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An Attitude Tracking Control Method for Vertical Takeoff and Landing Reusable Vehicle Based on Fixed Time Convergence Observer

A vertical take-off and landing, fixed time technology, applied in the field of aircraft control, can solve the problems of poor anti-interference ability, steady-state tracking error, large interference and poor adaptability of strong nonlinear characteristics

Active Publication Date: 2019-08-06
黑龙江省工研院资产经营管理有限公司
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AI Technical Summary

Problems solved by technology

The adaptive dynamic surface control method is based on the pre-designed dynamic surface model, so that the state quantity slides on the sliding surface to ensure the attitude tracking performance. However, the convergence time of the sliding surface is unknown. It is difficult to ensure fast attitude convergence under the condition of large attitude deviation, and there is still a certain steady-state tracking error
However, the adaptive fuzzy Hinf control method needs to design corresponding complex fuzzy logic in advance, which has poor adaptability to large disturbances and strong nonlinear characteristics in the actual flight process, and cannot guarantee that the attitude error will converge to zero within a fixed time.
Adaptive dynamic inverse generally adopts a dual-loop control mode, divides the system into two sub-modules, a fast loop and a slow loop, and designs the control laws separately, finally obtains the virtual control torque command, and then distributes the control commands, so its attitude tracking accuracy is limited. Slow convergence speed and poor anti-interference ability

Method used

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  • An Attitude Tracking Control Method for Vertical Takeoff and Landing Reusable Vehicle Based on Fixed Time Convergence Observer
  • An Attitude Tracking Control Method for Vertical Takeoff and Landing Reusable Vehicle Based on Fixed Time Convergence Observer
  • An Attitude Tracking Control Method for Vertical Takeoff and Landing Reusable Vehicle Based on Fixed Time Convergence Observer

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Embodiment 1

[0079] An attitude tracking control method for vertical take-off and landing reusable vehicles based on a fixed-time convergent observer, such as figure 1 As shown, the control method includes:

[0080] Step 1: Establish the guidance law of the vertical take-off and landing reusable carrier's atmospheric flight segment, and uniformly convert the overload guidance command into an attitude guidance command, thereby providing input data for the follow-up controller to track the guidance command; the attitude guidance command Including angle of attack, angle of sideslip and roll angle,

[0081] Step 2: Establishing an attitude dynamics model for the vertical take-off and landing reusable vehicle's inner-atmospheric grid rudder control flight segment, and comparing the attitude dynamics model with the attitude guidance command described in step 1 to obtain the attitude tracking error state equation;

[0082] Step 3: Establish an extended state observer with fixed-time convergence ...

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Abstract

The invention relates to a vertical takeoff and landing reusable launch vehicle attitude tracking control method based on a fixed time convergence observer, which belongs to the technical field of aircraft control. The method derives an attitude tracking error state equation based on a reentry coordinate system, all modeled and unmodeled dynamics of the system except a control moment are treated as system disturbances, converting to a second-order double-integral state equation is carried out, and the complexity of the system is further simplified.

Description

technical field [0001] The invention relates to an attitude tracking control method of a vertical take-off and landing reusable vehicle based on a fixed-time convergence observer, and belongs to the technical field of aircraft control. Background technique [0002] In recent years, the vertical take-off and landing reusable vehicle has gradually been valued by commercial aerospace companies around the world due to its low cost, strong maintainability, multiple reusability and high safety, and has invested a lot of Human and material resources have been correspondingly researched and developed. Among them, the more famous commercial aerospace companies mainly include foreign SpaceX, BlueOrigin, Masten, McDonnell Douglas and domestic LinkSpace, LandSpace and OneSpace. Many vertical take-off and landing reusable vehicles such as DC-X, New Glenn, Falcon 9 and New Line 1 have been designed one after another, and only SpaceX's Falcon 9 rocket has achieved more than 10 successful ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G05D1/08
Inventor 韦常柱崔乃刚张亮赵宏宇浦甲伦
Owner 黑龙江省工研院资产经营管理有限公司
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