| 036a | XA-DE |
| 037b | eng |
| 077a | 371014182 Buchausg. u.d.T.: ‡Integral biomathics |
| 087q | 978-3-642-28110-5 |
| 100 | Simeonov, Plamen L. |
| 104b | Smith, Leslie S. |
| 108b | Ehresmann, Andrée C. |
| 331 | Integral Biomathics |
| 335 | Tracing the Road to Reality |
| 410 | Berlin, Heidelberg |
| 412 | Springer |
| 425 | 2012 |
| 425a | 2012 |
| 433 | Online-Ressource (XXIV, 432 p. 44 illus, digital) |
| 451b | SpringerLink. Bücher |
| 501 | Description based upon print version of record |
| 517 | Title; Contents; Part IBiology and Neuroscience; Editorial; Processes and Problems That May Definethe New BioMathematics Field; References; Overlap among Dendrites in Neuronal NetworksIs a Designed Entity onto Which Functional Topology Is Coded; Introduction; Methods; Results; Discussion; References; MENS: From Neurons to Higher Mental Processesup to Consciousness; References; A New Approach to the Information in Neural Systems; The Computational Goal of the Nervous System; The Definition of Probability and Information; The Need to Unite Information with Biophysics. The New Neurocentric Approach to NeuronsThe Groundwork for a General Theory of the Nervous System; References; Introduction; Towards a New Approach in Modeling Adaptation; E.coli Chemotaxis; Adaptation in E.coli; How Much Knowledge of Itself Has a Biological System?; The Internal Model Principle; Habituation Learning; Discussion; References; Galvanotaxis of the Plasmodium of Physarum Polycephalum; Introduction; Method; Results; Discussion; References; How Do Neural Systems Use Probabilistic Inference That Is Context-Sensitive to Create and Preserve Organized Complexity?. Unsolved Problems in Theoretical NeurobiologyEvidence for Local Reliability and Holistic Flexibility; The Theory of Coherent Infomax; Unsolved Problems in the Theory of Coherent Infomax; References; Introduction: Living Systems and Cells; Abstracting Cells; Proteins and Stochasticity; Information Processing and Cells; What Is theWay Forward from Here?; Addendum; References; Part IIMathematics and Computation; Editorial; Towards Cross-Modeling between Life and Solid State Physics; Introduction; Scale; Hierarchy; Electron Properties in the Solid State; Conclusion; References. Info-computationalism and Morphological Computing of Informational StructureFoundations of a New Science of Computation; Natural Computation; Universe as Informational Structure; Info-computational Universe; Morphological Computation; Morphological Computing as Information Self-structuring; Info-computational Character of Morpohogenetic Computing; References; WLIMES, the Wandering LIMES: Towards a Theoretical Framework for Wandering Logic Intelligence Memory Evolutive Systems; Introduction; The Wandering Logic Intelligence; The Memory Evolutive Systems Theory; Can We Merge WLI and MES?. Conclusions and OutlookReferences; Introduction; Completely Closed Systems: Revisited; Distinction between Organization and Structure: A Combination with; -Calculus; Discussion; References; Introduction; The Formalism and Motivation of; Semantics; Proof System; Conclusion; References; Part IIIModels and Applications; Editorial; From Life to Mind: 2 Prosaic Miracles?; Chemical Machinery of Darwinian Evolution; Neural Machinery of Learning for Understanding; Cerebral Proofreading; Proofreading Machinery; From Mammals to Humans: Neural Sex; Summary; References. Do the Origins of Biological General Intelligence Lie in an Adaptation of the Stress Response? |
| 527 | Buchausg. u.d.T.: ‡Integral biomathics |
| 540a | ISBN 978-3-642-28111-2 |
| 700 | |UYQ |
| 700 | |COM004000 |
| 700b | |006.3 |
| 700c | |Q342 |
| 700g | 1270877593 SK 950 |
| 700g | 1271505894 WD 9200 |
| 750 | Annotation, Perhaps the most distinct question in science throughout the ages has been the one of perceivable reality, treated both in physics and philosophy. Reality is acting upon us, and we, and life in general, are acting upon reality. Potentiality, found both in quantum reality and in the activity of life, plays a key role. In quantum reality observation turns potentiality into reality. Again, life computes possibilities in various ways based on past actions, and acts on the basis of these computations. This book is about a new approach to biology (and physics, of course!). Its subtitle suggests a perpetual movement and interplay between two elusive aspects of modern science reality/matter and potentiality/mind, between physics and biology both captured and triggered by mathematics to understand and explain emergence, development and life all the way up to consciousness. But what is the real/potential difference between living and non-living matter? How does time in potentiality differ from time in reality? What we need to understand these differences is an integrative approach. This book contemplates how to encircle life to obtain a formal system, equivalent to the ones in physics. Integral Biomathics attempts to explore the interplay between reality and potentiality |
| 753 | Perhaps the most distinct question in science throughout the ages has been the one of perceivable reality, treated both in physics and philosophy. Reality is acting upon us, and we, and life in general, are acting upon reality. Potentiality, found both in quantum reality and in the activity of life, plays a key role. In quantum reality observation turns potentiality into reality. Again, life computes possibilities in various ways based on past actions, and acts on the basis of these computations. This book is about a new approach to biology (and physics, of course!). Its subtitle suggests a perpetual movement and interplay between two elusive aspects of modern science reality/matter and potentiality/mind, between physics and biology both captured and triggered by mathematics to understand and explain emergence, development and life all the way up to consciousness. But what is the real/potential difference between living and non-living matter? How does time in potentiality differ from time in reality? What we need to understand these differences is an integrative approach. This book contemplates how to encircle life to obtain a formal system, equivalent to the ones in physics. Integral Biomathics attempts to explore the interplay between reality and potentiality. |
| 902s | 210030127 Theoretische Biologie |
| 902s | 212405128 Emergenz |
| 902f | |Aufsatzsammlung |
| 012 | 369425480 |
| 081 | Simeonov, Plamen L.: Integral Biomathics |
| 100 | Springer E-Book |
| 125a | Elektronischer Volltext - Campuslizenz |
| 655e | $uhttp://dx.doi.org/10.1007/978-3-642-28111-2 |
