Project detail

Unconventional methods of modelling for chaotic phenomena in non-linear systems

Duration: 01.01.1999 — 31.12.2001

Funding resources

Czech Science Foundation - Standardní projekty

- whole funder

On the project

Description in English
The proposed project is related to the previous project "Modelling and Design of Electronic Circuits with Transformation Blocks" - grant No.102/95/0055 which was finished in 1997. It represents a project oriented to the both theory and application in thearea of nonlinear dynamical systems emphasizing new modelling methods of special phenomena (chaos, synchronized chaos, etc.). The basic theoretical approach again consists in decomposing the system into a nonlinear loading block and a linear transformation block representing the required energetic interactions. The new circuit principles give new dimensions to the present technologies and therefore it is necessary to develop and generalize the methods of electronic circuit synthesis, to design new typesof functional blocks in selftested integrated forms, and to examine their unconventional applications. The selected models will be realized using analog electronic circuits with digital seting of their parameters in parallel project devo

Mark

GA102/99/0203

Default language

Czech

People responsible

Pospíšil Jiří, prof. Ing., DrSc. - principal person responsible

Units

Department of Radio Electronics
- (1980-01-01 - not assigned)

Results

ŠEBESTA, V. Integer-Number Pseudo-Chaotic Generator. In Electronics Devices and Systems EDS 01. Brno: Brno University of Technology, 2001. p. 157 ( p.)ISBN: 80-214-1960-1.
Detail

POSPÍŠIL, J., KOLKA, Z., MICHÁLEK, V., HANUS, S., HORSKÁ, J. Optimized State Model of Chaotic Oscillator. Advances in Systems Science: Measurement, Circuits and Control. WSES Press, Greece: 2001. p. 360 ( p.)ISBN: 960-8052-39-4.
Detail

POSPÍŠIL, J., BRZOBOHATÝ, J., HORSKÁ, J., DOSTÁL, T. Dynamical Systems with Low Eigenvalue Sensitivities. In Proc. of the IASTED International Conference Modelling, Identification and Control (MIC'2001). Innsbruck, 2001: 2001. p. 217 ( p.)ISBN: 0-88986-316-4.
Detail

POSPÍŠIL, J., HORSKÁ, J., MICHÁLEK, V. Eigenvalue Sensitivities of Optimized Second-Order Dynamical Systems. In Proc. of the 11th Czech-Slovak Conf. RADIOELEK-TRONIKA 2001. Brno: 2001. p. 8 ( p.)ISBN: 80-214-1861-3.
Detail

POSPÍŠIL, J., HANUS, S., MICHÁLEK, V., HORSKÁ, J., BRZOBOHATÝ, J. Low Sensitivity Chaotic Oscillator. In Proc. of the 11th Czech-Slovak Conf. RADIOELEKTRONIKA 2001. Brno: 2001. p. 11 ( p.)ISBN: 80-214-1861-3.
Detail

POSPÍŠIL, J., KOLKA, Z., HORSKÁ, J., MICHÁLEK, V., HANUS, S. Optimized State Model of Chaotic Oscillator. In Proc. of CSCC Multiconf. Greece: 2001. p. 360 ( p.)ISBN: 960-8052-33-5.
Detail

POSPÍŠIL, J., KOLKA, Z., BRZOBOHATÝ, J., HORSKÁ, J. Piecewise-Linear Dynamical Systems with Minimized Eigenvalue Sensitivities. In Proc. of the ECCTD’2001. Espoo: 2001. p. 133 ( p.)ISBN: 951-22-5582-0.
Detail

POSPÍŠIL, J., HANUS, S., MICHÁLEK, V., KOLKA, Z., BRZOBOHATÝ, J. State Models of Class C Dynamical Systems and Their Optimization. In Proc. of the KIT’2001. Liptovský Mikuláš: 2001. p. 212 ( p.)ISBN: 80-8040-159-4.
Detail

POSPÍŠIL, J., HANUS, S., MICHÁLEK, V., KOLKA, Z., BRZOBOHATÝ, J. Optimized State Model of Hyper-Chaotic Oscillator. In Proc. of the EDS’01. Brno: 2001. p. 147 ( p.)ISBN: 80-214-1960-1.
Detail

POSPÍŠIL, J., KOLKA, Z., BRZOBOHATÝ, J., MICHÁLEK, V. Dynamical Systems of Class C and Their Simple State Models. In Proc.of the EDS’00. Brno: 2001. p. 23 ( p.)ISBN: 80-214-1780-3.
Detail

POSPÍŠIL, J. Simple State Models of Dynamical Systems OF CLASS C. In Proc. of scientific conference “Nové trendy ve fyzice”. Brno: VUT Brno, 2001. p. 10 ( p.)
Detail

POSPÍŠIL, J., KOLKA, Z., HORSKÁ, J. Synthesis of Optimized Piecewise-Linear System Using Similarity Transformation – Part II: Second-Order Systems. Radioengineering, 2001, vol. 10, no. 3, p. 5 ( p.)ISSN: 1210-2512.
Detail

POSPÍŠIL, J., KOLKA, M., HORSKÁ, J. Synthesis of Optimized Piecewise-Linear System Using Similarity Transformation – Part III: Higher-Order Systems. Radioengineering, 2001, vol. 10, no. 4, p. 4 ( p.)ISSN: 1210-2512.
Detail

ŠEBESTA, V., KOLOUCH, J. Pseudo-Chaotic Sequences Generated Using Integer-Number Iterations. Radioengineering, 2001, vol. 10, no. 3, p. 31 ( p.)ISSN: 1210-2512.
Detail

KOLKA, Z. Synthesis of Optimized Piecewise-Linear System Using Similarity Transformation – Part I: Basic Principles. Radioengineering, 2001, vol. 10, no. 3, p. 5 ( p.)ISSN: 1210-2512.
Detail

POSPÍŠIL, J.; BRZOBOHATÝ, J.; KOLKA, Z.; HORSKÁ, J. Simplest ODE Equivalents of Chuas Equations. International Journal of Bifurcations & Chaos, 2003, vol. 10, no. 1, p. 1 ( p.)ISSN: 0218-1274.
Detail

PETRŽELA, J., POSPÍŠIL, J., KOLKA, Z., HANUS, S. Lorenz and Rossler systems with piecewise-linear vector fields. WSEAS Transactions on Mathematics, 2003, vol. 2, no. 4, p. 264-268. ISSN: 1109-2769.
Detail

POSPÍŠIL, J. Nekonvenční metody modelování chaotických jevů v nelineárních soustavách. neuvedeno. 2001. s. 1 ( s.)
Detail

KOLKA, Z. Using Similarity Transformation for Nonlinear System Synthesis. In Proc. of the 11th Czech-Slovak Conf. RADIOELEKTRONIKA 2001. Brno: VUT Brno, 2001. p. 5 ( p.)ISBN: 80-214-1864-3.
Detail

Responsibility: Pospíšil Jiří, prof. Ing., DrSc.