Noise resilient discrete-time cross-relation sensor characterisation


Autoria(s): Gillespie, Philip; Gaida, Daniel; Hung, Peter; Kee, Robert; McLoone, Sean
Data(s)

01/09/2016

Resumo

In-situ characterisation of thermocouple sensors is a challenging problem. Recently the authors presented a blind characterisation technique based on the cross-relation method of blind identification. The method allows in-situ identification of two thermocouple probes, each with a different dynamic response, using only sampled sensor measurement data. While the technique offers certain advantages over alternative methods, including low estimation variance and the ability to compensate for noise induced bias, the robustness of the method is limited by the multimodal nature of the cost function. In this paper, a normalisation term is proposed which improves the convexity of<br/>the cost function. Further, a normalisation and bias compensation hybrid approach is presented that exploits the advantages of both normalisation and bias compensation. It is found that the optimum of the hybrid cost function is less biased and more stable than when only normalisation is applied. All results were verified by simulation.

Identificador

http://pure.qub.ac.uk/portal/en/publications/noise-resilient-discretetime-crossrelation-sensor-characterisation(d2e37964-ed19-4ed1-88af-aff09e515687).html

Idioma(s)

eng

Direitos

info:eu-repo/semantics/restrictedAccess

Fonte

Gillespie , P , Gaida , D , Hung , P , Kee , R & McLoone , S 2016 , ' Noise resilient discrete-time cross-relation sensor characterisation ' .

Tipo

conferenceObject