CROSSLEY
S D and CULSHAW B
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Signal
recovery techniques for high speed optical fibre data highways |
|
Proc FOC/LAN’82,
Los Angeles, Information Gatekeepers, September l982 pp. 54-62
|
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CROSSLEY
S D, CULSHAW B, GILES I P and SADLER AA
|
|
An optical
fibre data telemetry system for use in remote or hazardous
locations |
|
Proc
Optical Techniques for Process Control, The Hague, BHRA Fluid
Engineering, June l983, pp.121-132
|
|
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CROSSLEY
S D
|
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Signal
recovery techniques for a coherent optical fibre data telemetry
highway |
|
PhD
Thesis, June l986
|
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CROSSLEY
S D
|
|
Commercially available optical fibre sensors |
|
Proc.
OSCA Colloquium, London, September l988
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CROSSLEY
S D
|
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Commercially available fibre optic sensors |
|
Prof
Conf on Fibre Optic Sensors, Cranfield Inst Tech, Feb l989
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|
CROSSLEY
S D
|
|
Fibre optic
force transducer |
|
Proc
Conference on Sensors and Systems, London, Oct l989, Vol 2
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CROSSLEY
S D
|
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Report on
FOS/7, ACOFT 12 |
|
Proc
OSCA Colloquium, London, Feb l991
|
|
|
CROSSLEY
S D
|
|
Optical
emitters and detectors for optical gas sensing |
|
Proc OSCA Colloquium, London, April 1992
|
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CROSSLEY
S D
|
|
Report on
OFS/8 |
|
Proc OSCA Colloquium, London, April l992
|
|
|
CROSSLEY
S D
|
|
Optical
emitters and detectors for chemical, environmental and gas
sensing |
|
Proc
Conference on Chemical, Biochemical and Environmental Fiber
Sensors IV, Boston,September l992
|
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CROSSLEY
S D
|
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Commercial
prospects for distributed optical fibre sensors |
|
Proc OSCA Colloquium, London, April l993
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CROSSLEY S D
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Commercially available fibre optic sensors |
|
Proc
OSCA Colloquium, London, April l994
|
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CROSSLEY
S D
|
|
Report on
OFS/9 and SPIE Optical Tools |
|
Proc OSCA Colloquium, London, April l994
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|
CROSSLEY
S D
|
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Prospects
for distributed optical sensors |
|
Proc
Conference on Distributed and Multiplexed Sensors, San Diego,
July 1994
|
|
|
CROSSLEY
S D
|
|
Commercial
availability of optical fibre sensors – l0 years of progress? |
|
Proc OFS
l0,. Glasgow, October 13th l994
|
|
|
CROSSLEY
S D and LITT T J
|
|
Principles
and commercial prospects for optical fibre pressure sensors |
|
Proc
Photonex, ERA Technology, Leatherhead, Sept l994
|
|
|
IPSON S
S, BOOTH W, LITT T J, CROSSLEY S D and REEDMAN D C
|
|
The use of
a low cost, multiple axis force sensing platform to measure the
forces exerted during abrasion processing |
|
IEEE
Trans Instrumentation and Measurement
|
|
|
BOOTH W,
IPSON S S, LITT T J, CROSSLEY S D and REEDMAN D C
|
|
An optical
fibre based sensor for the real time measurement of surface
quality during abrasion |
|
IEEE
Trans Instrumentation and Measurement
|
|
|
BOOTH W,
LITT T J, IPSON S S, CROSSLEY S D and REEDMAN D C
|
|
A twin head
optical fibre based debris sensor for monitoring in real time
the abrasion of irregular surfaces |
|
IEEE
Trans Instrumentation and Measurement
|
|
|
IPSON S
S, BOOTH W, CROSSLEY S D, MORT N, LITT T J, ABBOD M and REEDMAN
D C
|
|
The control
of an abrasion process machine using a debris sensor and fuzzy
logic |
|
Int J of
Adv. Manufacturing Technol
|
|
|
CROSSLEY
S D and LITT T J
|
|
Commercially available optical fibre sensors |
|
In
Optical Fibre Sensors and Systems Vol IV, Culshaw B and Dakin J
P Ed, Artech House
|
|
|
CLAY P, CRISPIN A J, and
CROSSLEY S D
|
|
A
comparative analysis of search methods as applied to
shearographic fringe modelling |
