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      欠驅(qū)動(dòng)再入飛行器的抗飽和姿態(tài)控制器設(shè)計(jì)*

      2017-01-17 07:27:54李憲強(qiáng)周軍
      火力與指揮控制 2016年12期
      關(guān)鍵詞:周軍西北工業(yè)大學(xué)姿態(tài)控制

      李憲強(qiáng),周軍

      (1.北京空間技術(shù)研制試驗(yàn)中心,北京100094;2.西北工業(yè)大學(xué)精確制導(dǎo)與控制研究所,西安710072)

      欠驅(qū)動(dòng)再入飛行器的抗飽和姿態(tài)控制器設(shè)計(jì)*

      李憲強(qiáng)1,周軍2

      (1.北京空間技術(shù)研制試驗(yàn)中心,北京100094;2.西北工業(yè)大學(xué)精確制導(dǎo)與控制研究所,西安710072)

      針對(duì)只有兩個(gè)舵的欠驅(qū)動(dòng)再入飛行器,設(shè)計(jì)了具有抗飽和功能的姿態(tài)跟蹤控制器??刂破鞯脑O(shè)計(jì)過程中,首先將姿態(tài)運(yùn)動(dòng)學(xué)與動(dòng)力學(xué)模型分解成慢回路和欠驅(qū)動(dòng)的快回路,然后分別針對(duì)快回路和慢回路設(shè)計(jì)了超扭曲滑??刂破骱头謱踊?刂破鳎詈笸ㄟ^仿真驗(yàn)證了該方法的有效性。

      欠驅(qū)動(dòng),再入飛行器,飽和,分層滑模

      1 INTRODUCTION

      Under-actuated systems are characterized by the fact that they have fewer actuators than the degree of freedom to be controlled[1].As to most of existing reentry vehicles,the rudder-type control surface may fail when they fly at large angle of attack,thus leading to under-actuation of vehicles.

      At present,the research results on attitude controller design of under-actuated reentry vehicle mainly cover literatures[2-4].All such literatures firstly select the proper output variables through using output redefinition[5],then dynamic inversion and other control methods with better robustness are employed,so as to finally realize local stability of attitude tracking system of under-actuated reentry vehicle.But the system stability under actuator saturation is not mentioned in literatures[2-4].During actual flight,reentry vehicle is often subject to actuator saturation,which will result in the performance reduction of control system,even system instability.For this reason,it is of great significance to study attitude tracking of under-actuated reentry ve hicle under input saturation.To track desired attitude of under-actuated reentry vehicle,a kind of attitude tracking controller is designed for under-actuated reentry vehicle with input saturation in this paper on the basis ofsuper-twisting sliding mode control theory,hierarchical sliding mode control theory and adaptive control theory.

      2 MODELANALYSISANDPROBLEM FORMULATION

      The attitude kinematics and dynamics of the under-actuated reentry vehicle with only two inputs can be expressed as following[2]

      Based on widely accepted time-scale separation assumption,equation(1)can be divided into slow-loop subsystem and fast-loop subsystem as following:

      In equation(6),the freedom degree of control variables of fast-loop subsystem is smaller than that of the control system,so it is a typical under-actuated system. When ω is selected as output,equation(6)shows a typical non-minimum phase system.And unacceptable internal dynamics may be caused when the control methods based on dynamic inversion is adopted.

      3 CONTROLLER DESIGN

      During the design,a slow subsystem controller and a fast subsystem controller are designed separately.

      3.1 CONTROLLER DESIGN FOR SLOW-LOOP SUBSYSTEM

      Theorem 3.1 If selecting the sliding mode surface S described as formula(8)and the controller in formula(9),for the system formula(7),

      Proof By calculating the derivative of S in formula(8),and substituting formula(7),we can get

      By calculating the derivative of formula(9)and substituting it into formula(10),we can get

      Take

      3.2 DESIGN OF FAST-LOOP SUBSYSTEM CONTROLLER

      where δe_eqand δα_eqdenote the equivalent control,δe_sand δα_sdenote the sliding mode switching control.

      Selecting the total sliding mode surface as[23-24]

      Lemma 3.1[7]When stotalin formula(19)converges to the origin,zi(i=1,2,3)will also converge to the origin at the same time.

      Differentiating the both sides of the formula(19),and noting formulas(1),(14)and(18),we can obtain

      Substituting formulas(16)and(17)into formula(22),we have

      The equivalent control can be choosed as following

      Substitutingformula(25)intoformula(23),wehave

      Theorem 3.2 Formula(14)will be stable under the control of below controller(formulas(27)-(28)),i.e.

      wherein,δe_eqand δα_eqare denoted as(25),

      and the adaptation update laws are

      where,p1and p2are the positive constants to be selected.

