Abstract
AbstractWe consider two models for estimating the expected states of nodes in networks where the observations at nodes are given by random states and measurement errors. In the first model, we assume independent successive observations at the nodes and the design question is how often the nodes should be observed to obtain a precise estimation of the expected states. In the second model, all nodes are observed simultaneously and the design question is to determine the nodes which need larger precision of the measurements than other nodes. Both models lead to the same design problem. We derive explicitly A-optimal designs for the most simple network with star configuration. Moreover, we consider the network with wheel configuration and derive some conditions which simplify the numerical calculation of the corresponding A-optimal designs.
Funder
Technische Universität Dortmund
Publisher
Springer Science and Business Media LLC
Subject
Statistics, Probability and Uncertainty,Statistics and Probability
Reference22 articles.
1. Azhdari A, Ardakan MA (2022) Reliability optimization of multi-state networks in a star configuration with bi-level performance sharing mechanism and transmission losses. Reliabil Eng Syst Saf 226:108556
2. Cao M, Guo J, Xiao H, Wu L (2022) Reliability analysis and optimal generator allocation and protection strategy of a non-repairable power grid system. Reliabil Eng Syst Saf 222:108443
3. Duan P, He L, Huang L, Chen G, Shi L (2022) Sensor scheduling design for complex networks under a distributed state estimation framework. Automatica 146:110628
4. Harville DA (1997) Matrix algebra from a statistician’s perspective. Springer, New York
5. Kennedy J, Eberhart R (1995) Particle swarm optimization. In Proceedings of ICNN’95-international conference on neural networks. IEEE, vol. 4, pp 1942–1948