Wave radar

Wave radar

Ocean surface waves can be measured by several radar remote sensing techniques. Several instruments based on a variety of different concepts and techniques are available to the user and these are all often called wave radars. This article (see also Grønlie 2004), gives a brief description of the most common ground-based radar remote sensing techniques.

Instruments based on radar remote sensing techniques have become of particular interest in applications where it is important to avoid direct contact with the water surface and avoid structural interference. A typical case is wave measurements from an offshore platform in deep waters with the presence of high currents making the mooring of a wave buoy enormously difficult. Another interesting case is a ship in transit where having instruments in the sea is highly impractical and interference from the ships hull must be avoided.

Radar remote sensing

Terms and definitions

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Basically there are two different "classes" of radar remote sensors for ocean waves.
* Direct sensor measures directly some relevant parameter of the wave system (like surface elevation or water particle velocity).
* Indirect sensors observe the surface waves via the interaction with some other physical process as for example the radar cross section of the sea surface.

Microwave radars may be used in two different "modes";
* The near vertical mode. The radar echo is generated by specular reflections from the sea surface.
* The low grazing angle mode. The radar echo is generated by Bragg scattering, hence wind generated surface ripple (capillary waves)must be present. The backscattered signal will be modulated by the large surface gravity waves and the gravity wave information is derived from the modulation of the backscattered signal. An excellent presentation of the theories of microwave remote sensing of the sea surface is given by Plant and Shuler (1980).

The radar footprint (the radial and azimuthal extent of the surface area to be illuminated by the radar) must be small in comparison with all ocean wavelength of interest. The radar spatial resolution is determined by the bandwidth of the radar signal (see radar signal characteristics)and the beamwidth of the radar antenna.

The beam of a microwave antenna is dispersive, consequently the resolution becomes a function of range. The beam of an IR radar (laser) is non dispersive, the radar footprint is therefore independent of range.

HF radars utilize the Bragg scattering mechanism and do always operate at very low grazing angles. Due to the low frequency of operation the radar waves are backscattered directly from the gravity waves and surface ripple need not be present.

Radar transceivers may be coherent or non-coherent. Coherent radars measure Doppler-modulation as well as amplitude modulation, while non-coherent radars only measure amplitude modulation. Consequently, a non-coherent radar echo contains less information about the sea surface properties. Examples of non-coherent radars are conventional marine navigation radars.

The radar transmitter waveform may be either unmodulated continuous wave, modulated or pulsed. An unmodulated continuous wave radar has no range resolution, but can resolve targets on the basis of different velocity, while a modulated or pulsed radar can resolve echoes from different ranges. The radar waveform plays a very important role in radar theory (Plant and Shuler, 1980)).

The wave radar performance is highly dependent on:

*Mode of operation or measurement geometry (vertical or grazing)
*Class of system (direct or indirect)
*Frequency of operation
*Radar waveform (unmodulated CW or modulated/pulsed)
*Type of transceiver (coherent or non-coherent)
*Radar antenna properties

Remote sensing techniques

An excellent survey of different radar techniques for remote sensing of waves is given by Tucker (1991).

Laser altimeters

Laser altimeters are small and light weight and operates in the infra-red (IR) frequency band. They operate in vertical mode and normally use pulsed waveforms to perform direct measurements of sea surface elevation which easily can be converted to wave amplitude.

Microwave range finders

Microwave range finders also operate in vertical mode at GHz frequencies and is not as affected by fog and water spray as the laser altimeter. A continuous wave frequency modulated (CWFM) or pulsed radar waveform is normally used to provide range resolution. The beam is dispersive, hence the size of the footprint increases linearly with range.

One example of a microwave range finder is the Miros SM-094 which is designed for wave and water level (and tide) measurements. This sensor is applied as air gap (bridge clearance) sensor in NOAAs [http://tidesandcurrents.noaa.gov/ports.html PORTS] system. Another example is the Saab wave radar REX which is a derivative of a Saab tank radar.An array of three vertical radars in a triangular configuration can be used to measure a directional wave spectrum. Algorithms and signal processing software similar to what is used in the processing of heave, pitch, roll buoys. A commercial system called “Directional WaveGuide” is available from the Dutch companies Enraf and Radac.

