Zhuang Jiao

Zhuang Jiao, YangQuan Chen, Yi-Sheng Zhong

Bounded-input bounded-output stability condition of linear time invariant (LTI) distributed-order system over integral interval $(0,1)$ has been established for the first time. Two cases about weighting function of the distributed order are investigated, and sufficient and necessary conditions of stability for these two types of distributed-order systems are derived. Based on the complex integration analysis, time-domain responses of distributed-order systems are also given by analytical method, and numerical examples are presented to illustrate the proposed conditions.

Zhuang Jiao, YangQuan Chen

The impulse response of a generalized fractional second order filter of the form ${{({{s}^{2α}}+a{{s}^α}+b)}^{-γ}}$ is derived, where $0<α\le 1$, $0<γ<2$. The asymptotic properties of the impulse responses are obtained for two cases, and the two cases show the similar properties for the changing of $γ$ values. It is shown that only when ${{({{s}^{2α}}+a{{s}^α}+b)}^{-1}}$ has the critical stability, the generalized fractional second order filter ${{({{s}^{2α}}+a{{s}^α}+b)}^{-γ}}$ has different properties as we change the value of $γ$. Finally, numerical examples to illustrate the impulse response are provided to verify the proposed concepts.

Zhuang Jiao, Yisheng Zhong

This paper has been withdrawn. This paper focuses on the admissibility condition for fractional-order singular system with order $α\in (0,1)$. The definitions of regularity, impulse-free and admissibility are given first, then a sufficient and necessary condition of admissibility for fractional-order singular system is established. A numerical example is included to illustrate the proposed condition.

Zhuang Jiao, Yisheng Zhong

The issues of robust stability for two types of uncertain fractional-order systems of order $α\in (0,1)$ are dealt with in this paper. For the polytope-type uncertainty case, a less conservative sufficient condition of robust stability is given; for the norm-bounded uncertainty case, a sufficient and necessary condition of robust stability is presented. Both of these conditions can be checked by solving sets of linear matrix inequalities. Two numerical examples are presented to confirm the proposed conditions.

Zhuang Jiao, YangQuan Chen, Yi-Sheng Zhong

Bounded-input bounded-output stability conditions for fractional-order linear time-invariant (LTI) system with multiple noncommensurate orders have been established in this paper. The orders become noncommensurate orders when they do not have a common divisor. Sufficient and necessary conditions of stability for this kind of fractional-order LTI system with multiple noncommensurate orders. Based on the numerical inverse Laplace transform technique, time-domain responses for a fractional-order system with double noncommensurate orders are presented to illustrate the obtained stability results.