Your search keyword '"Zhang, Baihai"' showing total 3 results

1. Modified bidirectional extreme learning machine with Gram–Schmidt orthogonalization method.

Author

Zeng, Guoqiang, Zhang, Baihai, Yao, Fenxi, and Chai, Senchun

Subjects

*MACHINE learning, *GRAM-Schmidt process, *LEAST squares, *SIMULATION methods & models

Abstract

Abstract Incremental extreme learning machine has been proved to be an efficient and simple universal approximator. However, the network architecture may be very large due to the inefficient nodes which have a tiny effect on reducing the residual error. More to the point, the output weights are not the least square solution. To reduce such inefficient nodes, a method called bidirectional ELM (B-ELM), which analytically calculates the input weights of even nodes, was proposed. By analyzing, B-ELM can be further improved to achieve better performance on compacting structure. This paper proposes the modified B-ELM (MB-ELM), in which the orthogonalization method is involved in B-ELM to orthogonalize the output vectors of hidden nodes and the resulting vectors are taken as the output vectors. MB-ELM can greatly diminish inefficient nodes and obtain a preferable output weight vector which is the least square solution, so that it has better convergence rate and a more compact network architecture. Specifically, it has been proved that in theory, MB-ELM can reduce residual error to zero by adding only two nodes into network. Simulation results verify these conclusions and show that MB-ELM can reach smaller low limit of residual error than other I-ELM methods. [ABSTRACT FROM AUTHOR]

Published

2018

2. Cooperative relay tracking strategy for multi-agent systems with assistance of Voronoi diagrams.

Author

Dong, Lijing, Chai, Senchun, Zhang, Baihai, Nguang, Sing Kiong, and Li, Xiangshun

Subjects

*MULTIAGENT systems, *VORONOI polygons, *SYSTEMS theory, *SIMULATION methods & models, *INFORMATION theory

Abstract

We study a class of multi-agent tracking system, in which targets are caught by cooperative agents in a monitoring area. A certain domain is monitored by a large number of agents, who are capable of sensing and mobility. In reality, agents are not able to measure absolute position of a target but able to measure the distances. However, when designing the tracking controller, the absolute position information is required. Therefore, we adopt trilateration algorithm to get the absolute position of a target through at least three distances. This monitored domain is overlapped by at least three monitoring agents and some redundant agents and with the assistance of knowledge of Voronoi diagrams it is divided into many Voronoi cells. Then, a cooperative relay tracking strategy is proposed such that during the tracking process, when a target enters a new Voronoi cell, the Voronoi site agent replaces one of the original tracking agents. This means that not only the topology but also the tracking agents switch, which is significantly different from the traditional switching topologies. With the introduction of redundant agents, this domain can deal with the situation that several targets share the same route. Finally, the proposed tracking strategy is verified by a set of simulations. [ABSTRACT FROM AUTHOR]

Published

2016

3. High-order tracking problem with a time-varying topology and communication delays.

Author

Dong, Lijing, Chai, Senchun, Zhang, Baihai, Nguang, Sing Kiong, and Wen, Longfei

Subjects

*TIME delay systems, *INFORMATION theory, *MODULES (Algebra), *LAPLACIAN matrices, *NUMERICAL analysis, *SIMULATION methods & models

Abstract

In this paper, tracking problem for high-order agents under uncertain communication topology and time varying delays is investigated. Each tracking agent is assumed only its own and neighbors׳ information is used in their tracking strategy design. The uncertain communication topology is modelled by a finite number of Laplacian matrices with their corresponding scheduling functions. Sufficient conditions for the existence of a tracking strategy have been expressed in terms of the solvability of linear matrix inequalities. Finally, numerical examples are given to verify the effectiveness and advantages of proposed tracking strategy. Through a set of simulations with various control parameters γ , the relationship between γ and the maximum allowable communications delays is tabulated. [ABSTRACT FROM AUTHOR]

Published

2015