Marine navigation radars

Marine navigation radars (X band) provide sea clutter images which contain a pattern resembling a sea wave pattern. By digitizing the radar video signal it can be processed by a digital computer. Sea surface parameters may be calculated on the basis of these digitized images. The marine navigation radar operates in low grazing angle mode and wind generated surface ripple must be present.The marine navigation radar is non-coherent and is a typical example of an indirect wave sensor, because there is no direct relation between wave height and radar back-scatter modulation amplitude. An empirical method of wave spectrum scaling is normally employed. Marine navigation radar based wave sensors are excellent tools for wave direction measurements. A marine navigation radar may also be a tool for surface current measurements. Point measurements of the current vector as well as current maps up to a distance of a few km can be provided
(Gangeskar, 2002). Miros WAVEX has its main area of application as directional wave measurements from moving ships. Another example of a marine radar based system is OceanWaves WamosII.

The range gated pulsed Doppler microwave radar

The range gated pulsed Doppler microwave radar operates the in low grazing angle mode. By using several antennas it may be used as a directional wave sensor, basically measuring the directional spectrum of the horizontal water particle velocity. The velocity spectrum is directly related to the wave height spectrum by a mathematical model based on linear wave theory and accurate measurements of the wave spectrum can be provided under most conditions. As measurements are taken at a distance from the platform on which it is mounted, the wave field is to a small degree disturbed by interference from the platform structure.

[http://www.miros.no/wave_and_current_radar.php Miros Wave and current radar] is the only available wave sensor based on the range gated pulsed Doppler radar technique. This radar also uses the dual frequency technique (see below) to performs point measurements of the surface current vector

The dual frequency microwave radar

The dual frequency microwave radar transmits two microwave frequencies simultaneously. The frequency separation is chosen to give a “spatial beat” length which is in the range of the water waves of interest. The dual frequency radar may be considered a microwave equivalent of the high frequency (HF) radar (see below). The dual frequency radar is suitable for the measurement of surface current. As far as wave measurements are concerned, the back-scatter processes are too complicated (and not well understood) to allow useful measurement accuracy to be attained.

The HF radar

The HF radar is well established as a powerful tool for sea current measurements up to a range of about 30 km. It operates in the MHz frequency band corresponding to a radar wavelength in the range of 10 to 300m. The Doppler shift of the first order Bragg lines of the radar echo is used to derive sea current estimates in very much the same way as for the dual frequency microwave radar. Two radar installations are normally required, looking at the same patch of the sea surface from different angles. [http://www.codaros.com/ CODAR Ocean Sensors (COS)] .

References

#wikicite|id=idGangeskar2002|reference=Gangeskar, R., (2002),“Ocean Current Estimated from X-band Radar Sea Surface Images”, IEEE Transactions and Remote Sensing, vol. 40, no. 4.
#wikicite|id=idGroenlie2004|reference=Grønlie, Ø (2004). “Wave Radars – A comparison of different concepts and techniques”, Hydro International, volume 8, number 5, June 2004.
#wikicite|id=idPlantShuler1980|reference=Plant, W.J. and D.L. Shuler, (1980) “Remote sensing of the sea surface using one and two frequency microwave techniques”, Radio Science, Vol. 15 No. 3, pages 605-615.
#wikicite|id=idTucker1991|reference=Tucker, M.J., (1991) “Waves in Ocean Engineering, measurement analysis, interpretation”, Ellis Horwood Limited, Chapter 8, pages 231-266.

External links

Microwave range finders:
* [http://tidesandcurrents.noaa.gov/ports.html Physical Oceanographic Real-Time System (PORTS)]
* [http://tidesandcurrents.noaa.gov/publications/tecrpt42.pdf NOAA Technical Report NOS CO-OPS 042; "Microwave Air Gap-Bridge Clearance Sensor; Test, Evaluation, and Implementation Report"]
* [http://www.eseas.org/eseas-ri/deliverables/d4.1 ESEAS RI, "Assessment of accuracy and operational properties of different tide gauge sensors."]
* [http://www.gloss-sealevel.org/ The Global Sea Level Observing System]
* [http://www.pol.ac.uk/psmsl/manuals/manual_14_final_21_09_06.pdf Volume IV of the IOC "Manual on Sea Level Measurement and Interpretation"]

The range gated pulsed Doppler microwave radar:
* [http://www.wmo.ch/pages/prog/amp/mmop/documents/Jcomm-TR/J-TR-10-CLIMAR-99/START.htm MIROS System Evaluation during Storm Wind Study II; F.W. Dobson, Fisheries and Oceans Canada, Bedford Institute of Oceanography, Dartmouth, NS, Canada; E. Dunlap ASA Consulting Ltd, Halifax, NS, Canada]


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