Paper Info
Title
Research on a Method of Unambiguous Velocity Measurement of the Space Surveillance Low PRF Radars
Abstract
General description, mathematical analysis and simulation research results of an unambiguous radial velocity measurement method concerning the space surveillance low pulse repetition frequency (PRF) radars are presented in the paper. The low PRF radars, used primarily for searching and precisely target tracking, obtain targetpsilas accurate range as the primary measured parameter and are ambiguous in radial velocity measurement. In this paper, unambiguous targetpsilas radial velocity values can be obtained in low PRF radars through the digital intermediate frequency locked loop (DIFLL) and spectrum peak search (SPS). The simulation results verify the availability and high practicable value of the method.
Year
DOI
Venue
2008
10.1109/ISIP.2008.41
ISIP
Keywords
Field
DocType
spectrum peak search,space surveillance low prf radars,velocity measurement,unambiguous target,digital intermediate frequency locked loop,space surveillance low prf,target tracking,low prf radar,simulation research result,digital intermediate frequency,radial velocity value,space surveillance low pulse,pulse repetition frequency radars,unambiguous radial velocity measurement,radial velocity measurement,repetition frequency,search radar,simulation result,spaceborne radar,radar tracking,unambiguous velocity measurement,pulse repetition frequency,finite impulse response filter,radar,radial velocity,doppler effect,intermediate frequency,spectrum,frequency,band pass filters,mathematical analysis
Radar,Pulse repetition frequency,Radar tracker,Band-pass filter,Radial velocity,United States Space Surveillance Network,Acoustics,Finite impulse response,Doppler effect,Physics
Conference
ISBN
Citations 
PageRank 
978-0-7695-3151-9
1
0.50
References 
Authors
2
4
Name
Order
Citations
PageRank
Tao Wu110.50
qiang qu28312.15
Sijie Yuan310.84
Xin Wei410.50