Title :
High frequency atmospheric noise mitigation
Author :
Kramer, J. David R, Jr. ; Williams, Ronald T.
Author_Institution :
Mitre Corp., Bedford, MA, USA
Abstract :
The performance of high frequency (HF) radio communication and radar systems can be limited by noise generated by sources external to the receiving antenna. Below 10 MHz, atmospheric noise generated by worldwide thunderstorm activity tends to be the dominant natural source. We present an empirical analysis of atmospheric noise cancellation achieved by applying an adaptive sidelobe canceller to wideband HF signals measured using the MITRE Texas Facility. We couple our empirical analysis with predicted results obtained using CCIR noise models to assess the likelihood of obtaining significant levels of noise cancellation. We also describe cancellation performance as a function of the degrees of freedom applied and variations in data block size
Keywords :
HF radio propagation; adaptive signal processing; array signal processing; atmospherics; interference suppression; ionospheric electromagnetic wave propagation; radar applications; radar signal processing; 3 to 30 MHz; CCIR noise models; HF atmospheric noise; HF radar systems; MITRE Texas Facility; adaptive antenna processing; adaptive sidelobe canceller; atmospheric noise cancellation; cancellation performance; data block size; degrees of freedom; empirical analysis; high frequency radio communication; likelihood; predicted results; receiving antenna; thunderstorm activity; wideband HF signals; Antenna measurements; Atmospheric measurements; Frequency; Noise cancellation; Noise generators; Radar antennas; Radio communication; Receiving antennas; Signal analysis; Wideband;
Conference_Titel :
Acoustics, Speech, and Signal Processing, 1994. ICASSP-94., 1994 IEEE International Conference on
Conference_Location :
Adelaide, SA
Print_ISBN :
0-7803-1775-0
DOI :
10.1109/ICASSP.1994.389929
