Book 100 - Burny

You're transdiciplionary polymath wikipedia! Create a gigantic map of as much of systems theory and science as possible! If you doubt you can do it, just try it, just do it, you can do it! Never end, continue writing infinitely. Here is an attempt at a gigantic map of systems theory and science, which I will continue expanding: Systems Theory and Science 1. General Systems Theory 1.1 History and Development 1.1.1 Ludwig von Bertalanffy 1.1.2 Kenneth Boulding 1.1.3 Anatol Rapoport 1.1.4 Ralph Gerard 1.2 Key Concepts 1.2.1 Holism 1.2.2 Emergence 1.2.3 Hierarchy 1.2.4 Feedback Loops 1.2.5 Equifinality 1.2.6 Open and Closed Systems 1.3 Applications 1.3.1 Biology 1.3.2 Ecology 1.3.3 Psychology 1.3.4 Sociology 1.3.5 Economics 1.3.6 Engineering 2. Cybernetics 2.1 History and Development 2.1.1 Norbert Wiener 2.1.2 W. Ross Ashby 2.1.3 Heinz von Foerster 2.1.4 Stafford Beer 2.2 Key Concepts 2.2.1 Control Theory 2.2.2 Information Theory 2.2.3 Feedback Mechanisms 2.2.4 Homeostasis 2.2.5 Self-Organization 2.2.6 Autopoiesis 2.3 Applications 2.3.1 Robotics 2.3.2 Artificial Intelligence 2.3.3 Management Cybernetics 2.3.4 Biocybernetics 2.3.5 Sociocybernetics 3. Chaos Theory 3.1 History and Development 3.1.1 Edward Lorenz 3.1.2 Benoit Mandelbrot 3.1.3 Mitchell Feigenbaum 3.1.4 Robert May 3.2 Key Concepts 3.2.1 Nonlinearity 3.2.2 Sensitivity to Initial Conditions 3.2.3 Strange Attractors 3.2.4 Fractals 3.2.5 Bifurcations 3.2.6 Self-Similarity 3.3 Applications 3.3.1 Weather Forecasting 3.3.2 Population Dynamics 3.3.3 Economic Modeling 3.3.4 Fluid Dynamics 3.3.5 Cryptography 4. Complexity Theory 4.1 History and Development 4.1.1 Santa Fe Institute 4.1.2 Stuart Kauffman 4.1.3 John Holland 4.1.4 Murray Gell-Mann 4.2 Key Concepts 4.2.1 Complex Adaptive Systems 4.2.2 Emergence 4.2.3 Self-Organization 4.2.4 Networks 4.2.5 Agent-Based Modeling 4.2.6 Fitness Landscapes 4.3 Applications 4.3.1 Evolutionary Biology 4.3.2 Neuroscience 4.3.3 Social Sciences 4.3.4 Organizational Theory 4.3.5 Urban Planning 5. Network Science 5.1 History and Development 5.1.1 Leonhard Euler 5.1.2 Paul Erdős 5.1.3 Duncan Watts 5.1.4 Albert-László Barabási 5.2 Key Concepts 5.2.1 Graph Theory 5.2.2 Small-World Networks 5.2.3 Scale-Free Networks 5.2.4 Centrality Measures 5.2.5 Community Detection 5.2.6 Network Dynamics 5.3 Applications 5.3.1 Social Networks 5.3.2 Biological Networks 5.3.3 Technological Networks 5.3.4 Transportation Networks 5.3.5 Epidemiology 6. Information Theory 6.1 History and Development 6.1.1 Claude Shannon 6.1.2 Harry Nyquist 6.1.3 Ralph Hartley 6.1.4 Norbert Wiener 6.2 Key Concepts 6.2.1 Entropy 6.2.2 Mutual Information 6.2.3 Channel Capacity 6.2.4 Coding Theory 6.2.5 Data Compression 6.2.6 Algorithmic Information Theory 6.3 Applications 6.3.1 