G. Raju scite author profile

The purpose of the International Global Precipitation Measurement (GPM) Program is to develop a next-generation space-based measuring system which can fulfill the requirements for frequent, global, and accurate precipitation measurements. The associated GPM Mission is being developed as an international collaboration of space agencies, weather and hydrometeorological forecast services, research institutions, and individual scientists. The design and development of the GPM Mission is an outgrowth of valuable knowledge and published findings enabled by the Tropical Rainfall Measurement Mission (TRMM). From the TRMM experience, it was recognized that the GPM Mission must consist of a mixed nonsunsynchronous and sunsynchronous orbiting satellite constellation in order to have the capability to provide physically based retrievals on a global basis, with ~3-h sampling assured at any given Earth coordinate ~90% of the time. The heart of the GPM constellation is the Core satellite, under joint development by NASA and the Japan Aerospace Exploration Agency (JAXA), which will carry a dual frequency Ku/Kaband precipitation radar (PR) and a high-resolution, multichannel passive microwave (PMW) rain radiometer. The core is required to serve as the calibration reference system and the fundamental microphysics probe to enable an integrated measuring system made up of additional constellationsupport satellites, each carrying at a minimum some type of PMW radiometer. In this article the background, planning, design, and implementation of the GPM is described.

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A heuristic method for feeder reconfiguration and service restoration in distribution networks

Singh

Raju

Rao

et al. 2009

International Journal of Electrical Power & Energy Systems

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MEGHA - TROPIQUES satellite mission: In flight performances results

Karouche

Goldstein

Rosak

et al. 2012

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An LCL resonant converter with PWM control-analysis, simulation, and implementation

Raju

Doradla

1995

IEEE Trans. Power Electron.

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A three element resonant converter capable of driving voltage type load with load independent operation is analyzed using state-space approach. Pulse width modulation is employed to control and regulate the output voltage. Closed-form solutions are obtained under steady state conditions. The experimental study of a prototype converter reveals complete agreement with the analytical and SPICE simulation results. Typical experimental oscillograms are given to verify the basic principles.

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MEGHA-TROPIQUES, a satellite for studying the water cycle and energy exchanges in the tropiques

Aguttes

Schrive²,

Goldstein³

et al.

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G. Raju

International Global Precipitation Measurement (GPM) Program and Mission: An Overview

A heuristic method for feeder reconfiguration and service restoration in distribution networks

MEGHA - TROPIQUES satellite mission: In flight performances results

An LCL resonant converter with PWM control-analysis, simulation, and implementation

MEGHA-TROPIQUES, a satellite for studying the water cycle and energy exchanges in the tropiques

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