Distributed Coordination of Fractional Dynamical Systems with Exogenous Disturbances

Distributed coordination of fractional multiagent systems with external disturbances is studied. The state observer of fractional dynamical system is presented, and an adaptive pinning controller is designed for a little part of agents in multiagent systems without disturbances. This adaptive pinning controller with the state observer can ensure multiple agents’ states reaching an expected reference tracking. Based on disturbance observers, the controllers are composited with the pinning controller and the state observer. By applying the stability theory of fractional order dynamical systems, the distributed coordination of fractional multiagent systems with external disturbances can be reached asymptotically.


Introduction
Distributed coordination of multiagent systems has become an active research field in the systems and controls society because of its importance applications in both civilian and military sectors.A large number of distributed coordination scenarios have been studied, like formation control of the unmanned aerial vehicles, advanced autonomous monitoring system, attitude control of satellites, distributed sensor networks, undersea robots cooperation control, cloud computing systems composed of multiservers, and so forth [1][2][3][4][5][6][7][8].
The study results of the multiagent systems are mainly on the integer-order systems whose dynamical equations are first-order, second-order, or high-order differential equation.However, many multiagent systems cannot be characterized with the integer-order systems in the complex physical environment, while they only are described with fractional order (noninteger) differential equations [9,10].In actual complex environment, it can reveal the nature of the characteristics and behavior for the physical system with fractional-order feature described by fractional dynamics [11,12].Recently, fractional calculus has attracted a significant number of researchers from physics and engineering.Many dynamical systems such as dielectric polarization, viscoelastic systems, and electromagnetic waves have turned out to be modeled by fractional-order differential equations, and many important results for fractional-order dynamical systems have been obtained [13][14][15][16][17].Many multiple agents have emerged out the fractional cooperative behavior, for example: flocking and food searching of colony system by means of the individual secretions, submarine underwater robots in the undersea with a large number of microorganisms and viscous substances, and unmanned aerial vehicles running in the complex space environment [11,12].Cao and Ren have studied distribution coordination of multiagent systems based on the fractional-order systems [18] and obtained the relationship between the individuals' number and the fractional order on the stability of multiagent systems.Yang et al. have researched the collaboration control of fractional-order multiagent systems with communication delays [19][20][21].Motivated by the broad application of distributed cooperation in multiagent systems and the fact that many practical physical systems are demonstrated with fractional-order dynamics, the distributed coordination of fractional-order networked systems will be studied in this paper.
In this paper, we intend to study the fractional dynamical systems with external disturbances.In the movement process of multiple agents, various disturbances, such as stochastic noises, modeling errors, external interferences, and communication delays, will influence the performance of multiagent systems.Recently, as an effective robust control way, methods of the disturbance-observer have been widely used in the fields of mechanical, electrical, power, intelligence agent and structural engineering [22][23][24][25][26][27].Guo and Chen [22] presented a disturbance observers based control method from the linear system to a dynamic nonlinear model with disturbance for the first time.Wei et al. [23] studied the composite adaptive disturbance observer-based control for a class of nonlinear systems with multisource disturbance.Yang et al. [24,25] have studied the consensus of second-order multiagent systems with exogenous disturbances and the robust consensus of multiagent systems with uncertain exogenous disturbances.Guo and Cao [26] have studied antidisturbance control for systems with multiple disturbances.Zhang et al. have studied the adaptive tracking of multiagent systems with stochastic communication noises [27,28].However, as far as we know, there are few researches done on the distributed coordination of fractional-order multiagent systems with exogenous disturbances.
In this paper, a class of fractional multiagent systems with external disturbances is studied.External disturbance signal is described with the dynamic subsystem, and expected reference information is interacted by a little part of agents.An adaptive pinning controller with a state observer is built to ensure multiple agents' states reaching the expected reference trajectory.Based on disturbance observers, the distributed coordination of fractional multiagent systems with external disturbances can be reached asymptotically by applying the controllers composted with the pinning controller.

