Your search keyword '"Qiao, Yupeng"' showing total 3 results

1. An optimal cooperative tracking algorithm for discrete-time multi-agent systems

Author

Qiao Yupeng and Yao Meng

Subjects

Algebraic connectivity, Mathematical optimization, Degree matrix, Graph bandwidth, Spectral graph theory, Complete graph, Graph (abstract data type), Adjacency matrix, Laplacian matrix, Mathematics

Abstract

This paper designs the distributed cooperative control algorithm that assure synchronous tracking and are globally optimal with respect to given cost functions. We consider multi-agent systems with identical discrete multi-integrator dynamics and undirected topology graph. The distributed cooperative control protocol and the interaction-free cost function are proposed firstly. With the given cost function, we derive the global optimal cooperative tracking control protocol with the optimal communication graph Laplacian matrix and the optimal pinning gain matrix though discrete LQR method. To achieve this result, we also propose the decomposability of nonsingular M-matrix and the connections between M-matrix and Laplacian matrix. The optimal control protocol requirements the communication graph is a complete graph. Otherwise, considering any symmetric graph Laplacian matrix and any pinning gain matrix, we can derive the corresponding cost function though inverse optimality. Finally, the validity of the result is illustrated through numerical examples.

Published

2015

2. Cooperative Control via Congestion Game Approach.

Author

Hao, Yaqi, Pan, Sisi, Qiao, Yupeng, and Cheng, Daizhan

Subjects

COOPERATIVE control systems, MATHEMATICAL optimization, POTENTIAL theory (Mathematics), NASH equilibrium, RESOURCE management

Abstract

The optimization of facility-based systems (FBSs) is considered. First, the congestion game is converted into a matrix form so that the matrix approach is applicable. Then, an FBS with a system performance criterion is considered. A necessary and sufficient condition is given to assure that the system is convertible into a congestion game with the given system performance criterion as its potential function by designing proper facility-cost functions. Using this technology, for a dynamic FBS, the global optimization may be reached when each agent optimizes its payoff functions. Finally, the approach is extended to those systems that are partly or nearly convertible. Note that the proposed methodology can only be applied to classical congestion games, where the user with multiple unit demands is not allowed. [ABSTRACT FROM AUTHOR]

Published

2018

3. On partitioned controllability of switched linear systems

Author

Qiao, Yupeng and Cheng, Daizhan

Subjects

*LINEAR systems, *SYSTEMS theory, *LINEAR differential equations, *CONTROL theory (Engineering), *MATHEMATICAL optimization, *MANIFOLDS (Mathematics)

Abstract

Abstract: When a switched linear system is not completely controllable, the controllability subspace is not enough to describe the controllability of the system over whole state space. In this case the state space can be divided into two or three control-invariant sub-manifolds, which form a control-related partition of the state space. This paper investigates when each component is a controllable sub-manifold. First, we consider when a sub-manifold is controllable for no control input case. Then the results are used to produce a necessary and sufficient condition assuring the controllability of the partitioned control-invariant sub-manifolds of a class of switched linear systems. An example is given to demonstrate the effectiveness of the results. [Copyright &y& Elsevier]

Published

2009