A fluorescence-based intrinsic fire alarm sensor system for determining loc
al regions of high temperature has been demonstrated in this paper, the sig
nal processing basis of which is using a correlation coefficient ratio sche
me. Two separate sensor configurations have been illustrated, one of which
is to use short, single lengths of fibre spliced into a network and the oth
er a long single length of doped fibre, using typically Nd or Er doped fibr
e materials. The results show that the correlation coefficient ratio, R, is
sensitive to the temperature excursion and will become smaller than unity
and decrease with the increase of the local temperature. It is also been sh
own that the ratio R is related to the intensity of the fluorescence coming
from the section of the fibre exposed to the high temperature from a fire.
(C) 1999 Elsevier Science S.A. All rights reserved.