Problem Statements
In this paper, distributed consensus of fractional multiagent system with external disturbance is investigated.Assume there are  agents whose communication network is a directed graph.The multiagent systems are described as follows, for  = 1, . . ., : where   (),   (), and   () represent the state, control input, and system output of agent , respectively, and   () ∈   ,   () ∈   .In this paper, we assume  = 1; for the cases of  > 1, the similar conclusion can be got by applying Kronecker product. ()  () represents the -order derivative with  ∈ (0, 1).The weight value   is the (, ) element of adjacency matrix A, where   > 0 when agent  can receive the information from agent , otherwise   = 0.The set   = { :   > 0} contains the neighbors of agent .  () is the external disturbance of the systems with the description: where ,  are the matrices of the system with (, ) observable.
Assume that there is a reference leader (or a food source, an expected destination, etc.) in the multiagent systems, whose dynamics meets where  0 () is the reference state expected agents moving tracking and V 0 () meets V () 0 () =  0 (), while  0 () is a continuous function satisfying the Lipschitz condition.The purpose of this paper is to design a distributed controller under the influence of external disturbance, for any initial value, agents of the system can track the reference tracking, or lim  → ∞ (  () −  0 ()) = 0, for all  ∈ , then the multiagent systems reach consensus asymptotically and follow the reference trajectory.
Lemma 1 (see [8]).Assume that multiagent systems with n agents exist a directed topology with a globally reachable node.Then matrix + is full rank and the eigenvalues of matrix + have positive real part, where  is the Laplacian matrix of the connection topology of n agents, and  = diag{  ,  = 1, . . ., }, where   is a nonnegative real number that does not always equal 0.
Lemma 3 (see [10]).Assume  ∈  × is set to be a deterministic real matrix, then the system can gradually reach stable under the following necessary and sufficient conditions:

Distributed Tracking for Fractional Multiagent Systems without Exogenous Disturbances
Assume that the external disturbances of the system can be observed or can be ignored, we establish the state observer of the system (3a) and (3b): where  1 is the unknown parameters of the observer.x, ŷ are the estimated value of the state and output of the systems (3a) and (3b).Assume that the controller for agent  is as follows: where   ≥ 0, if   > 0 represents agent  can sense the reference status, otherwise it cannot sense the perceived expectations.The control gain  > 0 is an undetermined parameter.
Let  =   , then the above equation is equivalent to that is, det According to Lemma 1, the matrix + 1 is of full rank and its eigenvalues are all with positive real part.So the eigenvalues of characteristic equation (15b) have negative real parts.The eigenvalues of characteristic equation (15b)  =  1/ are satisfied with the condition in Lemma 3.
Corollary 5. Assume that the connection topology of multiagent systems is directed and symmetrical network with n agents and an interacted reference node.Then the distributed cooperation of multiagent systems (3a) and (3b) without external disturbance, by applying the state observer (9) and the controller (10), can be reached asymptotically, if where  1 is a nonnegative real number which is not all zero; (2) control gain of the controller  > 0.

Examples
Consider undirected connected network topologies (Figure 1) where only agent1 is connected with a reference leader.The connected weighted values of the adjacency matrix are generated randomly in the range [0, 2].The order of fractional dynamical multiagent systems is  = 0.8.
Case 1. Movement trajectory of Multiagent systems without disturbances will be studied.We select the initial states of agents randomly in the area [0, 10], the reference trajectory is  0 = 0.15, and the control gains  1 = 1,  = 1.The moving tracking of agent systems without disturbances are plotted in Figure 2 with  11 = 1, where the distributed cooperation is reached asymptotically.
Case 2. Movement trajectory of Multiagent systems with disturbances will be studied.Suppose the exogenous disturbance system (2) is set as with initialized value   (0) = [0.5 sin 1, 0.5 cos 1]  .The output of the fractional-order systems with disturbances is shown in Figure 3.By using linear matrix inequalities packages of MATLAB, we get  2 = (4/5)[4, 3]  .The moving tracking of fractional systems with exogenous disturbances is plotted in Figure 4, where the expected reference tracking has been achieved for multiagent systems with the disturbance observers.

Conclusions
In this paper, distributed coordination of fractional multiagent systems with extrinsic disturbances is studied.A state observer of the dynamical system is developed based on  the disturbance observers; an adaptive pinning controller is presented based on the estimated disturbances information from the disturbance observers.With the reference tracking interacted, a fractional composite controller for the antiinterference of multiagent system is proposed, which can make the multiagent systems with external disturbance reach the reference trajectory asymptotically.

Figure 2 :
Figure 2: Movement trajectory of multiagent systems without disturbance.

Figure 3 :
Figure 3: Movement trajectory of multiagent systems with disturbance.

Figure 4 :
Figure 4: Moving trajectory of multiagent systems with disturbance observers.
(1))orem 4. Assume that the connection topology of multiagent systems is directed network with  agents, and there exists a globally reachable node.There are lots of agents including the globally reachable node can sense the information from the reference node.Then the distributed cooperation of multiagent systems (3a) and (3b) without external disturbance,by applying the state observer(9)and the controller(10), can be obtained asymptotically if(1) 2.  1 = diag{ 1 ,  ∈ }, where  1 are nonnegative real numbers which are not all zeros;(2)  −  2  is negative definite.