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Airborne Radar Signal Processor Realisation
2017 IEEE International WIE Conference on Electrical and Computer Engineering (WIECON-ECE), 2017Signal processor for airborne Active Electronically Scanned Array (AESA) radar has stringent requirement in terms of dynamic load handling, latency and throughput requirement. In this paper, Radar Signal Processor(RSP) realisation for airborne radar is discussed with specific emphasis on S/W architecture for its deployment on multiprocessor based H/W ...
Reena Mamgain, Rashi Jain
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Multirole airborne radar computer evolution
2014 International Radar Conference, 2014The use of AESA antennas (Active Electronically Scanned Array) in airborne radars is a breakthrough in terms of operational capabilities, compared to classic radars working with PESA antennas (Passive Electronically Scanned Array). Multi-chanel receivers allow designers to use more complex and more sophisticated algorithms.
Jean-Jacques Julie +2 more
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Airborne/Spaceborne Radar: Panel Report
1990Mobile radar platforms can provide unique observations of geophysical phenomena for scientific research and for operational applications such as reconnaissance and flight safety. The advantages of an airborne or spaceborne radar are obvious; the radars provide 1) observations where it is often impractical or too costly to place a ground-based radar (e.
David P. Jorgensen, Robert Meneghini
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Monopulse Aerials for Airborne Radars
4th European Microwave Conference, 1974, 1974The paper begins by summarising the characteristics of a number of mono-pulse aerials applicable to airborne radar. For such a use, it is often important that the aerial has low side lobes. Good sidelobe performance may be obtained with a flat plate array which can have an accurately controlled aperture distribution and is free from feeder blockage and
R. Graham, M. F. Doyle, S. J. Alexander
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2014
The main objective of this chapter is to describe how an airborne pulse-Doppler radar isolates targets of interest from clutter and measures target range and velocity. Related topics such as pulse compression, automatic detection, target tracking, and target and clutter statistics are described.
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The main objective of this chapter is to describe how an airborne pulse-Doppler radar isolates targets of interest from clutter and measures target range and velocity. Related topics such as pulse compression, automatic detection, target tracking, and target and clutter statistics are described.
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Airborne Storm Avoidance Radar Training
IRE Transactions on Aeronautical and Navigational Electronics, 1957In training scheduled air carrier flight crews in the use of airborne storm avoidance radar, a twofold problem is encountered. The utility of the instrument must be sold to the doubting Thomas who has many thousands of hours flying in thunderstorm conditions, and its limitations must be defined for those who see it as a miracle maker.
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Journal of Navigation, 1962
Many airborne doppler radars in use at present work with several beams in fixed directions and a pair of beams switched in sequence. In this paper, which was presented at the convention held in Dusseldorf in May 1961 (Journal, 14, 480), a new type of doppler radar is described in which a single beam is rotated around the vertical axis with a uniform ...
Minoru Okada, Jun Tamiya
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Many airborne doppler radars in use at present work with several beams in fixed directions and a pair of beams switched in sequence. In this paper, which was presented at the convention held in Dusseldorf in May 1961 (Journal, 14, 480), a new type of doppler radar is described in which a single beam is rotated around the vertical axis with a uniform ...
Minoru Okada, Jun Tamiya
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UK airborne AESA radar research
IEEE Aerospace and Electronic Systems Magazine, 2010This paper reviews current UK airborne active electronically scanned array (AESA) designs, discusses current trends towards higher digitisation and multi-function aperture concepts, and details the key future challenges that this technology faces. Specifically the paper discusses applications to fast-jets.
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Airborne Radar Signal Density Measurements
IEEE Transactions on Radio Frequency Interference, 1963This paper presents radar signal density measurements for several areas of the United States, together with a correlation of theory and experimental evidence. The results indicate that the average number of pulses per second received from large radar deployments at various signal levels and altitudes can be predicted to within a factor of two over a 50-
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