论文信息 - Two Approaches to Optimal Sensor Locations

Two Approaches to Optimal Sensor Locations

Accurate modeling of thermal systems depends upon the determination of the material properties and the surface heat transfer coefficients. These parameters are frequently estimated from temperatures measured within the system or on the surface or from measured surface heat fluxes. Because of sensor errors or lack of sensitivity, the measurements may lead to erroneous estimates of the parameters. These errors can be ameliorated if the sensors are placed at points of maximum sensitivity. This paper describes two methods to optimize sensor locations : one to account for signal error, the other to consider interacting parameters. The methods are based upon variants of the normalized Fisher information matrix and are shown to be equivalent in some cases, but to predict differing sensor locations under other conditions, usually transient.

[1] E. Vanmarcke. Probabilistic Modeling of Soil Profiles , 1977 .

[2] R. Ghanem,et al. Stochastic Finite Elements: A Spectral Approach , 1990 .

[3] Ted Belytschko,et al. Transient probabilistic systems , 1988 .

[4] N. V. Muzylev. Uniqueness theorems for some converse problems of heat conduction , 1980 .

[5] Yu-Kweng Michael Lin. Probabilistic Theory of Structural Dynamics , 1976 .

[6] M. Polis. The Distributed System Parameter Identification Problem: A Survey of Recent Results , 1983 .

[7] E. A. Artyukhin. Experimental design of measurements for the solution of coefficient-type inverse heat-conduction problems , 1985 .

[8] Eric Walter,et al. Qualitative and quantitative experiment design for phenomenological models - A survey , 1990, Autom..

[9] Harold W. Sorenson,et al. Parameter estimation: Principles and problems , 1980 .

[10] Graham C. Goodwin,et al. Coupled design of test signals, sampling intervals, and filters for system identification , 1974 .

[11] A. Emery,et al. Transient Effects of Uncertainties on the Sensitivities of Temperatures and Heat Fluxes Using Stochastic Finite Elements , 1994 .