Frequency band selection of radars for buried object detection


Autoria(s): Cherniakov, M; Donskoi, L
Data(s)

01/01/1999

Resumo

Choice of the operational frequency is one of the most responsible parts of any radar design process. Parameters of radars for buried object detection (BOD) are very sensitive to both carrier frequency and ranging signal bandwidth. Such radars have a specific propagation environment with a strong frequency-dependent attenuation and, as a result, short operational range. This fact dictates some features of the radar's parameters: wideband signal-to provide a high range resolution (fractions of a meter) and a low carrier frequency (tens or hundreds megahertz) for deeper penetration. The requirement to have a wideband ranging signal and low carrier frequency are partly in contradiction. As a result, low-frequency (LF) ultrawide-band (UWB) signals are used. The major goal of this paper is to examine the influence of the frequency band choice on the radar performance and develop relevant methodologies for BOD radar design and optimization. In this article, high-efficient continuous wave (CW) signals with most advanced stepped frequency (SF) modulation are considered; however, the main conclusions can be applied to any kind of ranging signals.

Identificador

http://espace.library.uq.edu.au/view/UQ:85608

Idioma(s)

eng

Publicador

IEEE

Palavras-Chave #Geochemistry & Geophysics #Engineering, Electrical & Electronic #Remote Sensing #Radar Resolution #Radar Signal Processing #Stepped-frequency Radar #Ultrawideband Signals #C1 #260200 Geophysics #779907 Rehabilitation of degraded areas #671399 Communication equipment not elsewhere classified #290903 Other Electronic Engineering
Tipo

Journal Article