Brain electrical activity analysis using wavelet-based informational tools. II: Tsallis non-extensivity and complexity measures
From MaRDI portal
Publication:1859757
DOI10.1016/S0378-4371(02)01529-7zbMath1013.92008MaRDI QIDQ1859757
Publication date: 19 February 2003
Published in: Physica A (Search for Journal in Brave)
Neural biology (92C20) Biomedical imaging and signal processing (92C55) Dynamical systems in biology (37N25) Medical applications (general) (92C50)
Related Items (10)
Tsallis entropy of fuzzy dynamical systems ⋮ Estimation of generalized entropies with sample spacing ⋮ Model-free stochastic processes studied with \(q\)-wavelet-based informational tools ⋮ Quantum Information Measures of the One‐Dimensional Robin Quantum Well ⋮ Information-theoretical complexity for the hydrogenic identity \(S_N2\) exchange reaction ⋮ Werner states and the two-spinors Heisenberg anti-ferromagnet ⋮ Generalizations of Entropy and Information Measures ⋮ Computational applications of nonextensive statistical mechanics ⋮ Tsallis conditional mutual information in investigating long range correlation in symbol sequences ⋮ Some complexity measures in confined isotropic harmonic oscillator
Cites Work
- Unnamed Item
- Unnamed Item
- A Mathematical Theory of Communication
- Brain electrical activity analysis using wavelet-based informational tools
- Synergetics of the brain. Proceedings of the International Symposium on Synergetics at Schloß Elmau, Bavaria, May 2-7, 1983
- Brain function and oscillation. Vol. 1: Brain oscillations, principles and approaches
- Brain function and oscillations. Vol. 2: Integrative brain function. Neurophysiology and cognitive processes
- A dynamical thermostatting approach to nonextensive canonical ensembles
- Wavelet entropy in event-related potentials: a new method shows ordering of EEG oscillations
- Robust chaos in a model of the electroencephalogram: Implications for brain dynamics
- Ten Lectures on Wavelets
- WAVELETS in Medicine and Biology
- On Information and Sufficiency
- Information and self-organization. A macroscopic approach to complex systems.
This page was built for publication: Brain electrical activity analysis using wavelet-based informational tools. II: Tsallis non-extensivity and complexity measures