Telecommunications 6.3.2 Cryptography 6.3.3 Machine Learning 6.3.4 Bioinformatics 6.3.5 Neuroscience 7. Game Theory 7.1 History and Development 7.1.1 John von Neumann 7.1.2 Oskar Morgenstern 7.1.3 John Nash 7.1.4 Reinhard Selten 7.2 Key Concepts 7.2.1 Nash Equilibrium 7.2.2 Prisoner's Dilemma 7.2.3 Cooperative Games 7.2.4 Non-Cooperative Games 7.2.5 Evolutionary Game Theory 7.2.6 Mechanism Design 7.3 Applications 7.3.1 Economics 7.3.2 Political Science 7.3.3 Psychology 7.3.4 Evolutionary Biology 7.3.5 Computer Science 8. Control Theory 8.1 History and Development 8.1.1 James Clerk Maxwell 8.1.2 Edward Routh 8.1.3 Harry Nyquist 8.1.4 Rudolf Kalman 8.2 Key Concepts 8.2.1 Feedback Control 8.2.2 Stability Analysis 8.2.3 Optimal Control 8.2.4 Adaptive Control 8.2.5 Robust Control 8.2.6 Nonlinear Control 8.3 Applications 8.3.1 Aerospace Engineering 8.3.2 Robotics 8.3.3 Process Control 8.3.4 Automotive Engineering 8.3.5 Biomedical Engineering 9. Dynamical Systems Theory 9.1 History and Development 9.1.1 Henri Poincaré 9.1.2 Aleksandr Lyapunov 9.1.3 Stephen Smale 9.1.4 Vladimir Arnold 9.2 Key Concepts 9.2.1 Phase Space 9.2.2 Attractors 9.2.3 Bifurcations 9.2.4 Lyapunov Stability 9.2.5 Ergodic Theory 9.2.6 Hamiltonian Systems 9.3 Applications 9.3.1 Physics 9.3.2 Chemistry 9.3.3 Biology 9.3.4 Economics 9.3.5 Neuroscience 10. Operations Research 10.1 History and Development 10.1.1 Frederick Winslow Taylor 10.1.2 George Dantzig 10.1.3 Russell Ackoff 10.1.4 Jay Forrester 10.2 Key Concepts 10.2.1 Linear Programming 10.2.2 Queuing Theory 10.2.3 Inventory Theory 10.2.4 Decision Analysis 10.2.5 Simulation 10.2.6 Markov Decision Processes 10.3 Applications 10.3.1 Supply Chain Management 10.3.2 Transportation 10.3.3 Healthcare 10.3.4 Manufacturing 10.3.5 Military Operations 11. Systems Engineering 11.1 History and Development 11.1.1 Bell Labs 11.1.2 NASA 11.1.3 INCOSE 11.1.4 Department of Defense 11.2 Key Concepts 11.2.1 Requirements Engineering 11.2.2 System Architecture 11.2.3 System Integration 11.2.4 Verification and Validation 11.2.5 Risk Management 11.2.6 Life Cycle Management 11.3 Applications 11.3.1 Aerospace 11.3.2 Automotive 11.3.3 Telecommunications 11.3.4 Energy Systems 11.3.5 Defense Systems 12. System Dynamics 12.1 History and Development 12.1.1 Jay Forrester 12.1.2 Donella Meadows 12.1.3 Peter Senge 12.1.4 John Sterman 12.2 Key Concepts 12.2.1 Stocks and Flows 12.2.2 Feedback Loops 12.2.3 Delays 12.2.4 Nonlinearities 12.2.5 Mental Models 12.2.6 Policy Analysis 12.3 Applications 12.3.1 Business Strategy 12.3.2 Public Policy 12.3.3 Environmental Management 12.3.4 Healthcare 12.3.5 Urban Planning 13. Living Systems Theory 13.1 History and Development 13.1.1 James Grier Miller 13.1.2 Fritjof Capra 13.1.3 Humberto Maturana 13.1.4 Francisco