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Journal ArticleDOI

Robust finite-time guidance against maneuverable targets with unpredictable evasive strategies

Ran Zhang1, Jiawei Wang1, Huifeng Li1, Zhenhong Li2, Zhengtao Ding2 
Beihang University1, University of Manchester2
01 Jun 2018-Aerospace Science and Technology (Elsevier BV)-Vol. 77, pp 534-544
TL;DR: Based on homogeneity technique, the local finite-time input-to-state stability is established for the closed-loop guidance system, thus implying the proposed RFTG law can quickly render the LOS rate within a bounded error throughout intercept.
About: This article is published in Aerospace Science and Technology.The article was published on 2018-06-01 and is currently open access. It has received 9 citations till now. The article focuses on the topics: Observer (quantum physics) & Guidance system.

Summary (2 min read)

Jump to: [1. Introduction][2. Problem formulation][3. Robust finite-time guidance design][4. Convergence analysis of LOS rate][5. Simulations] and [6. Conclusion]

1. Introduction

  • Interception of a maneuverable target is one of essential questions in the study of homing guidance.
  • This new guidance problem is referred to as Unpredictable Maneuverable Target Interception (UMTI) herein; that is, the interceptor cannot predict the evasive strategy of the target.
  • The CFTDO is designed to estimate the disturbances that are the e↵ects of the target maneuvers by making the observation-error dynamics behave as a second-order homogeneous system.
  • Note that the robustness of these two guidance laws is routinely guaranteed by the sliding mode control or the high-gain control.
  • As discussed previously, these two control methods have their own drawbacks when adopted in the UMTI.

2. Problem formulation

  • The design and analysis of the RFTG law is based on the following assumptions: Assumption 1. a M and a T are acceleration of the interceptor and the target, respectively.
  • $ represents the deterministic yet unknown maneuvers, such as an artificial-intelligence model and an eventtrigger-based model.
  • A specific target maneuver model concerning (6) is given in Section 5.1 to assess the guidance performance of the proposed guidance law.

3. Robust finite-time guidance design

  • The RFTG law is presented: first, the CFTDO is designed to estimate the e↵ect of the target maneuvers; second, the integrated CFTDO/BCFTS strategy is proposed to robustly stabilize the LOS rate.
  • If = ↵, this integrated CFTDO/BCFTS strategy has two advantages.
  • The disturbances must be completely canceled by the observer in finite time, and then the finite-time controller is designed based on this zeroobservation-error assumption.
  • From the perspective of guidance performance, the RMP-GLs can achieve various optimal performance needs, while, except terminal constraints, the MS-GLs cannot attain other guidance performance needs.
  • Furthermore, by examining the function ( ,!, d̂ T ), the non-smooth feedback control c 1 r|!|↵ sgn(!) can lead to a large magnitude of the guidance command and likely cause the control saturation to happen at the start of the intercept.

4. Convergence analysis of LOS rate

  • This section presents the main theoretical results of the proposed RFTG law.
  • Then, the zero solution of the closed-loop guidance system (17) is locally finite-time stable.
  • Next, the authors establish the corresponding convergence of the LOS rate.
  • The objective of dealing with the control saturation in these two guidance laws is to enable the adaptive laws to work so that the parameters of the target maneuvers can be e↵ectively estimated.
  • Admittedly, a number of assumptions are made for the system states in Theorem 3.

5. Simulations

  • Numerical comparison results for the RFTG law and the other three guidance laws are presented.
  • In the simulation, the interceptor’s initial position is set at the origin, its initial velocity is 1000m/s, and its initial flight path angle is 50 deg.
  • In addition, the divergence of the AGL that begins at approximately 5 s is caused by the parameter adaption.
  • Figure 1d depicts the flight trajectories, and, correspondingly, table 1 gives the homing accuracy of the four guidance laws, demonstrating homing precision of the RFTG law is better than that of the other three in the presence of the target maneuver.
  • As described in Figs. 3c and 3d, the LOS rate in Case 7 is quickly nullified after the sudden change of the target maneuver at 5 s, while the LOS rate in Case 8 is stabilized through a relative large transient period due to the control saturation, which is the adverse impact of the large magnitude of the target acceleration.

