Rupa Kamineni scite author profile

Rupa Kamineni

4Publications

40Citation Statements Received

26Citation Statements Given

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Affiliations

Florida State University, Indian Institute of Technology Delhi, National Centre for Medium Range Weather Forecasting

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Impact of high resolution water vapor cross‐sectional data on hurricane forecasting

Kamineni

Krishnamurti

Ferrare

et al. 2003

Geophysical Research Letters

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This paper addresses the impact of moisture profile data sets derived from the Lidar Atmospheric Sensing Experiment (LASE) for the assimilation and forecasts of hurricanes. LASE is a vertical profiler for moisture measurements that was developed at NASA Langley Research Center. LASE was deployed on board the NASA DC‐8 research aircraft and provided vertical profiles of moisture in a hurricane environment during the Convection and Moisture Experiment‐4, which occurred in August and September 2001. In this preliminary study we show results from two types of experiments (with and without LASE data) that show improvements in track and intensity forecasts of hurricanes, Erin, Humberto and Gabrielle. When the LASE moisture profiles are assimilated, track errors are reduced by 100 km and intensity errors are reduced by 20–25% for 3 day forecasts.

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Impact of CAMEX-4 Datasets for Hurricane Forecasts Using a Global Model

Kamineni

Krishnamurti

Pattnaik

et al. 2006

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This study explores the impact on hurricane data assimilation and forecasts from the use of dropsondes and remote-sensed moisture profiles from the airborne Lidar Atmospheric Sensing Experiment (LASE) system. We show that the use of these additional data sets, above those from the conventional world weather watch, has a positive impact on hurricane predictions. The forecast tracks and intensity from the experiments show a marked improvement compared to the control experiment where such data sets were excluded. A study of the moisture budget in these hurricanes showed enhanced evaporation and precipitation over the storm area. This resulted in these data sets making a large impact on the estimate of mass convergence and moisture fluxes, which were much smaller in the control runs. Overall this study points to the importance of high vertical resolution humidity data sets for improved model results. We note that the forecast impact from the moisture profiling data sets for some of the storms is even larger than the impact from the use of dropwindsonde based winds.

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Assimilation of IRS-P4 (MSMR) meteorological data in the NCMRWF global data assimilation system

et al. 2002

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Oceansat-1 was successfully launched by India in 1999, with two payloads, namely Multi-frequency Scanning Microwave Radiometer (MSMR) and Ocean Color Monitor (OCM) to study the biological and physical parameters of the ocean. The MSMR sensor is configured as an eight-channel radiometer using four frequencies with dual polarization. The MSMR data at 75 km resolution from the Oceansat-I have been assimilated in the National Centre for Medium Range Weather Forecasting (NCMRWF) data assimilation forecast system. The operational analysis and forecast system at NCMRWF is based on a T80L18 global spectral model and Spectral Statistical Interpolation (SSI) scheme for data analysis. The impact of the MSMR data is seen globally, however it is significant over the oceanic region where conventional data are rare. The dry-nature of the control analyses have been removed by utilizing the MSMR data. Therefore, the total precipitable water data from MSMR has been identified as a very crucial parameter in this study. The impact of surface wind speed from MSMR is to increase easterlies over the tropical Indian Ocean. Shifting of the positions of westerly troughs and ridges in the south Indian Ocean has contributed to reduction of temperature to around 30 • S.

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Rizvi

Kamineni

Mohanty

2002

Meteorol Atmos Phys

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Rupa Kamineni

Impact of high resolution water vapor cross‐sectional data on hurricane forecasting

Impact of CAMEX-4 Datasets for Hurricane Forecasts Using a Global Model

Assimilation of IRS-P4 (MSMR) meteorological data in the NCMRWF global data assimilation system

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