in order to make possible an animation model that is capable of simulating a built model based on the information detailed in the book series. The simulated model can demonstrate the predicted outputs that help to modify the model aiming to provide actual behaviors of the brain. A fourth volume, which I hope to publish soon, will develop the subject further toward the same goal.
In the previous volumes, the chapters were organized according to the brain structural levels: molecular, substrate, pathway and layer. In this volume I have tried to follow the same procedure, although it was not possible for some of sections. A comparison between present theories and the kinematic model is given in the next section to make the main body of the book easier to grasp.
Due to the application of the terms borrowed from fluid dynamics and other fields of physics, some multidisciplinary terms have been used here. At the same time, building a model on a macroscale requires simplification. Therefore, some new terms have been used. For example, the term mentation refers to different currents of feelings, automatic thoughts, and intentional thinking, which are attached to, or named for, different types of energy transfers.
Furthermore, some abstract and physical meanings have been assumed to be equivalent. For example, substance names, events, and functions are referred to as creeping (substantial or static), transmitting (flowing) or procedural energy flows when a relevant pathway structure is excited.
Introduction
The development of synchronized firings in the brain on a mass scale through a pathway makes possible a kinematic study of brain activities. Kinematics is a branch of physics that perceives the brain as layers through which free energy flows. Therefore, instead of considering the individual brain neuron firings, kinematics considers a flow of synchronized firings, in packets and in definite routes, and their impacts on the routes. The routes are referred as pathways here.
The development of firings’ routes can be followed by studying a variety of chemical, electrical, magnetic field energies and tiny changes in blood flow to parts of the brain. However, if all these energies are measured in relative to any change in firing gates spatial configuration, they become much simpler to study. Thus, there are continuous firing gates configuration changes occurring in excited pathways over the outer layer of the brain in the shape of steady fluctuations. The elasticity of the outer layer remains linear for these steady oscillations. However, when oscillation exceeds for beyond the linear range of elasticity behavior, the location of the nonlinear oscillation undergoes strains. The excess of strain related to the overwhelming of the linear limit of layer elasticity is consumed by chemical changes in the place, causing other changes in electrical parameter and magnetic field strength. These changes occur in the space of firing gate channels and accelerate the firings that occur there. The confined energy accumulated in the pathways over the layer cause decay in the layer’s elasticity property, which is then recovered during sleep in a regenerative process.
Before starting the kinematics of the brain activities, following a brief description of difference between kinematics and neuroscience common terms is given.