Title :
Shallow Angle Wave Profiling LIDAR
Author :
Belmont, M.R. ; Horwood, J.M.K. ; Thurley, R.W.F. ; Baker, J.
Author_Institution :
Univ. of Exeter, Exeter
Abstract :
A LIDAR scanning system is described which is primarily designed to measure sea wave shape. The device is capable of measuring real-time spatial profiles over distances of hundreds of metres and as the LIDAR must inevitably operate from modest elevations, eg., from a vessels mast head it is inherently a very shallow angle metrology device. This results in a highly nonuniform distribution of the wave elevation values. The vertical and horizontal resolution is primarily set by the characteristics of the optical system employed and range/data capacity is set by signal to noise ratio considerations. Illustrative data is presented as consecutive profiles taken 0.2 sec apart for highly trochoidal wave under conditions where the height was recorded to +_ 0.03 m and horizontal sample separation to +_0.025 m. A comparison is presented with traditional wave staff measurements.
Keywords :
ocean waves; oceanographic techniques; optical radar; LIDAR scanning system; data capacity; optical system characteristics; sea wave elevation values; sea wave shape measure; shallow angle metrology device; shallow angle wave profile; signal to noise ratio; trochoidal wave; Laser radar; Metrology; Radar measurements; Sea measurements; Sea surface; Sensor arrays; Shape measurement; Spatial resolution; Surface waves; Wavelength measurement;
Conference_Titel :
Current Measurement Technology, 2008. CMTC 2008. IEEE/OES 9th Working Conference on
Conference_Location :
Charlston, SC
Print_ISBN :
978-1-4244-1485-7
Electronic_ISBN :
978-1-4244-1486-4
DOI :
10.1109/CCM.2008.4480871