      Proof For the plant(14),we choose the following candidate Lyapunov function

      Differentiating V(t)with respect to time t,and substituting formula(23)into the derivative of V(t),we obtain

      From formula(32),we have

      substituting the formula(25)into inequality(33),yields

      according to assumption 3.3 and formula(34),we

      can obtain

      substitutingformula(28)intoinequality(35),yields

      According to assumption 3.2 and inequality(36),we can obtain

      substitutingformula(29)intoinequality(37),yields

      According to formula(30),we can obtain

      substituting formulas(29)and(39)into inequality(38),yields

      then,we can get

      4 SIMULATION RESEARCH

      This section focuses on performance verification of control system subjected to input saturation.Parameters forsimulationareselectedas:K1=3I3,K2=1.5I3,ks1=ks2=2.1,ε1=ε2=0.05,b1=b2=0.27,r=0.75,adaptive

      parameters:p1=1.52 and p2=2.13,initial adaptive value: c?1(0)=1,c?2(0)=1.Corresponding simulation results are shown in Fig.1-Fig.5.

      Under input saturation(Fig.1),the angle of sideslip can still be effectively restrained within 3°(Fig.3)and the tracking effect of the angle of attack and sideslip angle is satisfying.And Fig.5 show that,the adaptive parameters can also be stabilized.In summary,forunderactuatedreentryvehicle,the controller designed shows good performance under input saturation.

      Fig.1 Control input with saturation.

      Fig.2 Attack-angle α responses under input saturation.

      Fig.3 Side-slip angle β responses under input saturation.

      Fig.4 Bank-angle γvresponses under no input saturation.

      5 CONCLUSION

      The paper introduces a control method of un-reduce actuators configured,thus lowering system mass and cost.In addition,it shows great practical significance for solving system stability issues in case of control input saturation and model disturbance.

      Fig.5 The estimated parameters under input saturation.

      [1]QIAN D,YI J,ZHAO D.Hierarchical sliding mode control for a class of SIMO under-actuated systems[J].Control and Cybernetics,2008,37(1):159-175.

      [2]WALLNER E M,WELL K H.Attitude control of a reentry vehicle with internal dynamics[J].Journal of Guidance,Control,and Dynamics,2003,26(6):846-854.

      [3]ITO D,GEORGIE J,VALASEK J,et al.Reentry vehicle flight controls designguidelines:dynamic inversion[C]// NASA/TP—2002-210771,2002.

      [4]SHIN J,BALAS G,PACKARD A.Worst-case analysis of the X-38 crew return vehicle flight control system[J].Journal of Guidance,Control,and Dynamics,2008,24(2):261-269.

      [5]KIM S G,TAHK M J.Output-redefinition based on robust zero dynamics[C]//In Proceedings of AIAA Guidance,Navigation,and Control Conference,Boston,1998.

      [6]JAIME A M.Strict lyapunov functions for the super-twisting algorithm[J].IEEE Transactions on Automatic Control,2012,57(4):1035-1040.

      [7]BAO Y,LI J,XIE J,et al.On hierarchical sliding mode control of underactuated TORA system[C]//In Proceedings of the 10th World Congress on Intelligent Control and Automation,Beijing,China,2012.

      [8]TIGGES M A.Preliminary v-201 entry flight profile with landing site precision,cycle-8[M].NASA V-201-NOI 175,1998.

      [9]VOEGT S,BURKHARDT J,MULLER S,et al.CREDITS-model and algorithm description[M].Astrium Space Infrastructure,TET-DASA-18-SW-2185,Germany,1999.

      Attitude Tracking of the Under-actuated Reentry Vehicle with Actuator Saturation

      LI Xian-qiang1,ZHOU Jun2
      (1.Beijing Manufacture and Experiments Center of Space Technology,Beijing 100094,China;
      2.Institute of Precision Guidance and Control,Northwestern Polytechnical University,Xi’an 710072,China)

      In this paper,an attitude tracking controller for the under-actuated reentry vehicle with only two actuators is designed in the presence of actuator saturation and disturbance.During design of the controller,the attitude kinematics and dynamics model of under-actuated reentry vehicle is firstly divided into a slow-loop subsystem and a under-actuated fast-loop subsystem.And then a supertwisting sliding mode controller and an adaptive hierarchical sliding mode controller are designed separately for the slow-loop subsystem and fast-loop subsystem.Finally,the validation of the method is verified through simulation.

      under-actuated,reentry vehicle,saturation,hierarchical sliding mode

      TJ765.3

      A

      1002-0640(2016)12-0015-05

      2015-11-18

      2015-12-26

      國家自然科學(xué)基金資助項(xiàng)目(61403028)

      李憲強(qiáng)(1986-),男,河南濮陽人,博士。研究方向:導(dǎo)航、制導(dǎo)與控制。

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