Your search keyword '"Supeng Zhu"' showing total 20 results

1. Enhanced Attitude Control of Unmanned Aerial Vehicles Based on Virtual Angular Accelerometer

Author

Zijun Ren, Wenxing Fu, Yongze Li, Binbin Yan, Supeng Zhu, and Jie Yan

Subjects

Small UAV, attitude control, multi-IMUs, EKF, angular acceleration, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The small unmanned aerial vehicles are susceptible to wind disturbances due to the turbulent environment at their low operational altitude. Compared to conventional IMU output, the phase-advanced information provided by angular acceleration measurement is more beneficial for flight stability. This paper presents a general and systematic approach to enhance the attitude stability of small fixed-wing unmanned aerial vehicles. The methodology begins by designing a virtual angular accelerometer (VAA), which is based on 4 MEMS IMUs measurement fusion. Then, the angular acceleration is exploited to estimate and compensate disturbances. Finally, an enhanced attitude control scheme is developed to improve attitude tracking performance, where linear or nonlinear control approaches can be adopted. A VAA-based backstepping controller (BS) is designed and its stability is analyzed via Lyapunov function. Three simulation cases are carried out to verify the performance of tracking accuracy, robustness, and disturbance rejection. PID and backstepping methods are applied to the scheme. As a comparison, a widely used nonlinear disturbance observer (NDO)-based robust controller (RC) is studied. The simulation results show the excellent performance of the sensor-based VAA to observe the fast time-varying disturbance, where the NDO causes the time delay and phase lag. The tracking accuracy of the enhanced controllers (PID+VAA, BS+VAA, and RC+VAA), compared to the basic controllers, are improved by 14.3%-93.7% and the closed-loop control systems gain notable robustness.

Published

2019

2. Bio-Inspired Neural Adaptive Control of a Small Unmanned Aerial Vehicle Based on Airflow Sensors

Author

Zijun Ren, Wenxing Fu, Supeng Zhu, Binbin Yan, and Jie Yan

Subjects

UAV, bio-inspired flight control, neural network, pressure sensor, Chemical technology, TP1-1185

Abstract

Inspired by the exceptional flight ability of birds and insects, a bio-inspired neural adaptive flight control structure of a small unmanned aerial vehicle was presented. Eight pressure sensors were elaborately installed in the leading-edge area of the forward wing. A back propagation neural network was trained to predict the aerodynamic moment based on pressure measurements. The network model was trained, validated, and tested. An adaptive controller was designed based on a radial basis function neural network. The new adaptive laws guaranteed the boundedness of the adaptive parameters. The closed-loop stability was analyzed via Lyapunov theory. The simulation results demonstrated the robustness of the bio-inspired flight control system when subjected to measurement noise, parametric uncertainties, and external disturbance.

Published

2018

3. Distributed Finite-Time Formation Control of Quadrotors with Directed Topology*.

Author

Yue Li, Xueping Zhu, Bo Yuan, Supeng Zhu, Jianghao Meng, and Jun Yang

Published

2023

4. Learning-based adaptive fault tolerant control for hypersonic flight vehicles with abrupt actuator faults and finite time prescribed tracking performance.

Author

Supeng Zhu, Tao Xu, Caisheng Wei, and Zheng Wang 0033

Published

2021

5. Prescribed-time cooperative guidance law against maneuvering target based on leader-following strategy

Author

Zhikai Wang, Wenxing Fu, Yangwang Fang, Supeng Zhu, Zihao Wu, and Mingang Wang

Subjects

Control and Systems Engineering, Applied Mathematics, Electrical and Electronic Engineering, Instrumentation, Computer Science Applications

Abstract

This paper proposes a prescribed-time cooperative guidance law (PTCGL) against maneuvering target with variable line-of-sight (LOS) angle constraint for leader-following missiles, where the convergence times of the state errors can be arbitrarily set. The leader missile against the maneuvering target is provided as the modified proportional navigation (MPN) guidance law. The proposed PTCGL for follower missiles consist of two parts, in LOS direction, the range-to-go (Rgo) is selected as a co-variable, avoiding the estimation of time-to-go (Tgo), and a novel second-order nonlinear consensus protocol is developed to design the PTCGL; in normal LOS direction, considering the variable LOS angle constraint, the cooperative guidance law is designed with the proposed prescribed-time sliding model control (PTSMC) method. Besides, the prescribed-time convergence of Rgo and LOS errors are proved. Finally, the effectiveness and superiority of the proposed PTCGL with leader-following strategy is illustrated by numerical simulation results.

