Direction finding
First Claim
1. An interferometer-type direction finding system including at least five antennas defining a non-linear array providing 360°
- coverage, and such that the spacing between any pair of apertures is greater than a wavelength of the radio signal to be received, means for receiving radio energy detected by the antennas over a predetermined band, analysing means for effectively outputting the amplitude and relative phase of any radio signal received by each antenna in each of a plurality of frequency intervals within said band, means for effectively identifying from said output any received radio signal within said band, and means for processing only the relative phase at each antenna of any identified radio signal to produce only one possible value of the bearing of the source from which any said identified signal originates.
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Accused Products
Abstract
An interferometer type DF system uses an array of five antennas (A,B,C,D,E) arranged at the apices of a regular pentagon to define five wide apertures along the sides of the pentagon and a further five apertures along the diagonals. The phases of the signals received by each antenna, are measured modulo 2π and processed to give a unique bearing of the radio source to the accuracy of the widest aperture defined by the array. One method of processing the phases is to calculate from them the Fourier coefficients of the Fourier series representing the spatial phase distribution. By comparing the difference between each calculated coefficient and a corresponding order coefficient of a set of imaginary antenna phases expressed as integral multiples of 2π, the complete 2π phase differences between the measured phases modulo 2π can be found. The bearing angle of the received signal is then the phase of the vector resulting from subtracting the first order Fourier coefficient of the integral phases from the calculated first order coefficient.
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Citations
9 Claims
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1. An interferometer-type direction finding system including at least five antennas defining a non-linear array providing 360°
- coverage, and such that the spacing between any pair of apertures is greater than a wavelength of the radio signal to be received, means for receiving radio energy detected by the antennas over a predetermined band, analysing means for effectively outputting the amplitude and relative phase of any radio signal received by each antenna in each of a plurality of frequency intervals within said band, means for effectively identifying from said output any received radio signal within said band, and means for processing only the relative phase at each antenna of any identified radio signal to produce only one possible value of the bearing of the source from which any said identified signal originates.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of analysing the signals recieved by the antennas of a wide aperture non-linear interferometer type DF array of at least five antennas providing 360°
- coverage, comprising the steps of measuring the relative phases of the signal received at each antenna modulo 2π
for at least one sample frequency, calculating at least some of the coefficients of the Fourier series of the spatial phase distribution from the measured discrete antenna phases for the or each sample frequency, comparing the celculated Fourier coefficients with a selected plurality of stored coefficients each calculated for a particular set of antenna phase differing by integer multiples of 2π
only, determining the particular set of integer phases which provides the best fit with the calculated coefficients, and calculating the bearing of the received signal (if any) at the or each sample frequency by effectively substituting the determined set of integer values into a Fourier coefficient containing the bearing information and deriving the bearing angle therefrom. - View Dependent Claims (9)
- coverage, comprising the steps of measuring the relative phases of the signal received at each antenna modulo 2π
Specification