6. Conclusion

  • The integrated continuous finite-time disturbance observer /bounded continuous finitetime stabilizer strategy is proposed to approach the problem of intercepting a maneuvering target with an unpredictable evasive strategy.
  • The local FTISS of the proposed RFTG law is established in the case of the bounded derivative of the e↵ect of the target maneuver.
  • Numerical comparisons demonstrate the favorable guidance performance of the RFTG law in terms of the homing accuracy and the estimation of the e↵ect of the target maneuver.
  • Furthermore, the RFTG law can e↵ectively stabilizes the LOS rate in the presence of the control saturation, and achieve the high-precision miss-distances in the four typical cases of the unpredictable maneuverable target interception.

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Citations
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Proceedings ArticleDOI
Distributed Nash Equilibrium Searching via Fixed-Time Consensus-Based Algorithms

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Zhongguo Li1, Zhengtao Ding1
University of Manchester1
10 Jul 2019
TL;DR: It is proved that, for any communication network with a connected graph, a fixed-time consensus is achieved, independent of the initial conditions, based on which an NE can be obtained asymptotically by the gradient descent term for the fixed- time consensus-based algorithm.
Abstract: In this paper, distributed algorithms are designed to search the Nash equilibrium (NE) for an $N$ -player game in continuous-time. The agents are not assumed to have direct access of other agents' states, and instead, they estimate other agents' states by communicating with their neighbours. Advanced consensus algorithms are implemented for such purposes, and consequently the game is decentralised into $N$ subsystems interacting over a communication network. It is proved that, for any communication network with a connected graph, a fixed-time consensus is achieved, independent of the initial conditions, based on which an NE can be obtained asymptotically by the gradient descent term for the fixed-time consensus-based algorithm. Then, the results are extended to a fixed-time NE seeking with modifications of the gradient terms, where both the consensus and the optimisation can be obtained in fixed time, and the upper bound of the settling time is established by the Lyapunov theory. A simulation example is presented to verify the effectiveness of the theoretical development, where some comparisons with other works are studied to demonstrate the advantages of the proposed algorithms.

8 citations

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A switching-based state-scaling design for prescribed-time stabilization of nonholonomic systems with actuator dead-zones

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Deheng Hou, Fangzheng Gao1, Fangzheng Gao2, Jiacai Huang2, Yuqiang Wu3 
Xinyang Normal University1, Nanjing Institute of Technology2, Qufu Normal University3
01 Nov 2021-Aerospace Science and Technology
TL;DR: To deal with the obstacle that the presence of input dead-zone nonlinearities renders the traditional discontinuous feedback control technique inapplicable to nonholonomic systems, a novel switching-based state-scaling transformation (switching-based-SST) is introduced.

6 citations

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An Autonomous Attack Guidance Method with High Aiming Precision for UCAV Based on Adaptive Fuzzy Control under Model Predictive Control Framework

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Zhen Yang, Sun Zhixiao, Piao Haiyin, Yiyang Zhao, Deyun Zhou, Weiren Kong, Kai Zhang 
15 Aug 2020-Applied Sciences
TL;DR: The proposed autonomous attack guidance method for the problem of UCAV using the BVR air-to-air missile (AAM) to intercept the highly maneuvering aerial target, with high aiming precision is proposed.
Abstract: With its superior performance, the unmanned combat air vehicle (UCAV) will gradually become an important combat force in the future beyond-visual-range (BVR) air combat. For the problem of UCAV using the BVR air-to-air missile (AAM) to intercept the highly maneuvering aerial target, an autonomous attack guidance method with high aiming precision is proposed. In BVR air combat, the best launching conditions can be formed through the attack guidance and aiming of fighters, which can give full play to the combat effectiveness of BVR AAMs to the greatest extent. The mode of manned fighters aiming by manual control of pilots is inefficient and obviously not suitable for the autonomous UCAV. Existing attack guidance control methods have some defects such as low precision, poor timeliness, and too much reliance on manual experience when intercepting highly maneuvering targets. To address this problem, aiming error angle is calculated based on the motion model of UCAV and the aiming model of BVR attack fire control in this study, then target motion prediction information is introduced based on the designed model predictive control (MPC) framework, and the adaptive fuzzy guidance controller is designed to generate control variable. To reduce the predicted aiming error angle, the algorithm iteratively optimizes and updates the actual guidance control variable online. The simulation results show that the proposed method is very effective for solving the autonomous attack guidance problem, which has the characteristics of adaptivity, high timeliness, and high aiming precision.