Published

2022

6. Neural adaptive control of hypersonic aircraft with actuator fault using randomly assigned nodes.

Author

Wenxing Fu, Yuji Wang, Supeng Zhu, and Yingzhou Xia

Published

2016

7. Regenerative-Cooling Heat-Transfer Performance of Mg/CO2 Powder Rocket Engines for Mars Missions

Author

Supeng Zhu, Ronggang Wei, Chunbo Hu, and Chao Li

Subjects

Control and Systems Engineering, Aerospace Engineering, General Materials Science, Electrical and Electronic Engineering

Published

2023

8. Applying Genetic Algorithm to Optimization Parameters of Missile Control System.

Author

Supeng Zhu, Wenxing Fu, Jun Yang, and Jianjun Luo

Published

2009

9. Learning-based adaptive fault tolerant control for hypersonic flight vehicles with abrupt actuator faults and finite time prescribed tracking performance

Author

Caisheng Wei, Supeng Zhu, Tao Xu, and Zheng Wang

Subjects

0209 industrial biotechnology, geography, geography.geographical_feature_category, Computer science, General Engineering, Hypersonic flight, Fault tolerance, 02 engineering and technology, Fault (geology), Tracking error, 020901 industrial engineering & automation, Transformation (function), Control theory, Convergence (routing), 0202 electrical engineering, electronic engineering, information engineering, Overshoot (signal), 020201 artificial intelligence & image processing, Actuator

Abstract

This paper addresses the finite time prescribed performance control problem for hypersonic flight vehicle systems with abrupt actuator faults and time-varying uncertainties. The considered actuator faults contains abrupt gain faults and saltatorial bias faults, and the unknown discontinuous variations of the fault parameters are permitted. In virtue of the finite time performance functions and error transformation, the predefined tracking performance including the convergence time, the tracking error and the overshoot for the velocity and altitude can be ensured. By adaptively estimating the lower bonds of the gain faults and the upper bounds of the bias faults, the unwanted effects of the abruptly faulty actuators can be circumvented. Meanwhile, for the purpose of compensating the unknown nonlinearities, the learning-based control strategy has been employed. Finally, a number of simulation results on the hypersonic flight vehicles are conducted to demonstrate the validity of the proposed approach.

Published

2021

10. Enhanced Attitude Control of Unmanned Aerial Vehicles Based on Virtual Angular Accelerometer

Author

Binbin Yan, Wenxing Fu, Yongze Li, Supeng Zhu, Jie Yan, and Zijun Ren

Subjects

Angular acceleration, General Computer Science, Computer science, Small UAV, attitude control, 010401 analytical chemistry, General Engineering, PID controller, 02 engineering and technology, Nonlinear control, 021001 nanoscience & nanotechnology, 01 natural sciences, 0104 chemical sciences, Attitude control, EKF, Inertial measurement unit, Control theory, Backstepping, Control system, General Materials Science, lcsh:Electrical engineering. Electronics. Nuclear engineering, angular acceleration, 0210 nano-technology, multi-IMUs, lcsh:TK1-9971

Abstract

The small unmanned aerial vehicles are susceptible to wind disturbances due to the turbulent environment at their low operational altitude. Compared to conventional IMU output, the phase-advanced information provided by angular acceleration measurement is more beneficial for flight stability. This paper presents a general and systematic approach to enhance the attitude stability of small fixed-wing unmanned aerial vehicles. The methodology begins by designing a virtual angular accelerometer (VAA), which is based on 4 MEMS IMUs measurement fusion. Then, the angular acceleration is exploited to estimate and compensate disturbances. Finally, an enhanced attitude control scheme is developed to improve attitude tracking performance, where linear or nonlinear control approaches can be adopted. A VAA-based backstepping controller (BS) is designed and its stability is analyzed via Lyapunov function. Three simulation cases are carried out to verify the performance of tracking accuracy, robustness, and disturbance rejection. PID and backstepping methods are applied to the scheme. As a comparison, a widely used nonlinear disturbance observer (NDO)-based robust controller (RC) is studied. The simulation results show the excellent performance of the sensor-based VAA to observe the fast time-varying disturbance, where the NDO causes the time delay and phase lag. The tracking accuracy of the enhanced controllers (PID+VAA, BS+VAA, and RC+VAA), compared to the basic controllers, are improved by 14.3%-93.7% and the closed-loop control systems gain notable robustness.

