@article{oai:jaxa.repo.nii.ac.jp:00022321,
 author = {吉川, 栄一 and 牛尾, 知雄 and 河崎, 善一郎 and 吉田, 智 and 森本, 健志 and 水谷, 文彦 and 和田, 将一 and Yoshikawa, Eiichi and Ushio, Tomoo and Kawasaki, Zen and Yoshida, Satoru and Morimoto, Takeshi and Mizutan, Fumihiko and Wada, Masakazu},
 issue = {5},
 journal = {IEEE Transactions on Geoscience and Remote Sensing},
 month = {May},
 note = {A fast-scanning phased array weather radar (PAWR) with a digital beam forming receiver is under development. It is important in beam forming for weather radar observation with temporally high resolution to form a stable and robust mainlobe and adaptively suppress sidelobes with a smallnumber of pulses in order to accurately estimate precipitation profiles (reflectivity, mean Doppler velocity, and spectral width). A minimum mean-square error (MMSE) formulation with a power constraint, proposed in this paper, gives us adaptively formed beams that satisfy these demands. The MMSE beam-forming method is compared in various precipitation radar signal simulations with traditional beam-forming methods, Fourier and Capon methods, which have been applied in atmospheric research to observe distributed targets such as precipitation, and it is shown that the MMSE method is appropriate to this fast-scanning PAWR concept., 資料番号: PA1210032000},
 pages = {3077--3088},
 title = {MMSE Beam Forming on Fast-Scanning Phased Array Weather Radar},
 volume = {51},
 year = {2013}
}