A. Mudukutore scite author profile

Abstract-Wideband waveform techniques, such as pulse compression, allow for accurate weather radar measurements in a short data acquisition time. However, for extended targets such as precipitation systems, range sidelobes mask and corrupt observations of weak phenomena occurring near areas of strong echoes. Therefore, sidelobe suppression is extremely important in precisely determining the echo scattering region. A simulation procedure has been developed to accurately describe the signal returns from distributed weather targets, with pulse compression waveform coding. This procedure is unique and improves on earlier work by taking into account the effect of target reshuffling during the pulse propagation time which is especially important for long duration pulses. The simulation procedure is capable of generating time series from various input range profiles of reflectivity, mean velocity, spectrum width, and SNR. Results from the simulation are used to evaluate the performance of phasecoded pulse compression in conjunction with matched and inverse compression filters. The evaluation is based on comparative analysis of the integrated sidelobe level and Doppler sensitivity after the compression process. Pulse compression data from the CSU-CHILL radar is analyzed. The results from simulation and the data analysis show that pulse-compression techniques indeed provide a viable option for faster scanning rates while still retaining good accuracy in the estimates of various parameters that can be measured using a pulsed-Doppler radar. Also, it is established that with suitable sidelobe suppression filters, the range-time sidelobes can be suppressed to levels that are acceptable for operational and research applications.

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Analysis of the Copolar Correlation Coefficient between Horizontal and Vertical Polarizations

Liu

Bringi

Chandrasekar

et al. 1994

J. Atmos. Oceanic Technol.

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The Differential Phase Pattern of the CSU CHILL Radar Antenna

Mudukutore¹,

Chandrasekar²,

Mueller³

1995

J. Atmos. Oceanic Technol.

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ABSTRACT. The ~easurement of the differential propagation phase and copolar correlation coefficient are affected by the d1fferent1al phase pattern of the antenna system when operating in an alternate horizontal and vertical transmitting scheme. Direct phase pattern measurements of a large dish such as that of the CSU CHILL is difficult because of the need to obtain phase reference. A simple technique is devised to measure the differential phase pattern of the CSU CHILL antenna system. The measurements are subsequently used in the evaluation of the antenna imposed limit on the copolar correlation coefficient.

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Simulation and analysis of pulse compression for weather radars

Mudukutore

Chandrasekar

Keeler

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Weather radars with pulse compression using complementary codes: simulation and evaluation

Mudukutore

Chandrasekar²,

Keeler³

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A. Mudukutore

Pulse compression for weather radars

Analysis of the Copolar Correlation Coefficient between Horizontal and Vertical Polarizations

The Differential Phase Pattern of the CSU CHILL Radar Antenna

Simulation and analysis of pulse compression for weather radars

Weather radars with pulse compression using complementary codes: simulation and evaluation

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