Control system design of a multivectored thrust stratospheric airship

Chen, L; Zhang, Huiyong; Duan, Dengping

doi:10.1177/0954410013513568

Cited by 27 publications

(32 citation statements)

References 12 publications

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“…where q ∞ = 1 2 V 2 a is the dynamic pressure. C x , C z , C my , C mz are the aerodynamic coefficients [50]. They are obtained by wind-tunnel experiments.…”

Section: Kinematics Model Of the Airshipmentioning

confidence: 99%

Nonlinear MPC for a Sensorless Multi‐Vectored Propeller Airship Based on Sliding Mode Observer with Saturation

Wen

Chen

Liang

et al. 2018

Asian Journal of Control

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A nonlinear fault tolerant station keeping controller for a multi-vectored propeller airship without velocity and angular velocity sensors is developed, which is composed of three modules: nonlinear model predictive controller (NMPC), sliding mode observer (SMO), and linear programming (LP) based control allocation. The kinematics and dynamics model of the airship are introduced. Based on the nonlinear model, with the assumption that the velocity and angular velocity sensors are damaged, a sliding mode observer is designed to estimate the velocity and angular velocity of the airship. To achieve good performance in the station keeping mission, an explicit nonlinear model predictive control is derived. A linear programming base control allocation method is proposed to solve both amplitude and rate constraint of the propulsion forces and deflection angles. Stability analysis is carried out to prove that the system can be stabilized in finite time. Simulation results for the station keeping control are illustrated to prove the effectiveness of the proposed method.

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“…where q ∞ = 1 2 V 2 a is the dynamic pressure. C x , C z , C my , C mz are the aerodynamic coefficients [50]. They are obtained by wind-tunnel experiments.…”

Section: Kinematics Model Of the Airshipmentioning

confidence: 99%

Nonlinear MPC for a Sensorless Multi‐Vectored Propeller Airship Based on Sliding Mode Observer with Saturation

Wen

Chen

Liang

et al. 2018

Asian Journal of Control

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show abstract

“…It has been used in the development of stratospheric aircraft control system in recent years (Yang et al, 2014;Yang and Yan, 2015;Yang et al, 2013Yang et al, , 2012. Chen et al (2013) presented a composite control structure for the stratospheric airship to realize accurate position control and to decrease energy consumption, which took the control allocation problem into consideration.…”

Section: Introductionmentioning

confidence: 99%

Modeling and path-following control of a vector-driven stratospheric satellite

Zheng

Chen

et al. 2016

Advances in Space Research

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“…where , Ω, , denote the airship relative position, the airship attitudes in Euler angles, the airship velocities under body axis and the airship angular velocities, respectively. Then the dynamic equation of the airship [27] could be described as:…”

Section: Introductionmentioning

confidence: 99%

A Fast Convergence Super‐Twisting Observer Design for an Autonomous Airship

Xiao

Zhou

et al. 2019

Asian Journal of Control

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Airships are often under the risk of external disturbances, for example, the wind. The accurate external disturbance of the airship are hard to acquire. Typically, the super-twisting observer can track the states for mechanical systems and could be used as an external disturbance tracker. However, the convergence rate of the traditional super-twisting observer is very slow and the observed states often oscillate heavily. We modified the traditional super-twisting observer by adding more variables to the sliding surface, and adding parameters to the newly added variables. Simulation results illustrates that the new proposed observer is able to reduce the convergence time and reduce overshoot greatly, improving the performance of the observer.

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Control system design of a multivectored thrust stratospheric airship

Cited by 27 publications

References 12 publications

Nonlinear MPC for a Sensorless Multi‐Vectored Propeller Airship Based on Sliding Mode Observer with Saturation

Nonlinear MPC for a Sensorless Multi‐Vectored Propeller Airship Based on Sliding Mode Observer with Saturation

Modeling and path-following control of a vector-driven stratospheric satellite

A Fast Convergence Super‐Twisting Observer Design for an Autonomous Airship

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