Your search keyword '"Kachi, Misako"' showing total 3 results

1. Gauge-Adjusted Global Satellite Mapping of Precipitation.

Author

Mega, Tomoaki, Ushio, Tomoo, Takahiro, Matsuda, Kubota, Takuji, Kachi, Misako, and Oki, Riko

Subjects

ALGORITHMS, PRECIPITATION (Chemistry), WEATHER forecasting, REMOTE sensing, RAIN gauges

Abstract

A rain-gauge-adjusted algorithm for global satellite mapping of precipitation (GSMaP) that estimates the surface precipitation rate with resolutions of 0.1° and 1 h over the globe is described herein. Precipitation is one of the most important parameters of the earth’s system, and its global distribution and changes are essential data for modeling the water cycle, maintaining ecosystems, increasing agricultural production, improving weather forecasting precision, and implementing flood warning systems. In the Global Precipitation Measurement project, integrated products of high-resolution mapping of precipitation, obtained from microwave measurements made by a constellation satellite and infrared radiometers in geostationary orbit, are developed and supplied to the public. However, these high-resolution products, such as GSMaP_MVK, sometimes underestimate surface precipitation, introducing large errors into hydrological modeling. This paper combines the global gauge data set with GSMaP_MVK, using a new algorithm [gauge-adjusted GSMaP (GSMaP_Gauge)], described and evaluated herein using local radar and rain-gauge data sets. This algorithm outperforms other GSMaP products in all validation tests. [ABSTRACT FROM AUTHOR]

Published

2019

2. Improvement of High-Resolution Satellite Rainfall Product for Typhoon Morakot (2009) over Taiwan.

Author

Taniguchi, Aina, Shige, Shoichi, Yamamoto, Munehisa K., Mega, Tomoaki, Kida, Satoshi, Kubota, Takuji, Kachi, Misako, Ushio, Tomoo, and Aonashi, Kazumasa

Subjects

RAINFALL, TYPHOONS, METEOROLOGICAL precipitation, RADIOMETERS, METEOROLOGICAL observations

Abstract

The authors improve the high-resolution Global Satellite Mapping of Precipitation (GSMaP) product for Typhoon Morakot (2009) over Taiwan by using an orographic/nonorographic rainfall classification scheme. For the estimation of the orographically forced upward motion used in the orographic/nonorographic rainfall classification scheme, the optimal horizontal length scale for averaging the elevation data is examined and found to be about 50 km. It is inferred that as the air ascends en masse on the horizontal scale, it becomes unstable and convection develops. The orographic/nonorographic rainfall classification scheme is extended to the GSMaP algorithm for all passive microwave radiometers in orbit, including not just microwave imagers but also microwave sounders. The retrieved rainfall rates, together with infrared images, are used for the high-resolution rainfall products, which leads to much better agreement with rain gauge observations. [ABSTRACT FROM AUTHOR]

Published

2013

3. Global Precipitation Map Using Satellite-Borne Microwave Radiometers by the GSMaP Project: Production and Validation.

Author

Kubota, Takuji, Shige, Shoichi, Hashizume, Hiroshi, Aonashi, Kazumasa, Takahashi, Nobuhiro, Seto, Shinta, Hirose, Masafumi, Takayabu, Yukari N., Ushio, Tomoo, Nakagawa, Katsuhiro, Iwanami, Koyuru, Kachi, Misako, and Okamoto, Ken'ichi

Subjects

RAINFALL probabilities, METEOROLOGICAL precipitation, METEOROLOGICAL instruments, PRECIPITATION forecasting, RADIOMETERS

Abstract

This paper documents the production and validation of retrieved rainfall data obtained from satellite-borne microwave radiometers by the Global Satellite Mapping of Precipitation (GSMaP) Project. Using various attributes of precipitation derived from Tropical Rainfall Measuring Mission (TRMM) satellite data, the GSMaP has implemented hydrometeor profiles derived from Precipitation Radar (PR), statistical rain/no-rain classification, and scattering algorithms using polarization-corrected temperatures (PCTs) at 85.5 and 37 GHz. Combined scattering-based surface rainfalls are computed depending on rainfall intensities. PCT85 is not used for stronger rainfalls, because strong depressions of PCT85 are related to tall precipitation-top heights. Therefore, for stronger rainfalls, PCT37 is used, with PCT85 used for weaker rainfalls. With the suspiciously strong rainfalls retrieved from PCT85 deleted, the combined rainfalls correspond well to the PR rain rates over land. The GSMaP algorithm for the TRMM Microwave tmager (TMI) is validated using the TRMM PR, ground radar [Kwajalein (KWAJ) radar and COBRA], and Radar Automated Meteorological Data Acquisition System (AMeDAS) precipitation analysis (RA). Monthly surface rainfalls retrieved from six microwave radiometers (GSMaP̱MWR) are compared with the gauge-based dataset. Rain rates retrieved from the TMI (GSMaP̱TMI) are in better agreement with the PR estimates over land everywhere except over tropical Africa in the boreal summer. Validation results of the KWAJ radar and COBRA show a good linear relationship for instantaneous rainfall rates, while validation around Japan using the RA shows a good relationship in the warm season. Poor results, connected to weak- precipitation cases, are found in the cold season around Japan. [ABSTRACT FROM AUTHOR]

Published

2007