Title :
The effect of ionospheric reflected noise on the performance of an orbital-debris radar system
Author :
Bishop, Dennis F.
Author_Institution :
Jet Propulsion Lab., California Inst. of Technol., Pasadena, CA, USA
fDate :
11/1/1991 12:00:00 AM
Abstract :
An orbital-debris radar system was designed to detect the presence of small objects in low Earth orbit by reflecting radio waves off the objects. The author provides a rigorous derivation of the ionospheric reflected noise power and provides an integration over the complete pulse period. Free electrons and ions contained in the ionosphere cause incoherent scatter of the radar signal. This ionospheric reflection tends to increase the noise at the terrestrial radar receiver. A parameter called the ionospheric scattering cross section per unit volume, which is a function of altitude, is useful for computing the power of the ionospheric reflection signal. The Doppler frequency speed of the ionospheric reflected signal is also a function of altitude. The ionospheric noise of a 9-GHz orbital-debris radar receiver is computed using these concepts. Annual and diurnal variations of the noise are included
Keywords :
atmospherics; ionosphere; ionospheric electromagnetic wave propagation; pollution detection and control; radar interference; remote sensing by radar; 9 GHz; Doppler frequency speed; SHF; altitude; annual variations; diurnal variations; free electrons; free ions; incoherent scatter; ionospheric reflected noise; ionospheric scattering cross section per unit volume; low Earth orbit; noise power; orbital-debris radar; pollution; pulse period; small objects; space debris; terrestrial radar receiver; Acoustic reflection; Doppler radar; Electrons; Ionosphere; Low earth orbit satellites; Object detection; Radar cross section; Radar detection; Radar scattering; Scattering parameters;
Journal_Title :
Electromagnetic Compatibility, IEEE Transactions on
