Title :
A General Systematic Method for Model-Set Design
Author :
Liang, Yongqi ; Li, X. Rong ; Han, Chongzhao ; Duan, Zhansheng
Author_Institution :
SKLSV Lab., Xi´´an Jiaotong Univ., Xi´´an, China
fDate :
4/1/2012 12:00:00 AM
Abstract :
Model-set design is one of the most important topics of the multiple-model (MM) approach, which is the state of the art for many estimation, control, and modeling problems. The work presented here proposes a general systematic model-set design method in the parameter space of a system based on number theoretic (NT) methods for design of statistical experiments. The system is characterized by uncertain parameters that describe the mode space, and the models used in the model set are designed to approximate the mode by minimizing distribution mismatch. Two types of F-uniform model sets that perform well are proposed: one by the NT methods, the other according to an F-centered discrepancy. In order to improve the performance of the F-uniform model sets further, two types of expected mode augmentation (EMA) are applied. Simulation examples are given and compared with results from the Monte-Carlo method to demonstrate the designs and their performance.
Keywords :
Monte Carlo methods; design of experiments; modelling; number theory; parameter estimation; set theory; EMA; F-centered discrepancy; F-uniform model sets; MM approach; Monte-Carlo method; NT methods; distribution mismatch; expected mode augmentation; general systematic method; general systematic model-set design method; mode space; multiple-model approach; number theoretic methods; parameter space; statistical experiments design; uncertain parameters; Aerospace electronics; Analytical models; Computational modeling; Copper; Design methodology; Mathematical model; Random variables;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2012.6178075
