Bio-potential signal processor for magnetic resonance imaging
First Claim
1. A signal processor for bio-potential signals acquired during the operation of magnetic resonance imaging equipment and having an added noise signal formed of multiple noise components from corresponding multiple coils associated with the magnetic resonance imaging equipment, each coil having a corresponding electrical input for producing its magnetic field, the signal processor comprising:
- noise means for generating a noise reference signal for each coil correlated to the noise component associated with that coil;
an adaptive filter unit for each coil and having inputs for receiving the noise reference signal for that coil and the bio-potential signal plus at least one noise component and having an output for producing an output signal, each adaptive filter comprising;
filters having coefficients and for filtering the noise reference signals to produce a filtered noise reference signal for each coil approximating the noise component associated with the respective coil;
summing junctions associated with each filter for receiving the filtered noise reference signal and the bio-potential signal and for producing the output signal.adapters for receiving the output signal from each summing junction and for adjusting the coefficients of the filter associated with the summing junction to separately minimize each output signal;
the output signals being combined to produce a noise reduced signal substantially equal to the bio-potential signal without the added noise signal.
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Abstract
An adaptive filtering system is used to reduce the electrical noise on low power ECG signals and the like as generated by rapidly switched magnetic gradient fields in magnetic resonance imaging. A correlated noise reference signal is derived from the inputs to the gradient coils by a combination differentiator and low pass filter. The noise reference signal is received by a filter having adjustable coefficients and the result subtracted from the low power signal to produce an error signal used to adjust the coefficients of the filter. Three separate adaptive filters may be placed in series each with a separate correlated noise reference signal to reduce the noise from three gradient coils.
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Citations
2 Claims
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1. A signal processor for bio-potential signals acquired during the operation of magnetic resonance imaging equipment and having an added noise signal formed of multiple noise components from corresponding multiple coils associated with the magnetic resonance imaging equipment, each coil having a corresponding electrical input for producing its magnetic field, the signal processor comprising:
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noise means for generating a noise reference signal for each coil correlated to the noise component associated with that coil; an adaptive filter unit for each coil and having inputs for receiving the noise reference signal for that coil and the bio-potential signal plus at least one noise component and having an output for producing an output signal, each adaptive filter comprising; filters having coefficients and for filtering the noise reference signals to produce a filtered noise reference signal for each coil approximating the noise component associated with the respective coil; summing junctions associated with each filter for receiving the filtered noise reference signal and the bio-potential signal and for producing the output signal. adapters for receiving the output signal from each summing junction and for adjusting the coefficients of the filter associated with the summing junction to separately minimize each output signal; the output signals being combined to produce a noise reduced signal substantially equal to the bio-potential signal without the added noise signal. - View Dependent Claims (2)
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Specification