Title :
Analysis of Stepped-Frequency Pulse Train Design
Author_Institution :
City Coll. of New York, New York, NY, USA
Abstract :
For uniform frequency stepped pulse trains, there can be undesirable peaks of the autocorrelation function, known as "grating lobes." In this paper we address this issue, using an approach which allows us to suppress grating lobes in the case of appropriately chosen stepped-frequency waveforms, i.e., sequences of narrowband pulses that span the desired bandwidth. We introduce a multiparametric generalization of a stepped-frequency train, and by exploiting a factorization of the autocorrelation function, will be able to effect a useful tradeoff between competing properties of the factors by careful choices of relevant parameters. We provide a detailed description of the method applied to a representative data set.
Keywords :
matrix decomposition; radar theory; autocorrelation function; grating lobes; multiparametric generalization; stepped-frequency pulse train design; stepped-frequency train; Algorithm design and analysis; Autocorrelation; Bandwidth; Cities and towns; Doppler radar; Frequency; Gratings; Radar scattering; Signal design; Uncertainty;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
DOI :
10.1109/TAES.2009.5310296