Published

2019

11. Integrated Fault Detection and Fault Tolerant Control for Switched Systems with Asynchronous Switching

Author

Xiaohan Zhao, Wenxing Fu, Haoyu Cheng, Wenyuan Li, Yifeng Ma, and Supeng Zhu

Subjects

0209 industrial biotechnology, Article Subject, Computer science, General Mathematics, Control (management), General Engineering, Fault tolerance, 02 engineering and technology, Engineering (General). Civil engineering (General), Stability (probability), Fault detection and isolation, Dwell time, 020901 industrial engineering & automation, Control theory, Asynchronous communication, QA1-939, 0202 electrical engineering, electronic engineering, information engineering, 020201 artificial intelligence & image processing, TA1-2040, Mathematics

Abstract

The problem of integrated fault detection and fault tolerant control for switched systems with asynchronous switching is focused on in this paper. Based on the switched model, the inherent asynchronous switching is taken into consideration. The asynchronous switching means that the switching of filters/controllers will always lag behind the switching of modes, which will degrade the performance of the closed-loop system. The Lyapunov functional method and mode-dependent average dwell time method are combined for the analysis of the finite-time stability of the switched system. The properties of each subsystem are taken into consideration, which are less conservative. To achieve optimal performance, the filters and controllers are designed simultaneously. The parameters of filters and controllers are given in the form of linear matrix inequalities. In the end, the numerical example is given to illustrate the effectiveness of the proposed method.

Published

2020

12. Output constrained adaptive neural control for generic hypersonic vehicles suffering from non-affine aerodynamic characteristics and stochastic disturbances

Author

Caisheng Wei, Xiaofeng Zhang, Kang Chen, Supeng Zhu, and Tao Xu

Subjects

Lyapunov function, 0209 industrial biotechnology, Adaptive control, Artificial neural network, Computer science, Process (computing), Aerospace Engineering, Boundary (topology), 02 engineering and technology, 01 natural sciences, 010305 fluids & plasmas, symbols.namesake, Nonlinear system, 020901 industrial engineering & automation, Control theory, Backstepping, 0103 physical sciences, symbols, Affine transformation

Abstract

This paper proposes a novel output constrained non-affine control structure by combining backstepping adaptive control with coordinate transformation technique for Generic Hypersonic Vehicles (GHVs) attitude tracking problem suffering from stochastic uncertainties. Firstly, by introducing several specific nonlinear functions, the output constrained control problem is transformed into a stabilization problem of several new variables. Then a novel adaptive control scheme that employee the boundary estimation technique and Nussbaum-type functions to counteract the effect of non-affine aerodynamic characteristics is integrated to address the attitude tracking problem. Meanwhile, two Neural Networks (NNs) are introduced to approximate and compensate the unknown nonlinearities. With the aid of a four-order Lyapunov function, the closed-loop attitude control system is proved to be stochastically stable. As a result, the output tracking errors can be guaranteed to stay in the predefined constraints during the whole control process and finally converge to an acceptable small value. Comparative simulation results are presented to demonstrate the effectiveness and advantages of the proposed control strategy.

Published

2021

13. Implementing light field image refocusing algorithm

Author

Xi Tong, Chuan Shan, Supeng Zhu, Wenxing Fu, and Baijia Chen

Subjects

Light-field camera, business.industry, Fast Fourier transform, ComputingMilieux_PERSONALCOMPUTING, ComputingMethodologies_IMAGEPROCESSINGANDCOMPUTERVISION, Physics::Optics, Image processing, Ray, GeneralLiterature_MISCELLANEOUS, law.invention, symbols.namesake, Fourier transform, Virtual image, law, Computer Science::Computer Vision and Pattern Recognition, Frequency domain, symbols, Computer vision, Artificial intelligence, business, Algorithm, Light field, Mathematics

Abstract

The light field imaging produces the information on the direction of light ray, therefore the refocusing of the raw image shot with the light field camera can acquire high-resolution images of objects at different distances. This paper presents the light field image refocusing principles, rearranges raw images, transforms virtual image planes and integrates light rays, thus obtaining ideal refocused images. Then it implements frequency domain refocusing and space domain refocusing and applies the Fourier slicing theorem to implementing the frequency domain refocusing algorithm and uses the fast Fourier transform to enhance its efficiency. Through experiments, it compares the computational efficiency of the space domain refocusing algorithm and the frequency domain refocusing algorithm. It concludes that the latter has a higher computational efficiency.

