Title :
Global optimization algorithms for field-wise scatterometer wind estimation
Author :
Brown, Charles G. ; Long, David G.
Author_Institution :
MERS Lab., Brigham Young Univ., Provo, UT, USA
Abstract :
Field-wise scatterometer wind estimation determines the vector wind at many resolution elements simultaneously by estimating the parameters of a wind field model. According to simulations, it results in more accurate estimates than traditional point-wise estimation, which estimates the vector wind one resolution element at a time. Further, field-wise estimation produces fewer ambiguities than point-wise estimation. Field-wise estimation necessitates locating the local minima of a high-dimensional, non-linear objective function. Conventional optimization techniques can be employed if initial search points within the capture regions of the local minima can be found. The authors develop and evaluate two novel approaches for determining initial search points for field-wise estimation. The accuracy of each algorithm is evaluated using simulated NASA Scatterometer (NSCAT) data
Keywords :
atmospheric techniques; meteorological radar; remote sensing by radar; wind; field-wise estimation; field-wise scatterometer; global optimization algorithm; high-dimensional nonlinear objective function; local minima; marine atmosphere; measurement technique; radar remote sensing; radar scatterometry; vector wind; wind; wind estimation; Algorithm design and analysis; Backscatter; Clustering algorithms; Design optimization; Geophysical measurements; Laboratories; NASA; Noise measurement; Parameter estimation; Radar measurements;
Conference_Titel :
Geoscience and Remote Sensing, 1997. IGARSS '97. Remote Sensing - A Scientific Vision for Sustainable Development., 1997 IEEE International
Print_ISBN :
0-7803-3836-7
DOI :
10.1109/IGARSS.1997.615883
