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Approximate evaluation method for uncertain time-delay on basis of H-infinity principle and application of approximate evaluation method

An approximation method and time-delay technology, applied in Padre approximation, H-∞ optimization, and robust performance fields, can solve problems such as complex structure, high fitting accuracy, and poor fitting accuracy

Inactive Publication Date: 2018-05-04
NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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Problems solved by technology

Among them, the Euler approximation method and the backward approximation method respectively expand the numerator or denominator in exponential progression, the structure is relatively simple, but the fitting accuracy is poor; Complex, but high fitting accuracy

Method used

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  • Approximate evaluation method for uncertain time-delay on basis of H-infinity principle and application of approximate evaluation method
  • Approximate evaluation method for uncertain time-delay on basis of H-infinity principle and application of approximate evaluation method
  • Approximate evaluation method for uncertain time-delay on basis of H-infinity principle and application of approximate evaluation method

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Embodiment Construction

[0049] The present invention will be further described below in conjunction with accompanying drawings and specific examples.

[0050] combine figure 1 As shown, the embodiment discloses an approximate estimation method of uncertain time-delay based on the H-∞ control framework. The research protocol was validated. Specifically include the following steps:

[0051] Step 1. Model establishment and description

[0052] In the present invention, in the feedback control system, the influence of the uncertain time delay on the stability performance of the feedback control system is considered. The general model of feedback control system (referred to as feedback control system, target system or system) with uncertain time delay τ is as follows figure 2 shown, we let P 0 (s) means P τ (s) System equations in the absence of time-delay states, assuming P 0 (s) can be stabilized by the controller K(s), ie the system is stabilized assuming no time delay.

[0053] for figure 2 ...

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Abstract

The invention discloses an approximate evaluation method for uncertain time-delay on the basis of an H-infinity principle. The approximate evaluation method comprises the following steps: constructinga mathematical model of stable performance indexes of a feedback control system on the basis of the H-infinity principle and a mathematical model of a feedback control system with uncertain time-delay; analyzing influence of the uncertain time-delay to the stable performance indexes of the feedback control system, and scaling the mathematical model of the stable performance indexes into a feedback control system stabilizing condition with time delay correlation term; and based on a Pade approximation method, constructing a rational approximate function related to the time delay correlation term, setting a target constraining condition for the rational approximate function capable of replacing the time delay correlation term, and replacing the time delay correlation term by using the rational approximate function which meets a target constraint condition so as to obtain the stable performance indexes of the feedback control system. By the method, a rational estimation function which isefficient and has high degree of fitting can be provided; and the method can be widely applied to the feedback control system with uncertain time-delay and engineering related research problems.

Description

technical field [0001] Aiming at the common uncertainty time-lag in the feedback control system and its influence on the robust stability and robust performance of the system, the present invention discloses an uncertainty time-lag method based on the principle of H-infinity (that is, H-∞) Approximate estimation methods, involving robust performance, Padre approximation, H-∞ optimization and other technical methods. Background technique [0002] In industrial production practice, input and output often do not occur simultaneously. On the contrary, in most engineering systems, it usually takes a certain amount of time for an input quantity to reach another place from one place to another, as small as invisible signals and energy, as large as tens of thousands of goods and products, so in the process of input and output There is always varying degrees of time lag. There are various reasons for time lag: such as physical transmission, signal transmission, time-consuming calcu...

Claims

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Application Information

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IPC IPC(8): G05B13/04
CPCG05B13/042
Inventor 朱静姜斌陈谋
Owner NANJING UNIV OF AERONAUTICS & ASTRONAUTICS
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