Quantum Bio-Informatics IV From Quantum Information to Bio-Informatics

The purpose of this proceedings volume is to return to the starting point of bio-informatics and quantum information, fields that are growing rapidly at present, and to seriously attempt mutual interaction between the two, with a view to enumerating and solving the many fundamental problems they entail. For such a purpose, we look for interdisciplinary bridges in mathematics, physics, information and life sciences, in particular, research for new paradigm for information science and life science on the basis of quantum theory. Contents:The QP–DYN Algorithms (L Accardi et al.)New Types of Quantum Entropies and Additive Information Capacities (V P Belavkin)Self-Collapses of Quantum Systems and Brain Activities (K-H Fichtner et al.)The Passage from Digital to Analogue in White Noise Analysis and Applications (T Hida)On Quantum Algorithm for Exptime Problem (S Iriyama & M Ohya)On Sufficient Algebraic Conditions for Identification of Quantum States (A Jamiołkowski)Classical Wave Model of Quantum-Like Processing in Brain (A Khrennikov)Entanglement Mapping vs. Quantum Conditional Probability Operator (D Chruściński et al.)Space(-Time) Emergence as Symmetry Breaking Effect (I Ojima)On the Correspondence between Newtonian and Functional Mechanics (E V Piskovskiy & I V Volovich)Signaling Network of Environmental Sensing and Adaptation in Plants: Key Roles of Calcium Ion (K Kuchitsu & T Kurusu)NetzCope: A Tool for Displaying and Analyzing Complex Networks (M J Barber et al.)and other papers Readership: Researchers in quantum information, quantum physics, bio-informatics and life science. Keywords:Quantum Information;Quantum Probability;Quantum Computer;Bioinformatics;Genes;Adaptive Dynamics;White Noise Analysis;Entanglement;Quantum Entropy;SuperconductivityKey Features:Quantum informationBio-InformaticsGlobal research mixing the Quantum information and Bio-Informatics with various mathematical sciences