Ground penetrating radar with synthesized end-fire array
First Claim
1. A method for removing clutter from a radar signal comprising the steps of:
- generating an average radar signal as a function of a current radar signal and a prior average radar signal, wherein the current radar signal is associated with a present antenna position along an antenna boresight axis and the prior average radar signal is based on radar signals associated with each of a plurality of prior antenna positions along the antenna boresight axis;
generating an updated radar signal by removing clutter from the current radar signal, wherein the clutter is removed by reducing the amplitudes associated with the current radar signal by an amount equal to a corresponding amplitude associated with the average radar signal;
shifting the updated radar signal in the time domain by an amount of time that is a function of the present antenna position; and
generating a processed radar signal by integrating the updated radar signal with a previously processed radar signal, if any, wherein the previously processed radar signal is associated with the previous antenna position along the boresight axis.
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Abstract
In a ground penetrating radar system, A-scan images of subsurface targets lying along the antenna boresight axis can be substantially improved and generated in real-time by employing a synthetic aperture, end-fire array, despite the inhomogeneous nature of the subsurface volume. The synthetic aperture, end-fire array is achieved by generating electro-magnetic (EM) ultra-wideband impulses at a number of precise locations along the antenna boresight access, shifting the returned EM signals in the time domain according to the corresponding antenna boresight location, and then integrating the shifted, returned EM signals. In addition, an incremental, reverse-coherent integration technique is provided. This incremental technique allows for a more rapid generation of the A-scan image. The reverse-coherent integration technique eliminates unintended, stationary targets from the A-scan image, which are caused by coherent noise/clutter sources.
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Citations
14 Claims
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1. A method for removing clutter from a radar signal comprising the steps of:
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generating an average radar signal as a function of a current radar signal and a prior average radar signal, wherein the current radar signal is associated with a present antenna position along an antenna boresight axis and the prior average radar signal is based on radar signals associated with each of a plurality of prior antenna positions along the antenna boresight axis; generating an updated radar signal by removing clutter from the current radar signal, wherein the clutter is removed by reducing the amplitudes associated with the current radar signal by an amount equal to a corresponding amplitude associated with the average radar signal; shifting the updated radar signal in the time domain by an amount of time that is a function of the present antenna position; and generating a processed radar signal by integrating the updated radar signal with a previously processed radar signal, if any, wherein the previously processed radar signal is associated with the previous antenna position along the boresight axis. - View Dependent Claims (2)
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3. A method for generating a radar image of a subsurface target comprising the steps of:
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transmitting and receiving a current radar signal from a current antenna position n, wherein the antenna position n is one of a plurality of antenna positions 0 . . . N along a boresight axis; generating a current average radar signal as a function of the current radar signal and a previous average radar signal associated with a prior antenna position n-1, if any, along the boresight axis; updating the current radar signal by integrating the current radar signal with the current average radar signal; determining a radar signal propagation delay associated with the current antenna position; shifting, in the time domain, the updated radar signal, as a function of the radar signal propagation delay; generating a processed radar signal associated with the current antenna position n by integrating the time shifted, updated radar signal and a previous processed radar signal, if any, associated with the prior antenna position n-1 along the boresight axis; and refreshing a display of the processed radar signal. - View Dependent Claims (4, 5, 6, 7)
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8. An apparatus for removing coherent stationary clutter from a ground penetrating radar signal comprising:
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means for generating an average radar signal as a function of a current radar signal and a prior average radar signal, wherein the current radar signal is associated with a present antenna position along an antenna boresight axis and the prior average radar signal is based on the radar signals associated with each of a plurality of prior antenna positions along the antenna boresight axis; means for generating an updated radar signal by removing coherent stationary clutter from the current radar signal, wherein the coherent stationary clutter is removed by reducing the amplitudes associated with the current radar signal by an amount equal to a corresponding amplitude associated with the average radar signal; means for shifting the updated radar signal in the time domain by an amount of time that is a function of the present antenna position; and means for generating a processed radar signal by integrating the updated radar signal with a previously processed radar signal, if any, wherein the previously processed radar signal is associated with the previous antenna position along the boresight axis. - View Dependent Claims (9)
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10. In a ground penetrating radar system, an apparatus for generating a radar image of a subsurface target comprising the steps of:
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antenna for transmitting and receiving a current radar signal from a current antenna position n, wherein the antenna position n is one of a plurality of antenna positions 0 . . . N along a boresight axis; means for generating a current average radar signal as a function of the current radar signal and a previous average radar signal associated with a prior antenna position n-1, if any, along the boresight axis; means for updating the current radar signal by integrating the current radar signal with the current average radar signal; means for determining a radar signal propagation delay associated with the current antenna position; means for shifting, in the time domain, the updated radar signal, as a function of the radar signal propagation delay; means for generating a processed radar signal associated with the current antenna position n by integrating the time shifted, updated radar signal and a previous processed radar signal, if any, associated with the prior antenna position n-1 along the boresight axis; and means for refreshing a display of the processed radar signal. - View Dependent Claims (11, 12, 13, 14)
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Specification