Adaptive event-triggered state estimation for a class of stochastic complex networks subject to coding-decoding schemes and missing measurements

• Published in: Neurocomputing (Amsterdam) Vol. 494; pp. 297 - 307
• Main Authors: Jia, Chaoqing, Hu, Jun, Chen, Dongyan, Cao, Zhipeng, Huang, Jinpeng, Tan, Hailong
• Format: Journal Article
• Language: English
• Published: Elsevier B.V 14.07.2022
• Subjects: Adaptive event-triggered scheduling strategy; Coding-decoding scheme; Complex dynamical networks; Missing measurements; Random coupling parameter; Recursive state estimation; Random coupling parameter; Missing measurements; Adaptive event-triggered scheduling strategy; Coding-decoding scheme; Recursive state estimation; Complex dynamical networks
• ISSN: 0925-2312; 1872-8286
• DOI: 10.1016/j.neucom.2022.04.096

This paper is concerned with the adaptive event-triggered recursive state estimation (RSE) issue for a class of nonlinear complex dynamical networks (CDNs) with random coupling parameter, missing measurements (MMs) and coding-decoding-based communication mechanism (CDBCM). First of all, a random variable uniformly distributed in a fixed interval is adopted to model the varying topologies. Then, the Bernoulli random sequence with uncertain statistical properties is considered to characterize the phenomenon of MMs subject to the uncertain occurrence probability situation. Furthermore, in order to ensure the security and reliability of the shared network channel, the adaptive event-triggered scheduling strategy (AETSS) and CDBCM are both employed to govern the data transmission thereby enhancing the communication quality. The aim of this paper is to present an RSE scheme for a class of stochastic CDNs such that for all MMs, AETSS and CDBCM, the state estimation error covariance (SEEC) is given the SEEC upper bound (SEECUB) is derived. Then, the state estimator gain matrix (SEGM) is parameterized by means of optimizing the trace of SEECUB. Moreover, the monotonicity of the trace of SEECUB with respect to the available missing probability is clarified detailed. Finally, an illustrative simulation is executed for the purpose of verifying the validity of the proposed RSE scheme.