M. Branca scite author profile

M. Branca

5Publications

15Citation Statements Received

62Citation Statements Given

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Affiliations

Polytechnic University of Turin

Publications

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Storm Identification, Tracking and Forecasting Using High-Resolution Images of Short-Range X-Band Radar

2015

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Rain nowcasting is an essential part of weather monitoring. It plays a vital role in human life, ranging from advanced warning systems to scheduling open air events and tourism. A nowcasting system can be divided into three fundamental steps, i.e., storm identification, tracking and nowcasting. The main contribution of this work is to propose procedures for each step of the rain nowcasting tool and to objectively evaluate the performances of every step, focusing on two-dimension data collected from short-range X-band radars installed in different parts of Italy. This work presents the solution of previously unsolved problems in storm identification: first, the selection of suitable thresholds for storm identification; second, the isolation of false merger (loosely-connected storms); and third, the identification of a high reflectivity sub-storm within a large storm. The storm tracking step of the existing tools, such as TITANand SCIT, use only up to two storm attributes, i.e., center of mass and area. It is possible to use more attributes for tracking. Furthermore, the contribution of each attribute in storm tracking is yet to be investigated. This paper presents a novel procedure called SALdEdA (structure, amplitude, location, eccentricity difference and areal difference) for storm tracking. This work also presents the contribution of each component of SALdEdA in storm tracking. The second order exponential smoothing strategy is used for storm nowcasting, where the growth and decay of each variable of interest is considered to be linear. We evaluated the major steps of our method. The adopted techniques for automatic threshold calculation are assessed with Atmosphere 2015, 6 580 a 97% goodness. False merger and sub-storms within a cluster of storms are successfully handled. Furthermore, the storm tracking procedure produced good results with an accuracy of 99.34% for convective events and 100% for stratiform events.

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Automatic storm(s) identification in high resolution, short range, X-band radar images

Shah

Notarpietro

Bertoldo

et al. 2013

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Towards sustainable agricultural management using highresolution X-band radar precipitation estimates

Notarpietro

Branca

Morin

et al. 2013

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This contribution deals with the technological aspects of a research funded in the framework of a Scientific Cooperation program between Italy and Israel. The aim of this research is to evaluate if real-time estimates of precipitation at high spatial and temporal resolution can significantly improve the efficiency of agricultural management by optimizing agronomic practices from an economical and environmental standpoint. The preliminary data analysis and radar calibration strategy necessary for a correct estimation of rain fields is here presented for all the radar installations involved in the research.

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Characterization of the receiver filter of a X-band weather radar to improve the performance of an application to control the radar stability

Bertoldo

Notarpietro

Branca

et al. 2013

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High resolution X-Band radar rainfall estimates for a Mediterranean to hyper-arid transition area

Marra

Lokshin

Notarpietro

et al. 2015

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M. Branca

Storm Identification, Tracking and Forecasting Using High-Resolution Images of Short-Range X-Band Radar

Automatic storm(s) identification in high resolution, short range, X-band radar images

Towards sustainable agricultural management using highresolution X-band radar precipitation estimates

Characterization of the receiver filter of a X-band weather radar to improve the performance of an application to control the radar stability

High resolution X-Band radar rainfall estimates for a Mediterranean to hyper-arid transition area

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