Multi-channel method and device to evaluate magnetic resonance signals, with reduced number of channels
First Claim
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1. A method to evaluate magnetic resonance signals comprising the steps of:
- generating first signals by interaction of detection coils in a magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus;
supplying said first signals to a processor and, in said processor, automatically calculating weighting factors exclusively from said first signals by determining, from said first signals, a sub-region within said region that is best visible in a resulting magnetic resonance image, and calculating said weighting factors with respect to said sub-region;
generating second signals with said coils by interaction of the detection coils with magnetic fields emanating from the region of the subject;
supplying said second signals to said processor and, in said processor, automatically calculating weighted signals by weighting only said second signals with said weighting factors; and
making said weighted signals available at an output of said processor.
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Abstract
An optimized processing of data of multiple local coils is enabled by a device and a method to evaluate signals received with coils of a magnetic resonance tomography apparatus, wherein first signals are generated by means of coils via magnetic fields coming from a body, wherein a region in the body is defined, wherein weighting factors are calculated with the use of the first signals, wherein second signals are generated with the coils from magnetic fields coming from a body, wherein signals weighted with the use of the weighting factors are calculated from the second signals, wherein the weighted signals are processed further.
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Citations
32 Claims
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1. A method to evaluate magnetic resonance signals comprising the steps of:
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generating first signals by interaction of detection coils in a magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; supplying said first signals to a processor and, in said processor, automatically calculating weighting factors exclusively from said first signals by determining, from said first signals, a sub-region within said region that is best visible in a resulting magnetic resonance image, and calculating said weighting factors with respect to said sub-region; generating second signals with said coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; supplying said second signals to said processor and, in said processor, automatically calculating weighted signals by weighting only said second signals with said weighting factors; and making said weighted signals available at an output of said processor. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method to evaluate magnetic resonance signals, comprising:
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generating first signals by interaction of detection coils in a magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; supplying said first signals to a processor and, in said processor, automatically calculating weighting factors exclusively from said first signals by determining, from said first signals, a point in said defined region exhibiting a lowest signal-to-noise ratio and calculating said weighting factors relative to said point; generating second signals with said coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; supplying said second signals to said processor and, in said processor, automatically calculating weighted signals by weighting only said second signals with said weighting factors; and making said weighted signals available at an output of said processor.
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13. A method to evaluate magnetic resonance signals, comprising:
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generating first signals by interaction of detection coils in a magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; supplying said first signals to a processor and, in said processor, automatically calculating weighting factors exclusively from said first signals by iteratively evaluating respective points in said region, represented by said first signals, with respect to a characteristic embodied in said first signals, and calculating said weighting factors with respect to a point at which said characteristic is best for generating a resulting magnetic resonance image from said weighted signals; generating second signals with said coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; supplying said second signals to said processor and, in said processor, automatically calculating weighted signals by weighting only said second signals with said weighting factors; and making said weighted signals available at an output of said processor.
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14. A method to evaluate magnetic resonance signals, comprising:
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generating first analog signals by interaction of detection coils in a magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; supplying said first analog signals to a processor and, in said processor, automatically calculating weighting factors exclusively from said first analog signals by digitizing said first analog signals in said processor to obtain first digital signals, and calculating said weighting factors digitally exclusively from said first digital signals; generating second analog signals with said coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; supplying said second analog signals to said processor and, in said processor, automatically digitizing said second analog signals to generate second digital signals, and digitally weighting only said digital second signals with said digital weighting factors, to obtain digital weighted signals; and making said digital weighted signals available at an output of said processor.
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15. A device to evaluate magnetic resonance signals comprising:
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an operating unit configured to operate a magnetic resonance tomography apparatus to generate first signals by interaction of detection coils of the magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; a processor supplied with said first signals, said processor being configured to automatically calculate weighting factors exclusively from said first signals by determining, from said first signals, a sub-region within said region that is best visible in a resulting magnetic resonance image, and calculating said weighting factors with respect to said sub-region; said operating unit being configured to operate said magnetic resonance tomography apparatus to generate second signals with said detection coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; said processor being supplied with said second signals and being configured to automatically calculate weighted signals by weighting only said second signals with said weighting factors; and said processor being configured to make said weighted signals available at an output of said processor. - View Dependent Claims (16, 17, 18, 19, 20)
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21. A device to evaluate magnetic resonance signals, comprising:
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an operating unit configured to operate a magnetic resonance tomography apparatus to generate first signals by interaction of detection coils of the magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; a processor supplied with said first signals, said processor being configured to automatically calculate weighting factors exclusively from said first signals, by automatically determining, from said first signals, a point in said defined region exhibiting a lowest signal-to-noise ratio and calculating said weighting factors relative to said point; said operating unit being configured to operate said magnetic resonance tomography apparatus to generate second signals with said detection coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; said processor being supplied with said second signals and being configured to automatically calculate weighted signals by weighting only said second signals with said weighting factors; and said processor being configured to make said weighted signals available at an output of said processor.