|
Proc
IEA/AIE 13th International Conference, New Orleans, June 19-22,
2000
|
|
|
CROSSLEY S D
|
|
Commercialisation of Fibre Optic Sensors |
|
In
Handbook of Fibre Optic Sensors, Jose Miguel Lopez Higuera Ed,
Wiley, 2001
|
|
|
CROSSLEY
S D and LITT T J
|
|
Principles
and commercial prospects for optical fibre pressure sensors |
|
Proc
Photonex, ERA Technology, Leatherhead, Sept l994
|
|
|
IPSON S
S, BOOTH W, LITT T J, CROSSLEY S D and REEDMAN D C
|
|
The use of
a low cost, multiple axis force sensing platform to measure the
forces Exerted during abrasion processing |
|
IEEE
Trans Instrumentation and Measurement
|
|
|
BOOTH W,
IPSON S S, LITT T J, CROSSLEY S D and REEDMAN D C
|
|
An optical
fibre based sensor for the real time measurement of surface
quality during abrasion |
|
IEEE
Trans Instrumentation and Measurement
|
|
|
BOOTH W,
LITT T J, IPSON S S, CROSSLEY S D and REEDMAN D C
|
|
A twin head
optical fibre based debris sensor for monitoring in real time
the abrasion of irregular surfaces |
|
IEEE
Trans Instrumentation and Measurement
|
|
|
IPSON S
S, BOOTH W, CROSSLEY S D, MORT N, LITT T J, ABBOD M and REEDMAN
D C
|
|
The control
of an abrasion process machine using a debris sensor and fuzzy
logic |
|
Int J of
Adv. Manufacturing Technol
|
|
|
CROSSLEY
S D and LITT T J
|
|
Commercially available optical fibre sensors |
|
Optical
fibre sensors and systems Vol IV, Culshaw B and Dakin J P Ed,
Artech House
|
|
|
JOHNSTONE W, MURRAY SC, THURSBY G
|
|
Fibre optic
modulators using active multimode waveguide overlays |
|
Electronic Letts 23rd May 1991 Vol. 27 No.ll
|
|
|
BARNES
W, DAKIN J P, TOWNSEND H O, MURRAY S C, PINCHBECK D
|
|
Tunable
fibre laser source for methane detection at l.68 microns |
|
Proc OE/Fibres 1992 Boston
|
|
|
BARNES
W, DAKIN J P, TOWNSEND H O, MURRAY S C, PINCHBECK D
|
|
Parameter
optimisation in a methane detection system using a broadband
source and interferometric signal processing |
|
Proc
Chemical, Biochemical and Environmental Fibre Sensors, 7-10 Sept
1993, Boston
|
|
|
JIN W,
STEWART G, CULSHAW B, MURRAY SC, PINCHBECK D,
|
|
Absorption
measurement of methane gas using a broadband light source and
interferometric signal processing |
|
Optics
Lett.
|
|
|
CULSHAW
B, MUHAMMAD F, STEWART G, MURRAY SC, PINCHBECK D, NORRIS J,
CASSIDY S, WILKINSON M, WILLIAMS D CRISP I, VAN EWYK R, McGHEE A
M
|
|
Evanescent
wave methane detection using optical fibres. |
|
Electronic Letts. Vol.28, No.24, Nov 1992
|
|
|
SPEED B,
PRIDE R, MURRAY SC, CHAPPELL M
|
|
Advanced
Gas Sensors, |
|
Proc
59th Autumn Meeting of The Institute of Gas Engineers and
YPI Conference, London
|
|
|
JIN W,
STEWART G, CULSHAW B, MURRAY SC
|
|
Source
noise limitation of fibre optic methane sensors |
|
Proc OFS 10, Glasgow, October 1994
|
|
|
JIN W,
STEWART G, CULSHAW B, MURRAY SC, WILKINSON M, NORRIS J
O W |
|
A D-shaped
optical fibre methane sensor. |
|
Applied Optics and Opto-Electronics,
Actuators, Sensors and Instrumentation
|
|
|
JIN W,
STEWART G, CULSHAW B, MURRAY SC, WILKINSON M, NORRIS J
O W |
|
Performance
limitations of fiber optic methane sensors due to Interference
effect. |
|
Journal
of Lightwave Technology. Vol 14 No.5, May 1996
|
|
|
MURRAY
SC, ALTPETER LL, PICHERY T
|
|
Optical sensors improve leak detection and
location |
|
Proc
International Gas Research Conference, Cannes, 1995
|
|
|
JIN W,
STEWART G, CULSHAW B, MURRAY SC, WILKINSON M
|
|
Performance
limitation of a D-fibre evanescent wave methane sensor due to
Interference effects. |
|
Proc
SPIE Conference, San Diego, July 1994
|
|
|
JIN W,
STEWART G, CULSHAW B, MURRAY SC, PINCHBECK D, WILKINSON M,
CASSIDY S, NORRIS JOW, VAN EWYK R, McGHEE A
|
|
Detection
of methane gas using D-shaped optical fibre. |
|
Electronics Letts
|
|
|
REST AJ,
WARREN R, MURRAY SC
|
|
Assignment
of overtones and combination bands for liquid methane across the
near infrared spectrum. |
|
Spectrochemical Acta Part A
|
|
|
REST AJ,
WARREN R, MURRAY SC
|
|
Near-Infra-red Study of the Light liquid
Alkanes. |
|
Applied
Spectroscropy vol.50 No.4 1996
|
|
|
MARTIN
T, TUNNICLIFFE D, FOOTE P, READ I, HAYNES D,NOBLE D, JONES A,
LLOYD P, MURRAY S.
|
|
Structural Health Monitoring of a Carbon
Fibre Structure using low profile piezoelectric, optical and
MEMS sensors |
|
DAMAS 2001
(to be approved) |
