Title :
Parameter estimation of random FH signals using autocorrelation techniques
Author :
Char-Dir Chung ; Polydoros, A.
Author_Institution :
Dept. of Electr. Eng., Nat. Central Univ., Chung-Li, Taiwan
Abstract :
Multiple-hop autocorrelation (MHAC) processing is considered as a means of estimating the parameters of frequency-hopping signals in the presence of broadband thermal noise. It is shown that power sampling in the MHAC domain suppresses the dependence on the hopping frequency, carrier phase, and hop timing, while maintaining the hop-rate information. Moreover, when the signal´s hop-rate is known a priori or can be estimated reliably, the multiple-hop combining of single-hop autocorrelation (SHAC) estimates can be employed to extract hop-timing information. Taking advantage of these features, we propose and analyze a hop-rate estimator and an epoch estimator, based on maximum-likelihood arguments. The conditional mean and variance of both estimators are derived analytically and confirmed by extensive simulation.<>
Keywords :
correlation methods; frequency hop communication; maximum likelihood estimation; random processes; signal detection; signal sampling; spread spectrum communication; thermal noise; autocorrelation techniques; broadband thermal noise; carrier phase; conditional mean; epoch estimator; frequency-hopping signals; hop timing; hop-rate estimator; hop-rate information; hopping frequency; maximum-likelihood estimation; multiple-hop autocorrelation processing; parameter estimation; power sampling; random FH signals; signal detection; simulation; single-hop autocorrelation; spread-spectrum signals; variance; Analysis of variance; Autocorrelation; Data mining; Frequency estimation; Maintenance; Maximum likelihood estimation; Parameter estimation; Signal processing; Signal sampling; Timing;
Journal_Title :
Communications, IEEE Transactions on