5 citations

Journal ArticleDOI
Time-jerk optimal deployment trajectory planning of deployable parabolic cylindrical antenna

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Jinhua Zhou1, Jinhua Zhou2, Fei Lin2, Guo Yunyun1, Meng Chen1 
Nanjing University of Aeronautics and Astronautics1, Jiujiang University2
08 Sep 2020-AIP Advances
TL;DR: The experimental results show that the proposed approach is able to effectively solve real-parameter multi-objective problems and has better performance on convergence, diversity, and the degree of controlling self-adaptation.
Abstract: A time-jerk optimal deployment trajectory planning method of a large cable-strut deployable parabolic cylindrical antenna is proposed. First, in order to decouple the complex multi-loop mechanisms, the multi-loop basic mechanism of the deployable support structure is split into three single-loop linkages, and the geometric constraint model is established based on the Denavit–Hartenberg method. Then, the kinematic model with jerk characteristics of the basic mechanism is obtained by differentiation. By considering the basic mechanism into a motion element, the kinematic model of the deployable support structure is also established based on matrix coding and motion synthesis theory. Second, by using cubic splines and considering the comprehensive optimal performance of deployment time and system jerk, an antenna deployment trajectory optimization model is established. At last, for obtaining a high precision and stable optimal solution rapidly, the non-dominated sorting genetic algorithm-II is improved by introducing the expected solution preserving strategy. The experimental results show that the proposed approach is able to effectively solve real-parameter multi-objective problems and has better performance on convergence, diversity, and the degree of controlling self-adaptation. The optimal trajectory is efficient and has a smooth kinematic performance.

1 citations

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Abstract: Examines finite-time stability of homogeneous systems. The main result is that a homogeneous system is finite-time stable if and only if it is asymptotically stable and has a negative degree of homogeneity.

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Frequently Asked Questions (11)
Q1. What have the authors contributed in "Robust finite-time guidance against maneuverable targets with unpredictable evasive strategies" ?

This paper presents a robust finite-time guidance ( RFTG ) law to a short-range interception problem. By robustly stabilizing a line-of-sight rate, this paper proposes an integrated continuous finite-time disturbance observer/bounded continuous finite-time stabilizer strategy. Moreover, convergence properties of the LOS rate in the presence of control saturation are discussed. 

The design tools mainly consist of adaptive control, sliding mode control, high-gain control, etc. In [7],Preprint submitted to Aerospace Science and Technology April 3, 2018the authors parameterize upper bounds of the target acceleration and then develop the resulting parameter adaptive laws, thus handling the target maneuver. 

To achieve intercept, three conditions are needed: ! = 0, sin(M )a Msin( T )a T , and ṙ0 < 0, where ṙ 0 is the initial interceptor-target range rate. 

The objective of dealing with the control saturation in these two guidance laws is to enable the adaptive laws to work so that the parameters of the target maneuvers can be e↵ectively estimated. 

As such, the control saturation and the speed of the parameter adaptation are two fundamental concerns in adaptive control design [8, 9, 10]. 

A fast adaptive guidance law in [11] induces an auxiliary signal to prevent the control saturation from destroying the parameter adaptation. 

0. Using LaSalle’s invariance theorem, the zero solution of the observation-error dynamics (13) is globally asymptotically stable. 

In the simulation, the interceptor’s initial position is set at the origin, its initial velocity is 1000m/s, and its initial flight path angle is 50 deg. 

As described in Figs. 3c and 3d, the LOS rate in Case 7 is quickly nullified after the sudden change of the target maneuver at 5 s, while the LOS rate in Case 8 is stabilized through a relative large transient period due to the control saturation, which is the adverse impact of the large magnitude of the target acceleration. 

Using the RFTG law (10), together with = ↵, the closed-loop closed-loop LOS rate dynamics are given by!̇ = c 1 |!|↵ sgn(!) + e d ,ė! 

Although the adaptive guidance laws work well in the above-mentioned scenarios, they have three drawbacks herein: 1) the guidance performance heavily depends on the convergence of adaptive parameters, while these parameters are easily prone to diverge when the jerk of the maneuverable target is considerable; 2) the robustness to the target maneuver relies on the parameterization of the target maneuver, while it is very hard to accurately parameterize the target maneuver under study; 3) the order of the closed-loop guidance system will inevitably increase as the dimension of the adaptive parameters grows.