TY - JOUR
T1 - Optical fibre-based goniometer for sensing patient position and movement within a magnetic resonance scanner using chromatic modulation
AU - Scully, P. J.
AU - Holmes, R.
AU - Jones, G. R.
PY - 1993/1
Y1 - 1993/1
N2 - An optical fibre-based goniometer is described. This instrument was designed to measure the angular position of patients' limbs within the core of a magnetic resonance body scanner, via a 40 m remote fibre-optic link. The sensor exploits the advantages of optical fibre-based sensing, which include immunity to electromagnetic interference, intrinsic safety and chemical immunity. The detection electronics and signal processing are based on the principles of chromatic modulation, an inexpensive, intensity-independent technique in which a change in the spectral power distribution is measured over a broad bandwidth, by photodetectors with differing spectral responses. The optical fibre goniometer has an angular range of 90°, with an average resolution of 2'. The long-term accuracy is within ±1°, the specified accuracy for the physiological application.
AB - An optical fibre-based goniometer is described. This instrument was designed to measure the angular position of patients' limbs within the core of a magnetic resonance body scanner, via a 40 m remote fibre-optic link. The sensor exploits the advantages of optical fibre-based sensing, which include immunity to electromagnetic interference, intrinsic safety and chemical immunity. The detection electronics and signal processing are based on the principles of chromatic modulation, an inexpensive, intensity-independent technique in which a change in the spectral power distribution is measured over a broad bandwidth, by photodetectors with differing spectral responses. The optical fibre goniometer has an angular range of 90°, with an average resolution of 2'. The long-term accuracy is within ±1°, the specified accuracy for the physiological application.
U2 - 10.3109/03091909309009977
DO - 10.3109/03091909309009977
M3 - Article
VL - 17
SP - 1
EP - 8
JO - Journal of Medical Engineering and Technology
JF - Journal of Medical Engineering and Technology
IS - 1
ER -