Sliding mode control of a novel 6dof parallel manipulator. Sliding mode control theory seeks to produce controllers to over some such mismatches. Design of current programmed switching converters using. A sliding mode control strategy in recent years, there is an increasing interest in the development of sliding mode controller for the robust control of chemical process systems with uncertainties chen and peng, 2005. Variable structure control of dynamical systems is a nonlinear control technique in which the control variable is usually chosen so that a sliding mode behavior on a proper surface of the state plane is enforced pro cons robustness with respect to matching disturbances robustness with respect to system uncertainty simple implemen.
These robustness properties make this discontinuous control strategy very attractive. Higher order sliding mode control and dynamic sliding mode control yield more accuracy and also reduce andor remove the chattering resulting from the high frequency switching of the control. In this method, a state trajectory starting from a given initial point reaches a definite point on a sliding surface in the minimum time, and then tends to the origin along the sliding surface ss. Smc controller with quadratic minimization, adaptive functionalities and integral action for reference tracking.
Design and implementation of a new slidingmode observer. According to the theory sliding mode control should be robust, but experiments show that it has serious limitations. Discretetime sliding mode control tu delft repositories. Finitetime output feedback control based on sliding mode control theory 3. A control law is proposed here for asymptotic stabilization of the resulting periodic system by the introduction of a set of subspaces to which the system state is driven, resembling sliding mode. Active fault tolerant control of nonlinear systems. Moreover, some important control problems involving uncertain mechanical. Sliding mode control has been studied for many decades and is now one of the most active areas of research on nonlinear control theory. The control law for the first order sliding mode control fosmc of the system 1 so that the sliding surfaces go to zero in a finite time is defined by. Sliding mode control using matlab provides many sliding mode controller design examples, along with simulation examples and matlab programs. Recently, in, a lowpass filter used to attenuate the chattering is introduced in the input channel i. The sliding mode algorithms found their place in the theory and. Serbian journal of electrical engineering volume 16, no.
In the formation of any control problem there will be discrepancies between the actual plant and the mathematical model for controller design. In the past such converters were being modelled using the state space averaging method. Quasisliding mode control strategy based on multiplelinear. In this technical note, an hosm control law of general order r is proposed, aimed at guaranteeing the minimumtime convergence of the state onto the sliding manifold, and, at the same. This text provides the reader with a grounding in sliding mode control and is appropriate for the graduate with a basic. A modelfree control algorithm derived using the sliding mode control method agamemnon crassidis, arielle mizov rochester institute of technology 76 lomb memorial drive, rochester, new york 14623, u. Instead, it can switch from one continuous structure to another based on the current. Modern sliding mode control theory new perspectives and. Delft university of technology design of second order sliding mode. The algorithm used to establish the current references for the sliding mode controller is based on the instantaneous real and imaginary power theory for fourwire system. Contributions to the theory of sliding mode control.
To design a variable structure vs control system with sliding mode, it is necessary to determine a sliding surface and a vs control law such that the reducedorder system on the sliding surface. In control systems, sliding mode control is a nonlinear control method that alters the dynamics of a nonlinear system by application of a discontinuous control signal that forces the system to slide along a crosssection of the systems normal behavior. Design and implementation of sliding mode controller for. The paper presents a brief survey on variable structure control systems with sliding modes. Sliding mode control precept seeks to provide controllers to over some such mismatches. The characteristic feature of a continuoustime smc system is that sliding mode occurs on a prescribed manifold, where switching control is employed to maintain the state on the. In control systems, sliding mode control smc is a nonlinear control method that alters the dynamics of a nonlinear system by application of a discontinuous control signal or more rigorously, a setvalued control signal that forces the system to slide along a crosssection of the systems normal behavior. A practical design that combines a fuzzy adaptation technique with sliding mode control to enhance robustness and sliding performance in a class of uncertain mimo nonlinear systems is proposed. A sliding mode control for fourwire shunt active filter. A modelfree control system based on the sliding mode.
