Longitudinal flight model cluster man-machine closed-loop composite root locus multi-stage PID robust controller design method

A robust controller, human-machine closed-loop technology, applied in the direction of adaptive control, general control system, control/regulation system, etc., can solve the problems of small overshoot, no driver-induced oscillation, etc.

Active Publication Date: 2014-05-14
XIAN FEISIDA AUTOMATION ENG
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Problems solved by technology

[0010] In order to overcome the fact that the existing method cannot design a stable low-altitude flight controller with no pilot-induced oscillation, small overshoot, and a stable low-altitude flight controller that meets the stability margin index in the full flight envelope when the aircraft model changes greatly in the full flight envelope However, the present invention provides a method for designing a longitudinal flight model cluster man-machine closed-loop compound root trajectory multi-level PID robust controller, which is directly determined and obtained by sweeping flight tests under the conditions of given different altitudes and Mach numbers A model cluster composed of amplitude-frequency and phase-frequency characteristics in the

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  • Longitudinal flight model cluster man-machine closed-loop composite root locus multi-stage PID robust controller design method
  • Longitudinal flight model cluster man-machine closed-loop composite root locus multi-stage PID robust controller design method
  • Longitudinal flight model cluster man-machine closed-loop composite root locus multi-stage PID robust controller design method

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Embodiment Construction

[0038] 1. Using linear frequency sweep signal at different heights and Mach numbers (f 0 is the starting frequency, f 1 is the cut-off frequency, r=(f 1 -f 0 ) / T, T is sweep time) or logarithmic sweep signal f(t)=A(t)sin{2πf 0 / r·[ex p (rt)-1]} (f 0 is the starting frequency, f 1 is the cut-off frequency, r=ln(f 1 / f 0 ) / T, T is the frequency sweep time) to excite the aircraft, the amplitude-frequency and phase-frequency characteristics in the full-envelope allowed to fly can be directly obtained, which constitutes the model cluster of elevators and flight heights in the full-envelope of the aircraft, and the corresponding aircraft The open-loop transfer function family between the elevator and the flight height is described as:

[0039] G 0 ( S ) = e - σ ...

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Abstract

The invention provides a longitudinal flight model cluster man-machine closed-loop composite root locus multi-stage PID robust controller design method. According to the method, a model cluster composed of amplitude-frequency properties and phase-frequency properties within a whole envelope is directly determined and obtained through a sweep-frequency flight test under the condition that different heights and Mach numbers are given; according to military standard requirements for amplitude-frequency margins and phase margins within a flight envelope, closed-loop pole distribution limiting indicators under a corresponding root locus description are given, and the stage number and parameter values of a multi-stage PID robust controller are determined by additionally arranging a multi-stage PID controller according to the closed-loop pole distribution limiting indicators and a model identification method in system identification within the whole envelope of a flying machine; a low-altitude flight controller is designed by starting from the concept of closed-loop pole distribution limiting under the root locus description, wherein the low-altitude flight controller accords with the whole flight envelop and is free of pilot induced oscillation, low in overshoot and stable.

Description

technical field [0001] The invention relates to a design method of an aircraft controller, in particular to a design method of a longitudinal flight model cluster man-machine closed-loop compound root trajectory multi-level PID robust controller, which belongs to the categories of measurement and control technology and flight mechanics. Background technique [0002] The control of the take-off and landing process of the aircraft plays an important role in flight safety; due to the large change in flight speed during the take-off and landing process of the aircraft, even according to the longitudinal model, it will face strong nonlinear problems; on the other hand, the control rudder of the aircraft has saturation, dead zones, etc. Phenomenon; From the perspective of flight safety, when flying at ultra-low altitudes (such as aircraft takeoff / landing), the controller must ensure that the system has a certain stability margin, no overshoot and stability, which makes the design o...

Claims

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Application Information

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IPC IPC(8): G05B13/04
Inventor 史忠科
Owner XIAN FEISIDA AUTOMATION ENG
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