Title :
Auto-calibrating adaptive array for mobile telecommunications
Author :
Wennstrom, M. ; Oberg, Tommy ; Lindskog, Erik ; Rydberg, A.
Author_Institution :
Signals & Syst. Group, Uppsala Univ.
fDate :
4/1/2000 12:00:00 AM
Abstract :
A major concern for adaptive antennas is the calibration of hardware. Here we consider the calibration of an analog beamformer (ABF), which calculates the weights in a digital signal processor (DSP), but weights the RF signals using a hardware beamformer. Two novel methods are presented of performing a calibration of this adaptive antenna during normal operation. This will mitigate temperature drift and aging of active components. Both methods uses a feedback of the beamformer output signal, to calculate the error in the beamformer output or to identify the parameters in the temperature drift. The algorithms are transparent to normal antenna operation and are computationally simple. Simulations show that when using these auto-calibration methods, the performance is independent of variation in hardware parameters when a realistic temperature drift is introduced. The proposed algorithms are intended for use in a time-division multiple access (TDMA) mobile telephone system, but the methods are applicable in radar systems also
Keywords :
adaptive antenna arrays; array signal processing; calibration; feedback; least mean squares methods; mobile radio; time division multiple access; DSP weights calculation; LMS algorithm; SMI algorithm; TDMA mobile telephone system; adaptive antennas; analog beamformer calibration; auto-calibrating adaptive array; basestation antenna; digital signal processor; mobile telecommunications; output signal feedback; radar systems; temperature drift; time-division multiple access; Adaptive arrays; Aging; Calibration; Digital signal processing; Digital signal processors; Hardware; Output feedback; Signal processing; Signal processing algorithms; Temperature;
Journal_Title :
Aerospace and Electronic Systems, IEEE Transactions on
