Frequency and Time Domain Solution for Dynamic Systems having Differential Equations of Continuous Order

Shantanu Das

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Frequency and Time Domain Solution for Dynamic Systems having Differential Equations of Continuous Order

机译：具有连续阶微分方程的动态系统的频域和时域解

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Fractional Differential Equations, when generalized to have a continuous order, the dynamic system has interesting transfer functions and interesting and advantageous properties. The method is discussed to have these system responses defined in frequency and time domain. Interestingly a pure continuous order system has no poles in the left half of frequency domain, the time solution is thus obtained via Laplace inverse, by integration on the branch cut in form of Bestimmte integral. In this paper continuous order low pass filter and high pass filter frequency and time responses as Green's function is obtained for system of differential equation with continuous order.

机译：分数阶微分方程，当推广为具有连续阶数时，动态系统具有有趣的传递函数和有趣且有利的特性。讨论该方法以在频域和时域中定义这些系统响应。有趣的是，纯连续阶系统在频域的左半部分没有极点，因此通过以Bestimmte积分的形式对分支割进行积分，通过Laplace逆获得时间解。本文针对具有连续阶数的微分方程组，获得了格林函数的连续阶低通滤波器和高通滤波器的频率和时间响应。

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《International Journal of Applied Mathematics & Statistics》 |2012年第5期|共11页
作者
Shantanu Das;
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正文语种 eng
中图分类计量学;
关键词
Bestimmte Integral; discrete order; continuous order; fractional differential equation; residue of poles; integration on branch-cut; several memory relaxations;

机译：Bestimmte积分;离散阶;连续阶;分数阶微分方程;极点残差;分支割积分;几次记忆松弛;

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1. Frequency and Time Domain Solution for Dynamic Systems having Differential Equations of Continuous Order [J] . Shantanu Das International Journal of Applied Mathematics & Statistics . 2012,第5期

机译：具有连续阶微分方程的动态系统的频域和时域解
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3. Comments on "Frequency/time domain methods for solutions of N-order fuzzy differential equations" by Zhang, Wang and Liu [J] . James J. Buckley, Thomas Feuring Fuzzy Sets and Systems . 1999,第1期

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4. The optimum approximation in generalized time-frequency domains and application to numerical simulation of partial differential equations [C] . Kida Takuro European Signal Processing Conference . 1996

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Frequency and Time Domain Solution for Dynamic Systems having Differential Equations of Continuous Order

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