Research Article: |
The FDE Based Time Domain Analysis of Nonzero Input/Nonzero Damping Ratio Fractional Order Biquadratic System |
Author: | Rawid Banchuin & Roungsan Chaisricharoen |
Email: | rawid.ban@siam.edu |
Department/Faculty: | Graduate Schools of IT, Siam University, Bangkok 10160 |
Published/แหล่งเผยแพร่: | 2020 Joint International Conference on Digital Arts, Media and Technology with ECTI Northern Section Conference on Electrical, Electronics, Computer and Telecommunications Engineering (ECTI DAMT & NCON) |
Citation
Banchuin, R., & Chaisricharoen, R. (2020, March). The FDE Based Time Domain Analysis of Nonzero Input/Nonzero Damping Ratio Fractional Order Biquadratic System. In 2020 Joint International Conference on Digital Arts, Media and Technology with ECTI Northern Section Conference on Electrical, Electronics, Computer and Telecommunications Engineering (ECTI DAMT & NCON) (pp. 177-179). IEEE. doi: 10.1109/ECTIDAMTNCON48261.2020.9090703.
ABSTRACT
In this research, the time domain analysis of nonzero input/nonzero damping ratio fractional order biquadratic system has been performed based on the fractional differential equation (FDE) approach. The derivative terms within the FDE have been interpreted in Caputo sense and the system response has been determined via the Laplace/inverse-Laplace transformation method. The system’s step response has been determined and the time domain behavior of the system has been analyzed.
Keywords: Biquadratic system, Fractional differential equation, Fractional order, Time domain.
The FDE Based Time Domain Analysis of Nonzero Input/Nonzero Damping Ratio Fractional Order Biquadratic System
Graduate Schools, Siam University, Bangkok, Thailand
Related:
- Effects of parasitic fractional elements to the dynamics of memristor
- On The Fractional domain Generalization of Memristive Parametric Oscillators
- An SDE based Stochastic Analysis of Transformer
- A Tensor Algebraic Model of On-chip Monolithic Transformer
- Time Domain FDE Based Analysis of Active Fractional Circuit
- The Analysis of Active Circuit in Fractional Domain
- Alpha Power Law Based Model of Random Variation in Nanometer FGMOSFET
- Novel expressions for time domain responses of fractance device
- Analysis of Random Variation in Subthreshold FGMOSFET