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Shipping and oil and gas firms are willing to pay highly for reliable data. Their oil platforms cannot be safely deployed in rough seas, while pipeline cable laying can only occur when there will be no waves higher than three metres for six hours or more, otherwise the ship’s crane could be vulnerable.

ASAR’s wave mode measures the change in radar backscatter caused by sea surface roughness across a 5-km swath, permitting an accurate gauge of surface conditions. At the same time the RA-2 altimeter is sending 2000 radar pulses seaward every second.  
 

Significant Wave Height Measured by the ERS Radar Altimeter

The way the returning pulses have been scattered enables an estimate of wind speed and direction, while the journey time of the pulses enables an estimate of average wave height. Ten years worth of ERS data is also available to investigate the possibility that maximum wave heights are actually increasing due to global warming.

Based on experience with ERS, Envisat’s orbit should permit it to detect around a third of the 10 or so major cyclonic depressions found on the Earth’s surface at any one time. Used simultaneously, the MERIS spectrometer can visualise the water vaporising from the ocean to form clouds within these depressions.

As well as often stormy surface waves, the undersea world experiences its own kind of rough weather. Internal waves with heights of up to 50 m and wavelengths of more than a kilometre can occur at the boundaries of different water layers.

There may be no visible sign on the surface but oil drilling or submarine operations can be disrupted. But Envisat’s ASAR can detect clues to the movement of internal waves contained within the smaller waves on the surface.
 
 
Last update: 22 November 2004