Fractional dynamics and control
Annotation
Other Authors: | Baleanu, D., Machado, J. A. Tenreiro., Luo, Albert C. J., SpringerLink (Online service) |
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Format: | eBook |
Language: | English |
Published: |
New York, NY :
Springer,
©2012.
New York, NY : [2012] |
Physical Description: |
1 online resource (ix, 309 pages) |
Subjects: |
Table of Contents:
- Part I Fractional Control
- A Formulation and Numerical Scheme for Fractional Optimal Control of Cylindrical Structures
- Neural Network Assisted PIlDm Control
- Application of Backstepping Control Technique to Fractional Order Dynamic Systems
- Parameter Tuning of a Fractional-Order PI Controller Using the ITAE Criteria
- A Fractional model predictive control for fractional order systems
- A note on the sequential linear fractional dynamical systems from the control system view point and L2̂theory
- Stabilization of Fractional Order Unified Chaotic Systems via Linear State Feedback Controller
- Part II Fractional Variational Principles and Fractional Differential Equations
- Fractional variational calculus for non-differentiable functions
- Fractional Euler-Lagrange differential equations via Caputo derivatives, Ricardo Almeida.-Strict Stability of Fractional Perturbed Systems in Terms of Two Measures
- Initial Time Difference Strict Stability of Fractional Dynamic Systems
- A Fractional Order Dynamical Trajectory Approach for Optimization Problem with HPM
- Part III Fractional Calculus in Mathematics and Physics
- On the Hadamard type fractional differential system
- Robust Synchronization and Parameter Identification of Fractional-Order Unified Chaotic System
- Fractional Cauchy problems on bounded domains: survey of recent results
- Fractional analogous models in mechanics and gravity theories.-Schrodinger equation in fractional space
- Solutions of wave equations in fractional dimensional space
- Fractional exact solutions and solitons in gravity
- Part IV Fractional Order Modeling
- Front propagation in an autocatalytic reaction-subdiffusion system
- Numerical Solution of A Two Dimensional Anomalous Diffusion Problem
- Analyzing Anomalous Diffusion in NMR Using a Distribution of Rate Constants
- Using fractional derivatives to generalize the Hodgkin-Huxley model
- An Application of Fractional Calculus to Dielectric Relaxation Processes
- Fractional wave equation for dielectric medium with Havriliak-Negami response.