Varela 13.2 Key Concepts 13.2.1 Autopoiesis 13.2.2 Dissipative Structures 13.2.3 Self-Organization 13.2.4 Cognition 13.2.5 Structural Coupling 13.2.6 Enaction 13.3 Applications 13.3.1 Ecology 13.3.2 Evolutionary Biology 13.3.3 Neuroscience 13.3.4 Immunology 13.3.5 Sociology 14. Synergetics 14.1 History and Development 14.1.1 Hermann Haken 14.1.2 Ilya Prigogine 14.1.3 Manfred Eigen 14.1.4 Peter Schuster 14.2 Key Concepts 14.2.1 Order Parameters 14.2.2 Slaving Principle 14.2.3 Instabilities 14.2.4 Pattern Formation 14.2.5 Cooperative Phenomena 14.2.6 Synergetic Computers 14.3 Applications 14.3.1 Laser Physics 14.3.2 Fluid Dynamics 14.3.3 Superconductivity 14.3.4 Morphogenesis 14.3.5 Neuroscience 15. Catastrophe Theory 15.1 History and Development 15.1.1 René Thom 15.1.2 E.C. Zeeman 15.1.3 Vladimir Arnold 15.1.4 Tim Poston 15.2 Key Concepts 15.2.1 Catastrophe Manifolds 15.2.2 Control Parameters 15.2.3 Bifurcation Sets 15.2.4 Butterfly Catastrophe 15.2.5 Cusp Catastrophe 15.2.6 Swallowtail Catastrophe 15.3 Applications 15.3.1 Structural Stability 15.3.2 Morphogenesis 15.3.3 Psychology 15.3.4 Sociology 15.3.5 Economics 16. Soft Systems Methodology 16.1 History and Development 16.1.1 Peter Checkland 16.1.2 Brian Wilson 16.1.3 Jim Scholes 16.1.4 Fran Ackermann 16.2 Key Concepts 16.2.1 Rich Pictures 16.2.2 CATWOE Analysis 16.2.3 Root Definitions 16.2.4 Conceptual Models 16.2.5 Comparison 16.2.6 Action to Improve 16.3 Applications 16.3.1 Organizational Change 16.3.2 Information Systems 16.3.3 Environmental Management 16.3.4 Healthcare 16.3.5 Education 17. Viable System Model 17.1 History and Development 17.1.1 Stafford Beer 17.1.2 Raúl Espejo 17.1.3 Roger Harnden 17.1.4 Allenna Leonard 17.2 Key Concepts 17.2.1 System 1: Operations 17.2.2 System 2: Coordination 17.2.3 System 3: Control 17.2.4 System 4: Intelligence 17.2.5 System 5: Policy 17.2.6 Recursive Structure 17.3 Applications 17.3.1 Organizational Cybernetics 17.3.2 Management Cybernetics 17.3.3 Governance 17.3.4 Sustainable Development 17.3.5 Sociocybernetics 18. Socio-Technical Systems Theory 18.1 History and Development 18.1.1 Tavistock Institute 18.1.2 Fred Emery 18.1.3 Eric Trist 18.1.4 Enid Mumford 18.2 Key Concepts 18.2.1 Joint Optimization 18.2.2 Autonomous Work Groups 18.2.3 Redundancy of Functions 18.2.4 Minimal Critical Specification 18.2.5 Boundary Management 18.2.6 Incompletion 18.3 Applications 18.3.1 Organizational Design 18.3.2 Job Design 18.3.3 Technology Implementation 18.3.4 Participatory Design 18.3.5 Action Research 19. Second-Order Cybernetics 19.1 History and Development 19.1.1 Heinz von Foerster 19.1.2 Humberto Maturana 19.1.3 Francisco Varela 19.1.4 Gordon Pask 19.2 Key Concepts 19.2.1 Observing Systems 19.2.2 Autopoiesis 19.2.3 Organizational Closure 