GPM Refereed Publications

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Hill, P. G., R. P. Allan, J. C. Chiu, and T. H. M. Stein, 2016 : A multisatellite climatology of clouds, radiation, and precipitation in southern West Africa and comparison to climate models. J. Geophys. Res., 121, 10,857-10,879, doi:10.1002/2016JD025246.

Hilario, M. R. A. and Co-authors, 2021 : Measurement report: Long-range transport patterns into the tropical northwest Pacific during the CAMP2Ex aircraft campaign: chemical composition, size distributions, and the impact of convection. Atmospheric Chemistry and Dynamics, 21(5), 3777–3802, doi:10.5194/acp-21-3777-2021.

Hidayat, I. N., D. Yudianto, and S. Sanjaya, 2025 : Evaluasi Data Hujan Berbasis Satelit untuk Menentukan Debit Aliran Masuk Waduk Selorejo Menggunakan Model HBV-96. JURNAL SUMBER DAYA AIR, 21(1), 31-41, doi:10.32679/jsda.v21i1.907.

Hidayah, E., S. Saifurridzal, R. U. A. Wiyono, W. Y. Widiarti, and R. Martini, 2024 : Performance of GPM-IMERG satellite precipitation for rainfall-runoff modeling in Indonesia. Water Practice and Technology, 19(10), 3909–3928, doi:10.2166/wpt.2024.240.

Heymsfield, G. M., L. Tian, L. Li, M. McLinden, J. I. Cervantes, 2013 : Airborne Radar Observations of Severe Hailstorms: Implications for Future Spaceborne Radar. J. Appl. Meteor. Climatol., 52, 1851-1867, doi:10.1175/JAMC-D-12-0144.1.

Heymsfield, A., M. Kramer, N. B. Wood, A. Gettelman, P. R. Field, and G. Liu, 2017 : Dependence of the Ice Water Content and Snowfall Rate on Temperature, Globally: Comparison of in Situ Observations, Satellite Active Remote Sensing Retrievals, and Global Climate Model Simulations. J. Appl. Meteor. Climatol., 56(1), 189–215, doi:10.1175/JAMC-D-16-0230.1.

Heymsfield, A., A. Bansemer, N. B. Wood, G. Liu, S. Tanelli, O. O. Syd, M. Poellote, and C. Liu, 2018 : Toward Improving Ice Water Content and Snow-Rate Retrievals from Radars. Part II: Results from Three Wavelength Radar–Collocated In Situ Measurements and CloudSat–GPM–TRMM Radar Data. J. Appl. Meteor. Climatol., 57(2), 365–389, doi:10.1175/JAMC-D-17-0164.1.

Heymsfield, A. J., A. Bansemer, M. R. Poellot, and N. Wood, 2015 : Observations of Ice Microphysics through the Melting Layer. J. Atmos. Sci., 72, 2902-2928, doi:10.1175/JAS-D-14-0363.1.

Hexin, Y., Z. Ma, J. Fei, and Y. Duan, 2023 : Evaluation of Leftward Biased Cold Wakes Induced by Tropical Cyclones in the North Hemisphere. JGR Oceans, 128(12), e2023JC020188, doi:10.1029/2023JC020188.

Heuscher, L., C. Liu, P. Gatlin, and W. A. Petersen, 2022 : Relationship Between Lightning, Precipitation, and Environmental Characteristics at Mid-/High Latitudes From a GLM and GPM Perspective. JGR Atmospheres, 127(13), e2022JD036894, doi:10.1029/2022JD036894.

Hernández-Rojas, L. F., A. L. Abrego-Perez, F. E. Lozano Martínez, C. F. Valencia-Arboleda, M. C. Diaz-Jimenez, N. Pacheco-Carvajal, J. J. García-Cárdenas\, 2023 : The Role of Data-Driven Methodologies in Weather Index Insurance. Applied Sciences, 13(8), 4785, doi:10.3390/app13084785.

Hernández, K. S., J. J. Henao, S. Gómez-Ríos, V. Robledo, A. M. Rendón, and J. F. Mejía, 2025 : Spatio-Temporal Representation of Mesoscale Convective Systems in Convection-Permitting Simulations Over Northwestern South America: Insights Into Rainfall Overestimation. JGR Atmospheres, 130(7), e2024JD042289, doi:10.1029/2024JD042289.

Hermoso, A., V. Homar, and R. Romero, 2023 : Characterization of ensemble generation strategies: Application to three illustrative examples of Mediterranean high-impact weather. Atmos. Res., 281, 106479, doi:10.1016/j.atmosres.2022.106479.

Hérincs, D., and Z. Dezső, 2025 : Synoptic analysis of cyclone Ianos based on surface and satellite observations and high-resolution reanalysis data. Theoretical and Applied Climatology, 156, 682, doi:10.1007/s00704-025-05930-0.

Heoung, H., G. Liu, K. Kim, G. Lee, and E.-K. Seo, 2020 : Microphysical properties of three types of snow clouds: implication for satellite snowfall retrievals. Atmos. Chem. Phys., 20, 14491–14507, doi:10.5194/acp-20-14491-2020.

Henze, D., D. Noone, and D. Toohey, 2023 : Detection of dilution due to turbulent mixing vs. precipitation scavenging effects on biomass burning aerosol concentrations using stable water isotope ratios during ORACLES. Atmospheric Chemistry and Physics, 23(24), 15269–15288, doi:10.5194/acp-23-15269-2023.

Henderson, D. S., C. D. Kummerow, and D. A. Marks, 2017 : Sensitivity of Rain-Rate Estimates Related to Convective Organization: Observations from the Kwajalein, RMI, Radar. J. Appl. Meteor. Climatol., 56(4), 1099–1119, doi:10.1175/JAMC-D-16-0218.1.

Helmi, A. M., M. I. Farouk, R. Hassan, M. A. Mumtaz, L. Chaouachi, and M. H. Elgamal, 2024 : Comparing Remote Sensing and Geostatistical Techniques in Filling Gaps in Rain Gauge Records and Generating Multi-Return Period Isohyetal Maps in Arid Regions—Case Study: Kingdom of Saudi Arabia. Water, 16(7), 925, doi:10.3390/w16070925.

Helmi, A. M., and M. S. Abdelhamed, 2022 : Evaluation of CMORPH, PERSIANN-CDR, CHIRPS V2.0, TMPA 3B42 V7, and GPM IMERG V6 Satellite Precipitation Datasets in Arabian Arid Regions. Water, 15(1), 92, doi:10.3390/w15010092.

Heim, C., D. Leutwyler, and C. Schär, 2023 : Application of the Pseudo-Global Warming Approach in a Kilometer-Resolution Climate Simulation of the Tropics. JGR Atmospheres, 128(5), e2022JD037958, doi:10.1029/2022JD037958.