Published

2015

14. Establishing Stratosail's 6-DOF Dynamics Models

Author

Wenxing Fu and Supeng Zhu

Subjects

Aerodynamic force, Physics, Analytical mechanics, Position (vector), Coordinate system, Moment (physics), Thrust, Aerodynamics, Kinematics, Mechanics

Abstract

The stratosail has the tensile force of the tether but no engine thrust and the size and direction of the tensile force is constantly changing. Also the changes in the size and direction of wind speed have direct influence on the aerodynamic force and spatial position of the stratosail. The establishment of the stratosail's 6-DOF models includes the modeling of a flexible tether, that of the position restriction body and that of the aerodynamic force of the stratosail, thus being a complicated flexible and rigid coupled modeling process. This paper analyzes the forces received by the stratosail and establishes its dynamics model and kinematics model under the stratosail's coordinate system. The forces include the gravity and aerodynamic force exerted on the stratosail and the tensile force and moment of the tether. According to theoretical mechanics principles, it also establishes the stratosail's mass center dynamics equation and the dynamics equation rotating around its mass center, laying the foundation for further analysis of the changes in the attitude of the stratosail and in the spatial position of its mass center.

Published

2012

15. Stratosail's Stress Analysis and Modeling

Author

Wenxing Fu, Xiaoqi Li, and Supeng Zhu

Subjects

Engineering, business.industry, Coordinate system, Absolute value, Aerodynamics, Structural engineering, Euler angles, Aerodynamic force, Stress (mechanics), symbols.namesake, Ultimate tensile strength, symbols, Trajectory, business

Abstract

The modeling of the stratosail of a stratospheric satellite includes both the modeling of a flexible tether and that of a rigid stratosail body, thus being a complicated and flexible-rigid coupled modeling process. This paper analyzes the stress of the stratosail and calculates the size and direction of the tensile force of the tether in different states in accordance with the moment-equilibrium principle. It analyzes the effects of the gravity, aerodynamic force and tensile force of the tether on the stratosail and calculates the inclination angle, deviation angle and tensile force of the tether at its different attitude angles. The analysis of the calculation results shows that the absolute values of the inclination angle and deviation angle of the tether increase as increasing absolute value of its yaw angle, that the lateral tensile force components of the stratosail increase but that the resultant tensile force of the tether does not increase but decreases slightly. The modeling of the stratosail of a stratospheric satellite includes both the modeling of a flexible tether and that of a rigid stratosail body, thus being a complicated and flexible-rigid coupled modeling process. This paper analyzes the stress of the stratosail and calculates the size and direction of the tensile force of the tether in different states in accordance with the moment-equilibrium principle. It analyzes the effects of the gravity, aerodynamic force and tensile force of the tether on the stratosail and calculates the inclination angle, deviation angle and tensile force of the tether at its different attitude angles. The analysis of the calculation results shows that the absolute values of the inclination angle and deviation angle of the tether increase as increasing absolute value of its yaw angle, that the lateral tensile force components of the stratosail increase but that the resultant tensile force of the tether does not increase but decreases slightly.

Published

2011

16. Modeling and simulating the stratosail of stratopheric satellite

Author

Supeng, Zhu, primary, Wenxing, Fu, additional, and Xiaoqi, Li, additional

Published

2011

17. Conceptual Research on Application of Single Pixel Infrared Imaging to Missile Guidance

Author

Wenxing, Fu, primary, Supeng, Zhu, additional, and Kai, Zhang, additional

Published

2009

18. Software Design for Comprehensive Control Platform of a Missile Simulation System Based on RTX

Author

WenXing, Fu, primary, Xiaofei, Chang, additional, SuPeng, Zhu, additional, and Yanda, Zhu, additional

Published

2009

19. A New Method for Controlling the Trajectory of Stratospheric Satellite

Author

Wenxing, Fu, primary, Supeng, Zhu, additional, Liankai, Zuo, additional, and Yanda, Zhu, additional

Published

2009

20. Applying Genetic Algorithm to Optimization Parameters of Missile Control System

Author

Supeng, Zhu, primary, Wenxing, Fu, additional, Jun, Yang, additional, and Jianjun, Luo, additional

Published

2009