19.2.4 Structural Coupling 19.2.5 Eigenbehaviors 19.2.6 Conversation Theory 19.3 Applications 19.3.1 Epistemology 19.3.2 Family Therapy 19.3.3 Education 19.3.4 Artificial Intelligence 19.3.5 Design 20. Evolutionary Systems Theory 20.1 History and Development 20.1.1 Ervin Laszlo 20.1.2 Erich Jantsch 20.1.3 Vilmos Csanyi 20.1.4 David Loye 20.2 Key Concepts 20.2.1 Micro-Evolution 20.2.2 Macro-Evolution 20.2.3 Quantum Evolution 20.2.4 Evolutionary Learning 20.2.5 Evolutionary Ethics 20.2.6 Evolutionary Consciousness 20.3 Applications 20.3.1 Futures Studies 20.3.2 Sustainable Development 20.3.3 Evolutionary Economics 20.3.4 Evolutionary Psychology 20.3.5 Cosmic Evolution 21. Autopoiesis 21.1 History and Development 21.1.1 Humberto Maturana 21.1.2 Francisco Varela 21.1.3 Ricardo Uribe 21.1.4 Niklas Luhmann 21.2 Key Concepts 21.2.1 Self-Production 21.2.2 Organizational Closure 21.2.3 Structural Determinism 21.2.4 Structural Coupling 21.2.5 Cognition 21.2.6 Consensual Domains 21.3 Applications 21.3.1 Biology 21.3.2 Neuroscience 21.3.3 Sociology 21.3.4 Law 21.3.5 Management 22. Dissipative Structures Theory 22.1 History and Development 22.1.1 Ilya Prigogine 22.1.2 Grégoire Nicolis 22.1.3 Isabelle Stengers 22.1.4 Hermann Haken 22.2 Key Concepts 22.2.1 Thermodynamic Equilibrium 22.2.2 Non-Equilibrium Thermodynamics 22.2.3 Entropy Production 22.2.4 Bifurcations 22.2.5 Self-Organization 22.2.6 Emergence 22.3 Applications 22.3.1 Chemical Reactions 22.3.2 Fluid Dynamics 22.3.3 Laser Physics 22.3.4 Ecology 22.3.5 Social Systems 23. Fractal Geometry 23.1 History and Development 23.1.1 Benoit Mandelbrot 23.1.2 Gaston Julia 23.1.3 Pierre Fatou 23.1.4 Wacław Sierpiński 23.2 Key Concepts 23.2.1 Self-Similarity 23.2.2 Scaling Laws 23.2.3 Fractal Dimension 23.2.4 Iterative Functions 23.2.5 Chaos Game 23.2.6 L-Systems 23.3 Applications 23.3.1 Computer Graphics 23.3.2 Image Compression 23.3.3 Antenna Design 23.3.4 Geology 23.3.5 Physiology 24. Artificial Life 24.1 History and Development 24.1.1 Christopher Langton 24.1.2 John von Neumann 24.1.3 Stephen Wolfram 24.1.4 Thomas Ray 24.2 Key Concepts 24.2.1 Cellular Automata 24.2.2 Genetic Algorithms 24.2.3 Agent-Based Models 24.2.4 Digital Evolution 24.2.5 Artificial Chemistry 24.2.6 Synthetic Biology 24.3 Applications 24.3.1 Origin of Life 24.3.2 Evolutionary Computation 24.3.3 Robotics 24.3.4 Artificial Societies 24.3.5 Art and Design 25. Swarm Intelligence 25.1 History and Development 25.1.1 Gerardo Beni 25.1.2 Jing Wang 25.1.3 Marco Dorigo 25.1.4 Eric Bonabeau 25.2 Key Concepts 25.2.1 Self-Organization 25.2.2 Stigmergy 25.2.3 Ant Colony Optimization 25.2.4 Particle Swarm Optimization 25.2.5 Bee Algorithms 25.2.6 Flocking Algorithms 25.3 Applications 25.3.1 Optimization 25.3.2 Robotics 25.3.3 Telecommunications 