Author :
Wu, Yu-Mei ; He, Yi-Jun ; Cui, Xue-Sen
Author_Institution :
Minist. of Agric. Key Lab. of Marine & Estuarine Fisheries, East China Sea Fisheries Res. Inst., Shanghai, China
Abstract :
To merge high spatial resolution sea surface temperature (SST) in East-China Sea from multi-satellite sensors SST products, SST products from MTSAT, AVHRR, AMSR-E, MODIS and TMI in one year of 2008 were applied to analyze their availabilities and accuracies in East-China Sea. The annual-mean SST availabilities of AVHRR, AMSR-E, MODIS, TMI, and MTSAT are 22%, 33%, 40%, 56% and 61%, respectively. Compared with the relatively constant availabilities of microwave radiometers, infrared radiometers availabilities are lower and vary largely. The availability of MTSAT is the highest. The annual-mean RMSs and biases of AMSR-E, AVHRR, TMI, MODIS and MTSAT are 0.65K and 0.15K, 0.66K and 0.08K, 0.77K and 0.14K, 0.79K and -0.25K, 0.84K and -0.31K, respectively. The accuracies of AVHRR and AMSR-E are relatively better than other three sensor SSTs.
Keywords :
geophysical signal processing; ocean temperature; oceanographic regions; oceanographic techniques; radiometry; remote sensing; sensor fusion; AD 2008; AMSR-E; AVHRR; East-China Sea; MODIS; MTSAT; TMI; infrared radiometer; microwave radiometer; multisatellite sensors; multisensors; sea surface temperature; spatial resolution; Accuracy; Availability; Microwave radiometry; Ocean temperature; Satellite broadcasting; Satellites; Sensors; Satellite SST; availability; bias; root mean square;