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22. A device to evaluate magnetic resonance signals, comprising:
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an operating unit configured to operate a magnetic resonance tomography apparatus to generate first signals by interaction of detection coils of the magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; a processor supplied with said first signals, said processor being configured to automatically calculate weighting factors exclusively from said first signals by iteratively evaluating respective points in said region, represented by said first signals, with respect to a characteristic embodied in said first signals, and calculating said weighting factors with respect to a point at which said characteristic is best for generating a resulting magnetic resonance image from said weighted signals; said operating unit being configured to operate said magnetic resonance tomography apparatus to generate second signals with said detection coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; said processor being supplied with said second signals and being configured to automatically calculate weighted signals by weighting only said second signals with said weighting factors; and said processor being configured to make said weighted signals available at an output of said processor.
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23. A device to evaluate magnetic resonance signals, comprising:
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an operating unit configured to operate a magnetic resonance tomography apparatus to generate first analog signals by interaction of detection coils of the magnetic resonance tomography apparatus with magnetic fields emanating from a defined region of a subject in the magnetic resonance tomography apparatus; a processor supplied with said first analog signals, said processor being configured to digitize said first analog signals to obtain first digital signals and to calculate weighting factors digitally exclusively from said first digital signals; said operating unit being configured to operate said magnetic resonance tomography apparatus to generate second analog signals with said detection coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; said processor being supplied with said second analog signals and being configured to digitize said second analog signals to generate second digital signals, and to digitally weight only said digital second signals with said digital weighting factors, to obtain digital weighted signals; and said processor being configured to make said weighted signals available at an output of said processor.
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24. A magnetic resonance tomography apparatus comprising:
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a magnetic resonance data acquisition unit comprising detection coils; an operating unit configured to operate said detection coils in said magnetic resonance data acquisition unit to generate first signals by interaction of the detection coils with magnetic fields emanating from a defined region of a subject in the magnetic resonance data acquisition unit; a processor supplied with said first signals and configured to automatically calculate weighting factors exclusively from said first signals by determining, from said first signals, a sub-region within said region that is best visible in a resulting magnetic resonance image, and calculating said weighting factors with respect to said sub-region; said operating unit being configured to operate said magnetic resonance data acquisition unit to generate second signals with said coils by interaction of the coils with magnetic fields emanating from the region of the subject; said second signals being supplied to said processor and said processor being configured to automatically calculate weighted signals by weighting only said second signals with said weighting factors; and said processor being configured to make said weighted signals available at an output of said processor. - View Dependent Claims (25, 26, 27, 28, 29)
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30. A magnetic resonance tomography apparatus comprising:
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a magnetic resonance data acquisition unit comprising detection coils; an operating unit configured to operate said magnetic resonance data acquisition unit to generate first signals by interaction said detection coils with magnetic fields emanating from a defined region of a subject in the magnetic resonance data acquisition unit; a processor supplied with said first signals, said processor being configured to automatically calculate weighting factors exclusively from said first signals, by automatically determining, from said first signals, a point in said defined region exhibiting a lowest signal-to-noise ratio and calculating said weighting factors relative to said point; said operating unit being configured to operate said magnetic resonance data acquisition unit to generate second signals with said detection coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; said processor being supplied with said second signals and being configured to automatically calculate weighted signals by weighting only said second signals with said weighting factors; and said processor being configured to make said weighted signals available at an output of said processor.
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31. A magnetic resonance tomography apparatus comprising:
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a magnetic resonance data acquisition unit comprising detection coils; an operating unit configured to operate said magnetic resonance data acquisition unit to generate first signals by interaction of said detection coils with magnetic fields emanating from a defined region of a subject in the magnetic resonance data acquisition unit; a processor supplied with said first signals, said processor being configured to automatically calculate weighting factors exclusively from said first signals by iteratively evaluating respective points in said region, represented by said first signals, with respect to a characteristic embodied in said first signals, and calculating said weighting factors with respect to a point at which said characteristic is best for generating a resulting magnetic resonance image from said weighted signals; said operating unit being configured to operate said magnetic resonance data acquisition unit to generate second signals with said detection coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; said processor being supplied with said second signals and being configured to automatically calculate weighted signals by weighting only said second signals with said weighting factors; and said processor being configured to make said weighted signals available at an output of said processor.
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32. A magnetic resonance tomography apparatus comprising:
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a magnetic resonance data acquisition unit comprising detection coils; an operating unit configured to operate said magnetic resonance data acquisition unit to generate first analog signals by interaction of said detection coils with magnetic fields emanating from a defined region of a subject in the magnetic resonance data acquisition unit; a processor supplied with said first analog signals, said processor being configured to digitize said first analog signals to obtain first digital signals and to calculate weighting factors digitally exclusively from said first digital signals; said operating unit being configured to operate said magnetic resonance data acquisition unit to generate second analog signals with said detection coils by interaction of the detection coils with magnetic fields emanating from the region of the subject; said processor being supplied with said second analog signals and being configured to digitize said second analog signals to generate second digital signals, and to digitally weight only said digital second signals with said digital weighting factors, to obtain digital weighted signals; and said processor being configured to make said weighted signals available at an output of said processor.
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Specification