Title :
Feedforward neural-network conditioning of type-B thermocouple with variable reference-junction temperature
Author :
Agee, John T. ; Masupe, Shedden ; Setlhaolo, Ditiro
Author_Institution :
Dept. of Electr. Eng., Univ. of Botswana., Gaborone, Botswana
Abstract :
Thermocouple data come in standard tables and must be interpolated for any readings not directly contained in such tables. Also, variations in the temperature of the reference junction of the thermocouple affect the repeatability of the thermocouple. This paper presents two feedforward neural networks for conditioning the mV output of the type-B thermocouple: one, a two-layer network for structural identification and the second, a radial basis network for repeatability enhancement. The networks were trained in MATLAB. Results show that complete thermocouple data could be reproduced using the logistic network. The radial basis function network was verified to recover true junction temperatures for all simulated variations in the reference junction temperature.
Keywords :
electrical engineering computing; feedforward neural nets; radial basis function networks; temperature sensors; thermocouples; MATLAB; feedforward neural-network conditioning; logistic network; radial basis function network; structural identification; two-layer network; type-B thermocouple; variable reference-junction temperature; Costs; Feedforward neural networks; Neural networks; Polynomials; Temperature measurement; Temperature sensors; Thermal sensors; Thermoelectricity; Velocity measurement; Voltage; Neural network; signal Conditioning; type -B thermocouple;
Conference_Titel :
Adaptive Science & Technology, 2009. ICAST 2009. 2nd International Conference on
Conference_Location :
Accra
Print_ISBN :
978-1-4244-3522-7
Electronic_ISBN :
0855-8906
DOI :
10.1109/ICASTECH.2009.5409710