The fault tolerant control method is also compared with a different approach relying on sliding mode control, in order to evaluate benefits and drawbacks of both techniques. Sliding mode control of power converters caltechthesis. Here, we propose combining model free control with sliding mode control to track nanosecond pulses of redshifted acceptor fluorescence in order to inhibit visible light emitted from the image plane, shrink the point spread function, and subsequently improve the. Sliding mode control theory and applications download. Sliding mode controller design sliding mode control is a special version of an ono control. The beha viour of a nonlinear system cannot be described as a linear function of the state of that system or the input variables to that system. A modelfree control algorithm derived using the sliding mode. Shi, sliding mode control in electromechanical systems, taylor francis, 1999. Even though the parameters may change with time and load, still the system. Sliding mode control is a nonlinear control method based on the use of a discontinuous control input which forces the controlled system to switch from one continuous structure to another, i. The described control algorithms were applied to position control of the levitating systems in magnetic field. Sliding mode control for systems with time delay 12.
The main problem by applying the sliding mode is the high frequency oscillation around the sliding surface, the socalled chattering, which strongly reduces the control performance. The motivation of this controller is to introduce the lyapunov function vx. Sliding mode faulttolerant control of an octorotor using linear parameter varyingbased schemes, iet control theory and applications, 2015, 9, 4, pp 618 636. Sliding mode control enables separation of the overall system motion into independent partial components of lower dimensions, and as a result reducing the. Part ii then explores properties of continuous slidingmode algorithms, such. Routerbased network traffic observation by terminal. Fault tolerant control based on neural network interval type2 fuzzy sliding mode controller for octorotor. Sliding mode control encyclopedia of life support systems. Sliding mode control in electromechanical systems 2nd ed. Most sliding mode control laws make the controlled system 1 convergent to the sliding surfaces in finite time. It is proved that certain trajectories reach a sliding mode in a finite time.
The implicit discretization of the supertwisting slidingmode control. However, terminal sliding mode control laws can achieve more by steering the states to equilibrium in finite time. Sliding mode control toolbox file exchange matlab central. Fundamentals of slidingmode control design springerlink. The desired output of a system is called the reference.
Sliding mode control, with integrator, for a class of mimo. Such a controller was designed based on a mathematical neuromuscular skeletal model and is founded on a sliding mode control theory. For example, sliding mode control drives a sliding surface. Simr oc k desy,hamb urg, german y abstract in engineering and mathematics, control theory deals with the beha viour of dynamical systems.
An adaptive sliding mode control asmc scheme is proposed for the synchronization of two chaotic nonlinear systems. Variable structure control vsc or sliding mode control smc in particular has been treated as a powerful technique to cope with complex systems with unmodelled dynamics due to its simplicity and strong robustness with respect to system parameter variations and external disturbances. Utkin abstractthe paper deals with the basic concepts, mathemat ics, and design aspects of variable structure systems as well as sliding modes as a principle operation mode. Robust adaptive sliding mode control using fuzzy modelling for a class of uncertain mimo nonlinear systems w. Section iv deals with the design of sliding mode controller. Further details are included in the instructions file.
Apply sliding mode theory to solve control problems. In this work, a three phase transformerless hybrid series active power filter thseaf based on sliding mode control smc is proposed to mitigate the voltage and current distortions present in an electrical distribution systems eds. This textual content material provides the reader with a grounding in sliding mode control and is suitable for the graduate with a main info of classical control idea and some info of statespace methods. These insights allow us to develop design guidelines that can inform the construction of feedback controllers for synthetic biological systems. In the design of sliding mode controller the first stage is a design of sliding surface while the second is forces the state to approach the sliding surface from any other region of the state space, and remains on it 1 refer fig. A sliding mode control differentiator is also considered. Starting from a general case of sliding modes in dynamical systems with discontinuous righthand side, classic approaches to sliding mode control systems are considered and some basic results about the control of uncertain systems are given. In the first, a ss is designed, then using an appropriate measure, an embedding is constructed to solve a. Many reports on sliding mode control and its extensions can be found in the literature, including 14. The sliding mode control paradigm has become a mature technique for the design of robust controllers for a wide class of systems including nonlinear, uncertain and timedelayed systems. Sliding mode control theory and applications taylor. The main purpose of control engineering is to steer the regulated plant in such a way that it operates in a required manner. The main argu ments in favor of sliding mode control are order reduction. The first attempt was made by the author in 19751976 in his course on the theory of discontinuous dynamic systems and the theory of variable structure systems read to postgraduates at the university of illinois, usa, and then presented in 19781979 at the seminars held in the laboratory of systems with discontinous control at the.
