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YinYang Bipolar Relativity

Book Description

YinYang bipolar relativity can trace its philosophical origins to ancient Chinese YinYang cosmology, which claims that everything has two sides or two opposite, but reciprocal, poles or energies. More specifically, this discipline is intended to be a logical unification of general relativity and quantum mechanics. YinYang Bipolar Relativity: A Unifying Theory of Nature, Agents and Causality with Applications in Quantum Computing, Cognitive Informatics and Life Sciences presents real-world applications of YinYang bipolar relativity that focus on quantum computing and agent interaction. This unique work makes complex theoretical topics, such as the ubiquitous effects of quantum entanglement, logically comprehendible to a vast audience.

Table of Contents

  1. Cover
  2. Title Page
  3. Copyright Page
  4. Dedication
  5. Foreword
    1. THE POSITIVE SIDE WROTE
    2. The Negative Side Wrote
  6. Acknowledgment
  7. Section 1: Introduction and Background
    1. Chapter 1: Introduction
      1. ABSTRACT
      2. INTRODUCTION
      3. EINSTEIN AND YINYANG BIPOLAR RELATIVITY
      4. GENERAL RELATIVITY AND QUANTUM THEORY
      5. LOGICAL AXIOMATIZATION FOR ILLOGICAL PHYSICS – THE LAFIP PARADOX
      6. OBSERVATION AND POSTULATION
      7. BOOK OVERVIEW
      8. SUMMARY
    2. Chapter 2: Background Review
      1. ABSTRACT
      2. INTRODUCTION
      3. FAULTLINE OF OBSERVABILITY AND TRUTH-BASED THINKING
      4. BIPOLARITY VS. SINGULARITY
      5. QUEST FOR DEFINABLE CAUSALITY
      6. SCIENCE VS. SOCIAL CONSTRUCTION-DESTRUCTION
      7. SUMMARY
  8. Section 2: Set Theoretic Foundation
    1. Chapter 3: Bipolar Sets and YinYang Bipolar Dynamic Logic (BDL)
      1. ABSTRACT
      2. INTRODUCTION
      3. BIPOLAR SETS AND BIPOLAR DYNAMIC LOGIC (BDL)
      4. LAWS OF EQUILIBRIUM AND BIPOLAR UNIVERSAL MODUS PONENS
      5. BIPOLAR AXIOMATIZATION AND COMPUTABILITY
      6. BIPOLAR MODALITY
      7. BIPOLAR RELATIONS AND EQUILIBRIUM RELATIONS
      8. ON GÖDEL’S INCOMPLETENESS THEOREM
      9. RESEARCH TOPICS
      10. SUMMARY
    2. Chapter 4: Bipolar Quantum Lattice and Dynamic Triangular Norms
      1. ABSTRACT
      2. INTRODUCTION
      3. BIPOLAR QUANTUM LATTICES AND L-SETS
      4. BIPOLAR DYNAMIC T-NORMS AND P-NORMS
      5. NORM-BASED BIPOLAR UNIVERSAL MODUS PONENS
      6. COMPARISON AND DISCUSSION
      7. BIPOLARITY, LINEARITY, INTEGRITY AND RECOVERY THEOREM
      8. RESEARCH TOPICS
      9. SUMMARY
    3. Chapter 5: Bipolar Fuzzy Sets and Equilibrium Relations
      1. ABSTRACT
      2. INTRODUCTION
      3. BIPOLAR FUZZY RELATIONS
      4. BIPOLAR Α-LEVEL SETS
      5. FUZZY EQUILIBRIUM RELATIONS
      6. BIPOLAR FUZZY CLUSTERING
      7. EQUILIBRIUM ENERGY AND STABILITY FOR MULTIAGENT COORDINATION AND GLOBAL REGULATION
      8. RESEARCH TOPICS
      9. SUMMARY
  9. Section 3: YinYang Bipolar Relativity and Bipolar Quantum Computing
    1. Chapter 6: Agents, Causality, and YinYang Bipolar Relativity