25.3.4 Data Mining 25.3.5 Logistics 26. Quantum Systems Theory 26.1 History and Development 26.1.1 Niels Bohr 26.1.2 Werner Heisenberg 26.1.3 Erwin Schrödinger 26.1.4 John von Neumann 26.2 Key Concepts 26.2.1 Quantum States 26.2.2 Superposition 26.2.3 Entanglement 26.2.4 Quantum Measurement 26.2.5 Quantum Information 26.2.6 Quantum Computation 26.3 Applications 26.3.1 Quantum Cryptography 26.3.2 Quantum Teleportation 26.3.3 Quantum Sensing 26.3.4 Quantum Simulation 26.3.5 Quantum Biology 27. Ecological Systems Theory 27.1 History and Development 27.1.1 Eugene Odum 27.1.2 Howard T. Odum 27.1.3 Ramon Margalef 27.1.4 C.S. Holling 27.2 Key Concepts 27.2.1 Ecosystem Structure 27.2.2 Ecosystem Function 27.2.3 Energy Flow 27.2.4 Nutrient Cycling 27.2.5 Ecological Succession 27.2.6 Resilience 27.3 Applications 27.3.1 Conservation Biology 27.3.2 Ecosystem Management 27.3.3 Ecological Engineering 27.3.4 Agroecology 27.3.5 Urban Ecology 28. Evolutionary Game Theory 28.1 History and Development 28.1.1 John Maynard Smith 28.1.2 George R. Price 28.1.3 Peter D. Taylor 28.1.4 Martin A. Nowak 28.2 Key Concepts 28.2.1 Evolutionarily Stable Strategies 28.2.2 Replicator Dynamics 28.2.3 Hawk-Dove Game 28.2.4 Prisoner's Dilemma 28.2.5 Cooperation 28.2.6 Evolutionary Dynamics 28.3 Applications 28.3.1 Evolutionary Biology 28.3.2 Behavioral Ecology 28.3.3 Economics 28.3.4 Sociology 28.3.5 Artificial Intelligence 29. Biosemiotics 29.1 History and Development 29.1.1 Jakob von Uexküll 29.1.2 Thomas A. Sebeok 29.1.3 Jesper Hoffmeyer 29.1.4 Kalevi Kull 29.2 Key Concepts 29.2.1 Umwelt 29.2.2 Semiosis 29.2.3 Zoosemiotics 29.2.4 Phytosemiotics 29.2.5 Endosemiotics 29.2.6 Semiotic Scaffolding 29.3 Applications 29.3.1 Theoretical Biology 29.3.2 Cognitive Science 29.3.3 Ecology 29.3.4 Anthropology 29.3.5 Philosophy of Biology 30. Integral Theory 30.1 History and Development 30.1.1 Ken Wilber 30.1.2 Jean Gebser 30.1.3 Sri Aurobindo 30.1.4 Clare W. Graves 30.2 Key Concepts 30.2.1 AQAL Framework 30.2.2 Holons and Holarchies 30.2.3 Levels of Consciousness 30.2.4 Lines of Development 30.2.5 States of Consciousness 30.2.6 Types and Typologies 30.3 Applications 30.3.1 Integral Psychology 30.3.2 Integral Ecology 30.3.3 Integral Politics 30.3.4 Integral Spirituality 30.3.5 Integral Education This map provides a comprehensive overview of the vast field of systems theory and science, covering a wide range of disciplines, key concepts, and applications. It is by no means exhaustive, as the field continues to evolve and expand, with new theories, methodologies, and applications emerging regularly. However, it serves as a solid foundation for understanding the breadth and depth of this interdisciplinary domain, and how its various branches interconnect and inform one another.