Title :
A spread spectrum communications channel sounder
Author :
Austin, John ; Ditmar, Walter P A ; Lam, Wai Keung ; Vilar, Enric ; Wa Wan, Kin
Author_Institution :
Dept. of Electr. & Electron. Eng., Portsmouth Univ., UK
fDate :
7/1/1997 12:00:00 AM
Abstract :
The design of a microwave channel probing analyzer is presented and discussed. Special attention is paid to the characteristics of the transmission path to be measured; the choice of spread spectrum probing signal; the signal processing methods used; modulation, demodulation, and synchronization at the transmitter and receiver sites; the path model to be fitted to the measured data and finally, the impact of all of these issues upon the necessary hardware and software. Following a formulation of the channel-probing problem, transfer function regression techniques are reviewed to illustrate the advantages of periodic averaging over established correlation methods. The construction of an experimental sounder based on these methods is described. The equipment has been used to measure the time-variant frequency-selective channel dynamics of a short (158 km) troposcatter transhorizon link at a frequency of 11.647 GHz over a 31.25-MHz bandwidth. Off-line, nonlinear spectrum analysis, based on Prony´s method and singular value decomposition, is used to estimate parameters of a high-resolution delay model that accurately reflects the underlying ray structure of the transmission path
Keywords :
demodulation; electromagnetic wave scattering; microwave links; microwave propagation; modulation; signal processing; signal processing equipment; singular value decomposition; spectral analysis; spread spectrum communication; statistical analysis; synchronisation; time-varying channels; transfer functions; tropospheric electromagnetic wave propagation; 11.647 GHz; 31.25 MHz; Prony´s method; SVD; bandwidth; correlation methods; demodulation; experimental sounder; high resolution delay model; measured data; microwave channel probing analyzer; modulation; nonlinear spectrum analysis; parameter estimation; path model; periodic averaging; receiver site; signal processing methods; software; spread spectrum communications channel sounder; spread spectrum probing signal; synchronization; time-variant frequency-selective channel dynamics; transfer function regression techniques; transmission path; transmitter site; troposcatter transhorizon link; Communication channels; Delay estimation; Demodulation; Frequency synchronization; Hardware; Signal processing; Software measurement; Spread spectrum communication; Transfer functions; Transmitters;
Journal_Title :
Communications, IEEE Transactions on
