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Microphysical features of solid/melting particles by Ground-based direct observations for the GPM/DPR algorithm development., , , , and . IGARSS, page 3941-3944. IEEE, (2016)Development of A Statistical Method for Reducing Sidelobe Clutter in High Sensitivity Mode of GPM/Kapr., , , , and . IGARSS, page 8347-8348. IEEE, (2018)Development of synthetic GPM/DPR data from TRMM/PR and evaluation of GPM/DPR level-2 ät-launch" algorithms using them., , , , , , , , and . IGARSS, page 648-651. IEEE, (2013)Sampling simulation for estimating the sampling error of space-time average rain rate for TRMM and GPM mission., , , and . IGARSS, page 4. IEEE, (2005)Derivation of sub-footprint scale /Spl sigma/0 observed by TRMM Precipitation Radar., , and . IGARSS (4), page 137-140. IEEE, (2008)Comparison between TRMM/PR and AMeDAS ground rain gauge network in terms of annual rainfall., , and . IGARSS, page 2590-2593. IEEE, (2011)Precipitation rates estimated with GPM's Dual-frequency Radar., , , , , , , , and . IGARSS, page 3917-3918. IEEE, (2016)Prime mission results of the dual-frequency precipitation radar on the global precipitation measurement core spacecraft., , , , and . IGARSS, page 2708-2711. IEEE, (2017)Enhancing Precipitation Monitoring Using GPM Products: Integration with Ground-Based Radars., , , , and . IGARSS, page 5248-5251. IEEE, (2022)Japan's progress for the global precipitation measurement (GPM)., , and . IGARSS, page 1695-1697. IEEE, (2003)