Introduction in nonlinear control theory, sliding mode control is a robust control system capable of handling systems with modelling inaccuracies and outside disturbances. Sliding mode control in electromechanical systems pdf. Routerbased network traffic observation by terminal sliding mode control theory authors xu, l. Figure 1 shows an example trajectory of a system under sliding mode control. Sliding mode control smc has been successfully applied to many practical control problems due to its attractive features such as invariance to matched uncertainties. The strengths of sliding mode controllers result from the ease and flexibility of the methodology for their design and implementation. This book is a collection of plenary and invited talks delivered at the 12th ieee. Switched mode power converters are being used extensively for the purpose of efficient power conversion. What are the good resources to learn about sliding mode control. The field of control theory can be divided into two branches. In control system, sliding mode control, or smc, is a nonlinear control method that alters.
Design is decoupled into two independent subproblems. Such converters are nonlinear, time variant systems. Sliding mode control systems igor boiko, leonid fridman, alessandro pisano, elio usai 23 analysis of closedloop performance and frequencydomain design of compensating filters for sliding mode control systems igor boiko 51 discontinuous homogeneous control arie levant, lela alelishvili 71 secondorder sliding sector for variable structure control. Variablestructure systems and slidingmode control from theory. This motivates us to develop a sliding mode controller for the temperature trajectory control of batch processes. On discretization of sliding mode control systems rmit. In this letter, a new sliding mode based flux and speed estimation. Robust adaptive sliding mode control using fuzzy modelling. The desirable performance of the plant should be obtained despite the unpredictable influence of the environment on the control system and no matter if the plant parameters are precisely known. This book provides many sliding mode controller design examples, along with simulation examples and matlab programs. Smc methods have been widely studied in the last three decades from theoretical concepts to industrial applications. The designed control algorithms were verified by using computer simulations. Finitetime sliding mode control design for unknown nonaffine.
A sliding mode controller is designed by controlling the parameters present on the load side as well. Model free, sliding mode control, multiinput multioutput, actuator dynamics, quadrotor 1. Dynamic sliding mode control and output feedback 6. In addition to expanding the sliding mode control theory for power converters, performance evaluation and comparison with other control methods are presented. Theory and applications series in systems and control pdf, epub, docx and torrent then this site is not for you. In this paper, a novel strategy based on measure theory and sliding surface is proposed to design an almost time optimal control as well as a sliding mode control to enforce the system trajectories from an initial point to a definite point on the designed ss in minimum time, and then force the trajectories tend to the equilibrium points. Due to sliding mode control methodology, a sliding surface is determined and. Interest in smc has grown rapidly since the first edition of this book was published. Year 2018 abstract since the early days of the internet, network traffic monitoring ntm has always played a strategic role in understanding and characterizing users activities. Sliding mode control smc is a powerful and robust control method. In recent years, an increasing interest has focused on terminal sliding mode control, with the goal of. A few works have been presented for the speed and flux estimation for the induction machine using sliding mode theory, 14. Theory and applications, taylor and frencis, london. In this paper, a novel strategy using embedding process and sliding surface is proposed.
