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Volumetric Imaging and Processing of Integrated Radar, known by the acronym VIPIR, is an analysis and display program for Doppler weather radar, created and sold by Baron Services. [1] This software allows improved analysis of radar data for private users, in particular television stations, similar to the Weather Decision Support System program ...
AN/TPS-43 Mobile Tactical 3D Radar; AN/TPS-43E Mobile Tactical 3D Radar; AN/TPS-58 Ground Surveillance Radar; AN/TPS-59 transportable air search radar; AN/TPS-63 mobile tactical 2D radar; AN/TPS-72; AN/TPS-75 transportable 3-dimensional air search radar; AN/TPS-77 transportable version of the AN/FPS-117 solid state phased array radar
The AN/TPY-4, formerly known as the TPY-X, is a ground-based, active electronically scanned array, L-band, multi-function long-range 3D radar for air defense surveillance, built by Lockheed Martin. [2] It is a radar capable of multi-mission operation, and perform simultaneously the following work: air surveillance; low profile UAS detection
The AN/SPY-1 [a] is a United States Navy passive electronically scanned array (PESA) 3D radar system manufactured by Lockheed Martin, and is a key component of the Aegis Combat System. The system is computer controlled and uses four complementary antennas to provide 360-degree coverage.
Immediately after World War II, the development of a radar with a new principle called 3D radar began. First, the multi-beam type AN/SPS-2 was developed, but the mechanism was too complicated, so it was only prototyped. Later, as an epoch-making electronic scanning method, Mr. Yarou of Hughes developed a method called frequency scanning (FRESCAN).
The RAT-31DL is an L-band solid-state active phased array 3D radar with an effective range of over 500 km. [1] It is derivative of widely used RAT-31 SL. The RAT 31DL is a solid-state active phased array radar with monopulse antenna with 42 rows of 42 Tx/Rx modules of which 24 boosted, each with 2 kW output power.
VIPER is a 32-bit microprocessor design created by Royal Signals and Radar Establishment (RSRE) in the 1980s, intended to be used in safety-critical systems such as avionics. [1] It was the first commercial microprocessor design to be formally proven correct, although there was some controversy surrounding this claim and the definition of proof.
Type 984 radar on HMS Victorious, 1961. 3D radar provides for radar ranging and direction in three dimensions. In addition to range, the more common two-dimensional radar provides only azimuth for direction, whereas the 3D radar also provides elevation. Applications include weather monitoring, air defense, and surveillance.