Longitudinal-column type double-rotor-wing helicopter model system based on nonlinear three freedom degrees

A helicopter model and degree of freedom technology, applied in the field of control theory, can solve problems such as poor dynamic and static performance, nonlinearity, strong coupling and strong uncertainty, poor control and simulation effects, steady-state error, etc., to achieve good The effect of static and dynamic stability and robustness

Inactive Publication Date: 2016-04-20
CHONGQING UNIVERSITY OF SCIENCE AND TECHNOLOGY
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  • Abstract
  • Description
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  • Application Information

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Problems solved by technology

[0004] The twin-helical helicopter system designed and controlled by the nonlinear one-degree-of-freedom twin-rotor helicopter model can fly stably, but the dynamic and static performance is poor, the startup speed is slow, and there is a large error in the steady state
This shows that the nonlinear one-degree-of-freedom dual-rotor helicopter model is very poor for the control and simulation of systems with complex nonlinear, strong coupling and strong uncertainty phenomena

Method used

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  • Longitudinal-column type double-rotor-wing helicopter model system based on nonlinear three freedom degrees
  • Longitudinal-column type double-rotor-wing helicopter model system based on nonlinear three freedom degrees
  • Longitudinal-column type double-rotor-wing helicopter model system based on nonlinear three freedom degrees

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Embodiment Construction

[0094] Below in conjunction with accompanying drawing and embodiment the present invention will be further described:

[0095] Step 1: First design a stable state feedback controller , so that the origin of the corresponding original closed-loop control system is consistent and asymptotically stable; on this basis, design a desired additional feedback control Such that the redesign control is:

[0096]

[0097] The original continuous-time system can be stabilized, and the designed discrete-time model controller needs to satisfy the stability condition of the approximate discrete-time model with zero dynamics. The continuous-time model tracking controller is derived, and the following equations can be obtained through the approximate discrete-time model of the nonlinear three-degree-of-freedom dual-rotor helicopter model under PCGSHF conditions:

[0098]

[0099] Therefore, at the sampling time , the continuous-time state feedback controller is designed as:

[010...

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Abstract

The invention discloses a longitudinal-column type double-rotor-wing helicopter model system based on nonlinear three freedom degrees, and the system is characterized in that the system employs the following steps: 1, selecting a height axis and a rotating axis from the three freedom degrees, adding a state and achieving decoupling in a system dynamic state, and knowing that a system model has a nonsingular decoupling matrix (shown in the description); 2, employing a PCGSHF multi-rate sampling signal retainer to achieve the Taylor power series approximate expansion of system output in each section, and obtaining an approximate discrete time model (shown in the description) of a double-rotor-wing helicopter model under the PCGSHF condition, so a local truncation error between one order output (shown in the description) of a deduced approximate discrete time system and the output of a corresponding original continuous time system is shown in the description; 3, enabling a discretization zero dynamic state to consist of a true dynamic state and a sampling zero dynamic state, wherein the approximate asymptotic expression of the true dynamic state of the system is shown in the description, and the sampling zero dynamic state is the root of a characteristic polynomial (shown in the description).

Description

technical field [0001] The invention belongs to the application field of control theory, in particular to a nonlinear three-degree-of-freedom tandem dual-rotor helicopter model system, which is used for the design of the three-degree-of-freedom dual-rotor helicopter model. Background technique [0002] The helicopter is mainly composed of three major systems: airframe, lift (including rotor and tail rotor), power transmission, and airborne flight equipment, and is driven by a power plant as the main source of lift and propulsion. Rotorcraft capable of vertical take-off and landing, hovering in the air, low-altitude and low-speed flight, front and rear, left and right, has a very wide application value in both military and civilian applications, and is also a complex research object within the scope of control disciplines. It has aroused the interest of many scholars in recent years. Usually, the flight control of a helicopter has the characteristics of multiple input and mu...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B13/04
Inventor 苏盈盈曾诚谢泽龙李翠英刘君
Owner CHONGQING UNIVERSITY OF SCIENCE AND TECHNOLOGY
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