Simulation study has been carried out and the results are discussed in section v. This text provides the reader with a grounding in sliding mode control and is appropriate for the graduate with a basic knowledge of classical control theory and some knowledge of statespace methods. Linear control theory this applies to systems made of devices which obey the superposition principle, which means roughly that the output is proportional to the input. Sliding mode control design sliding mode equation is of reduced order does not depend on control depends on the equation of switching surfaces.
Classical sliding mode are characterized by constraining the state evolution onto a surface of the state space by means of a switching control the 2nd order sliding mode is characterized by a n2q reduced order dynamics n n q n q t r f t r. This comparison highlights that the proposed design methodology can constitute a reliable and robust approach for application to real nonlinear processes. The smc is equipped with chattering reduction mechanism by implementing boundary around the sliding surface. Sliding mode learning control and its applications manh tuan do submitted in total fulfilment of the requirements of the degree of doctor of philosophy faculty of science, engineering and technology swinburne university of technology melbourne, australia 2014. The sliding mode control filippov theory physical interpretation of the equivalent control invariance in sliding modes sliding mode control design using the sliding mode control. Brogliato, implicit euler numerical scheme and chatteringfree implementation of sliding mode systems, systems and control letters, vol. The sliding mode control filippov theory physical interpretation of the equivalent control invariance in slidingmodes sliding mode control design using the sliding mode control. New perspectives and applications lecture notes in control and information sciences. This second edition includes new results that have been achieved in smc throughout the past decade relating to both control design methodology and applications.
Recent developments in sliding mode control theory and. Using sliding modes in control theory renata wagnerova1 pouziti klouzavych modu v teorii rizeni the paper deals with sliding modes control design. Sliding mode control control theory control systems. Sliding mode control design principles and applications to.
A sliding mode control strategy for temperature trajectory. Neural networkbased sliding mode adaptive control for. In the second part, a general study of systems operating in sets of arbitrary sliding mode order is presented, outlining the fundamentals of higherorder slidingmode control theory. Sliding mode control in engineering 1st edition wilfrid. The system is a second order dynamic system, consisting of a mass and a damper. It focuses on secondorder sliding mode sosm controllers design, particularly on three of the most widely used sosm algorithms, namely twisting, supertwisting. The term sliding mode control comes from the theory of variablestructure systems, specifically. Sliding mode control in electromechanical systems utkin. Normally, sliding mode control design is split into two parts. This book is a collection of invited chapters covering several areas of modern sliding mode control theory. Sliding mode control of constrained nonlinear systems. Sliding modes in control and optimization springerlink. The theory of variable structure systems vss, and sliding mode control form a mutually complementary analysis and design tools for the control of.
The book covers the latest theoretical results and sophisticated applications in. Elements of sliding mode control theory institute for. Based on our analysis of such system, we identify strong links with a wellknown branch of mathematical systems theory from the field of control engineering, known as sliding mode control. The statefeedback control law is not a continuous function of time. Nonlinear control is a subdi vision of control engineering which deals with the control of non linear systems. Sliding mode control provides insensitivity to parameter variations and disturbances. In control systems, sliding mode control smc is a nonlinear control method that alters the dynamics of a nonlinear system by application of a discontinuous. The sliding mode is formulated using elementary differential geometry, then the control vector is deduced from the sliding surface accessibility using the lyapunov stability. New perspectives and applications lecture notes in control and information sciences bartolini, giorgio, fridman, leonid, pisano, alessandro, usai, elio on. Sliding mode control of uncertain parameterswitching hybrid systems is a comprehensive reference for researchers and practitioners working in control engineering, system sciences and applied mathematics, and is also a useful source of information for senior undergraduate and graduates studying in these areas. The major advantage of sliding mode controllers is inherent insensitivity to parameter variations and disturbances once in the sliding mode, thereby eliminating the necessity of exact modeling.
680 319 714 870 875 1013 1410 507 344 421 601 653 313 962 176 157 1238 253 1423 751 1113 1305 155 1005 422 1410 341 908 1047 770 260 1023 1456 258 537 1423 1329 797 1089 1435 977 1124 802 791 511 13