 | The Wikimedia Foundation's book rendering service has been withdrawn. Please upload your Wikipedia book to one of the external rendering services. |
 | You can still create and edit a book design using the Book Creator and upload it to an external rendering service:
|
| This user book is a user-generated collection of Wikipedia articles that can be easily saved, rendered electronically, and ordered as a printed book. If you are the creator of this book and need help, see Help:Books (general tips) and WikiProject Wikipedia-Books (questions and assistance). Edit this book: Book Creator · Wikitext Order a printed copy from: PediaPress [ About ] [ Advanced ] [ FAQ ] [ Feedback ] [ Help ] [ WikiProject ] [ Recent Changes ] | ||||||||
Symbolic Dynamics and Dynamical System Models:
editTopological, Categorical and Quantum Dynamics
edit- I. C. Baianu, Ph.D., M.Inst.P., Editor (with listed contributors)
- Copyright©2010 by I.C. Baianu
- Symbol
- Systemics
- Systems science
- Systems theory
- Systems analysis
- Relational theory
- Differential Equations
- Computational physics
- Copyright©2010 by I.C. Baianu
- Dynamical Systems and Symbolic Dynamics
- System
- Dynamics
- Dynamical systems theory
- Symbolic dynamics
- Molecular dynamics
- Molecular modeling on GPU
- Monte Carlo Methods
- Quantum Dynamics
- Mathematical Formulations of Quantum Dynamics
- Quantum Chemistry and Biochemical Dynamics
- List of quantum chemistry and solid state physics software
- Basic Concepts in Symbolic Dynamics
- Sequential dynamical system
- Automata theory
- Time series analysis
- Lag operator
- Shift operator
- Shift space
- Markov partition
- Sharkovskii's theorem
- Ergodic system
- Ergodic theory
- Measure-preserving dynamical system
- Periodic orbit
- Hilbert space
- Spherical harmonics
- Quantum computer
- Topological Quantum Computers
- Categorical and Topological Dynamics. Category Theory and Categorical Dynamics Concepts
- Algebraic Geometry
- Category theory
- Higher-dimensional algebra
- Higher category theory
- Algebraic topology
- Topological dynamics
- Graph dynamical system
- Analysis of Systems
- Dynamic Bayesian network
- Dynamic network analysis
- Dynamic circuit network
- Tensor product network
- Cybernetics
- Systems Biology
- Neurosciences
- Biocybernetics
- Computational neuroscience
- Molecular Neurosciences and Molecular Medicine
- Complex Systems
- Complex Systems Biology
- Mathematical, Relational and Theoretical Biology
- Lotka–Volterra Differential Equations in Population Biology
- Chaotic Dynamics
- Chaos theory
- Chaos theory in organizational development
- Attractor
- Lorenz attractor
- Strange attractor
- Butterfly effect
- Standard map
- Hénon map
- Horseshoe map
- Coupled map lattice
- List of chaotic maps
- Chua's circuit
- Double pendulum
- Dynamical billiards
- Bifurcation theory
- Rössler attractor
- Synchronizing Chaos
- The Possibility of Quantum Chaos ?
- Fractals and Fractional Dimensions
- Mandelbrot set
- Julia set
- Complexity
- At the Edge of Chaos
- Chaos control
- Butterfly effect
- Applications
- Data storage
- Data transmission
- Related Biographies
- Isaac Newton
- Bernhard Riemann
- Jean Dieudonné
- Alexander Grothendieck
- Charles Ehresmann
- Samuel Eilenberg
- Emil Artin
- Ronald Brown
- Henri Poincaré
- Henri Cartan
- Jacques Hadamard
- Niels Bohr
- Werner Heisenberg
- Albert Einstein
- Emmy Noether
- Norbert Wiener
- Paul Dirac
- John von Neumann
- George Birkhoff
- Stephen Weinberg
- Claude Shannon
- Ludwig von Bertalanffy
- Stephen Smale
- Yakov Sinai
- Marston Morse
- G. A. Hedlund
- William Ross Ashby
- Robert Rosen
- Edward Norton Lorenz
- Otto Rössler
- Paul Koebe
- Jakob Nielsen (mathematician)
- Benoît Mandelbrot