Title :
Transient response and design methodology of an Applebaum adaptive filter
Author :
Bloor, George J. ; Higgins, Robert P.
Author_Institution :
Boeing High Technol. Center, Seattle, WA, USA
Abstract :
In the spread-spectrum/antijam scenario, significant processing gains can be achieved by the insertion of an antijam (AIS) filter in the receiver in front of the detector. In the present work the transient response of an FIR (finite impulse response) AIS filter, whose tap weights are updated by the Applebaum algorithm, is derived. An expression is then derived for the transient response of the correlator. Given an expression for the transient response of the correlator, the correlation may be maximized as a function of the loop gain and steering vector gain contained in the Applebaum algorithm. Moreover, this may be done at any time in the transient correlation response as opposed to the typical steady-state case. To motivate the use of the Applebaum algorithm, it is contrasted to the LMS (least mean square) algorithm and shown to have a significantly larger correlation. A filter design example is provided
Keywords :
adaptive filters; correlation methods; digital filters; interference suppression; jamming; transient response; Applebaum adaptive filter; Applebaum algorithm; FIR antijam filter; LMS algorithm; design methodology; finite impulse response; least mean square; loop gain; steering vector gain; tap weights; transient correlation response; Adaptive filters; Band pass filters; Correlators; Covariance matrix; Design methodology; Finite impulse response filter; Jamming; Spread spectrum communication; Steady-state; Transient response;
Conference_Titel :
Military Communications Conference, 1989. MILCOM '89. Conference Record. Bridging the Gap. Interoperability, Survivability, Security., 1989 IEEE
Conference_Location :
Boston, MA
DOI :
10.1109/MILCOM.1989.103977
