Title :
Meteorological structures shape description and tracking by means of BI-RME matching
Author_Institution :
Dipt. di Elettronica, Pavia Univ., Italy
fDate :
3/1/1999 12:00:00 AM
Abstract :
Images from meteorological satellites or weather radars must be often interpreted at a higher level than simple pixel classification, and shape analysis with reliable and fast methods may be necessary. For instance, it is useful to analyze the temporal evolution of a rain event by means of a reliable tracking of the rain patterns at different scales. However, this task of tracking objects continuously changing their shapes is challenging. In this paper, the author shows how the application of a recently introduced numerical technique, called boundary integral-resonant mode expansion (BI-RME), to weather radar and meteorological satellite data could be used to achieve more information about the evolution in time of rain patterns or other meteorological structures of interest. In order to demonstrate the efficiency and robustness of the approach, several examples of image processing are considered. Applications to both operational tracking of clouds to produce wind fields and hurricane tracking are presented
Keywords :
atmospheric techniques; geophysical signal processing; image motion analysis; image sequences; meteorological radar; remote sensing; remote sensing by radar; BI-RME matching; atmosphere; boundary integral-resonant mode expansion; hurricane tracking; image processing; image sequence; measurement technique; meteorological radar; meteorology; numerical method; radar remote sensing; rain pattern; rain patterns; satellite remote sensing; shape analysis; shape description; temporal evolution; tracking; weather radar; wind; Image analysis; Meteorological radar; Meteorology; Pattern analysis; Pixel; Radar tracking; Rain; Robustness; Satellites; Shape;
Journal_Title :
Geoscience and Remote Sensing, IEEE Transactions on