      1. ABSTRACT
      2. INTRODUCTION
      3. AGENTS
      4. BIPOLAR AGENTS
      5. BIPOLAR CAUSALITY AND BIPOLAR CAUSAL REASONING
      6. YINYANG BIPOLAR RELATIVITY
      7. PREDICTIONS
      8. AXIOMATIZATION OF PHYSICS
      9. RESEARCH TOPICS
      10. SUMMARY
    2. Chapter 7: YinYang Bipolar Quantum Entanglement
      1. ABSTRACT
      2. INTRODUCTION
      3. REVIEW ON QUANTUM THEORY
      4. BIPOLAR QUANTUM ENTANGLEMENT AND TELEPORTATION
      5. A TAXONOMY FOR BIPOLAR QUANTUM COMPUTING
      6. RESEARCH TOPICS
      7. SUMMARY
    3. Chapter 8: Bipolar Quantum Linear Algebra (BQLA) and Bipolar Quantum Cellular Automata (BQCA)
      1. ABSTRACT
      2. INTRODUCTION
      3. BACKGROUND REVIEW
      4. BIPOLAR QUANTUM LINEAR ALGEBRA AND BIPOLAR QUANTUM CELLULAR AUTOMATA
      5. EQUILIBRIUM, NON-EQUILIBRIUM, AND OSCILLATORY BQCAS ADAPTED FROM (ZHANG ET AL., 2009)
      6. A UNIFYING PARADIGM OF BIPOLAR RELATIVITY
      7. SUMMARY
  10. Section 4: Applications
    1. Chapter 9: YinYang Bipolar Quantum Bioeconomics for Equilibrium-Based Biosystem Simulation and Regulation
      1. ABSTRACT
      2. INTRODUCTION
      3. REVIEW ON BIOECONOMICS
      4. BIPOLAR QUANTUM BIOECONOMICS (BQBE)
      5. BQBE IN TCM DIAGNOSTIC DECISION SUPPORT
      6. BIOSYSTEM SIMULATION AND REGULATION WITH YINYANG-N-ELEMENT BQCA (ADAPTED FROM ZHANG ET AL., 2009)
      7. ANALYSIS AND APPLICATIONS
      8. SUMMARY
    2. Chapter 10: MentalSquares
      1. ABSTRACT
      2. INTRODUCTION
      3. BIPOLAR DISORDER CLASSIFICATION
      4. EQUILIBRIUM-BASED COMPUTATIONAL NEUROSCIENCE AND PSYCHIATRY
      5. EQUILIBRIUM-BASED BIPOLAR DISORDER CLASSIFICATION AND ANALYSIS
      6. EXPLORATORY NEUROBIOLOGICAL DATA MINING
      7. STABILITY ANALYSIS
      8. MIXED BPD CLASSIFICATION
      9. BIPOLAR SCALABILITY TO SCHIZOPHRENIA CLASSIFICATION
      10. OTHER POTENTIAL APPLICATIONS
      11. COMPUTER OPERABILITY
      12. RESEARCH TOPICS
      13. SUMMARY
    3. Chapter 11: Bipolar Cognitive Mapping and Decision Analysis
      1. ABSTRACT
      2. INTRODUCTION
      3. COGNITIVE MAPPING AND MIND READING
      4. BIPOLAR QUANTUM BRAIN DYNAMICS
      5. SIMULATION OF BIPOLAR CRISP CCM DEVELOPMENT (ADAPTED FROM ZHANG, 2003A)
      6. SIMULATION OF BIPOLAR FUZZY CM DEVELOPMENT (ADAPTED FROM ZHANG, 2003B)
      7. CONCEPTUAL CM (CCM) VS. VISUAL CM (VCM)
      8. RESEARCH TOPICS
      9. SUMMARY
  11. Section 5: Discussions and Conclusions
    1. Chapter 12: Causality is Logically Definable
      1. ABSTRACT
      2. INTRODUCTION
      3. A DEBATE ON BIPOLARITY AND ISOMORPHISM
      4. PONDERING AND WONDERING
      5. SOME HISTORICAL FACTS
      6. CAUSALITY IS LOGICALLY DEFINABLE
      7. BIPOLAR AXIOMATIZATION OF PHYSICS
      8. NO ULTIMATE LOGIC IN AN OPEN WORLD
      9. LOGICAL DISTINCTIONS
      10. ANSWERS TO CRITICS
      11. ON THE UBIQUITOUS EFFECTS OF QUANTUM ENTANGLEMENT
      12. LIMITATIONS
      13. MAJOR RESEARCH TOPICS
      14. SUMMARY
  12. About the Author