June 24th, 2017
Protecting People and Assets

EEC Scientific Publications

Preparing for the Next Generation of Geostationary Meteorological Satellites

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A Novel Physical Consistency-­Based Calibration Tool for Polarimetric Weather Radar

The calibration of radar reflectivity and differential reflectivity is essential for accurate quantitative precipitation estimation (QPE) using polarimetric weather radar.

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EEC’s Solid-State Ranger X-Band Weather Radar- Synergy, Analytical Diagnosis and Technology Advancement via the CASA Dallas-Fort Worth X-Band Radar Innovations Testbed

The Collaborative Adaptive Sensing of the Atmosphere (CASA) partnership, along with the North Central Texas Council of Governments have embarked on a five-year, $10 million project to create the Dallas/Fort Worth (DFW) Urban Demonstration Network.

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Measurement Uncertainty and System Assessment for Weather Radar

With the widespread deployment of dual-­polarization weather radars, data quality has become one of the major concerns for weather radar users worldwide.

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Solid-State Polarimetric Weather Radar With Advanced Time–Frequency Multiplexing Waveform Design

Introducing the novel hardware design and signal processing of EEC’s latest X-band solid-state polarimetric weather radar: Ranger system (X1/X5), including the implementation of pulse compression technique with the advanced time-frequency multiplexing (TFM) waveform design.

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The Power to Predict-Innovations and Increased Demand for the World's Most Powerful S-Band Weather Radars

Beginning in 1971, Enterprise Electronics Corporation (EEC) has delivered over 140 S-Band weather radars around the globe. This represents the most of any dedicated manufacturer of commercial weather radar systems in the world.

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Measurements of Circular Depolarization Ratio with the Radar with Simultaneous Transmission / Reception

Circular depolarization ratio (CDR) is a polarimetric variable which was historically among the first measured by dualpolarization weather radars transmitting and receiving waves with circular polarization.

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Ranger™ - An affordable, advanced, next-generation dual-pol X-Band doppler weather radar

Ranger™ is a lightweight, low cost, high performance system designed for tactical grade deployments on a wide variety of fixed and mobile platforms.

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A new compact polarimetric solid-state X-Band radar: System description and performance analysis

Incorporating the latest in weather radar technology, the new Ranger series of X-band radar available from Enterprise Electronics Corporation (EEC) delivers a compact, powerful system capable of providing a wide array of radar products for the protection of people and assets.

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Spectrum-Time Estimation and Processing (STEP) for Improving Weather Radar Data Quality

This paper introduces the Spectrum-Time Estimation and Processing (STEP) algorithm developed in the Advanced Radar Research Center (ARRC) at the University of Oklahoma (OU).

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International Workshop on X-band Weather Radar

Utilization of differential phase for rainfall measurements, attenuation correction, and mitigation of radar miscalibration and partial beam blockage at X band. Promises and challenges.

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EEC Advances Polarimetric Radar Applications for Hydrology

Dual-polarization radar technology has rapidly become the industry standard, delivering more accurate quantitative precipitation estimation (QPE) and providing for the identification of the precipitation type (HMC).

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Polarimetric attenuation correction and rainfall estimation at C band for an extreme rain event

S-band weather radars are primarily utilized for the observations of severe storms. The major reason for this is that shorter-wavelength radars may experience significant attenuation in heavy precipitation. A long-standing problem of attenuation correction at shorter radar wavelengths can be efficiently resolved if the radar has dual-polarization capability.

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The impact of wet radome on the quality of polarimetric measurements

It is well known that wet radome causes attenuation of microwave radiation. Such a transmission loss is higher if the radome is dirty and not waxed.

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