Noise optimization for a magnetic resonance system
First Claim
1. A method for selecting an optimization method for optimizing a pulse sequence that operates a magnetic resonance scanner comprising a radiofrequency coil system and a gradient coil system, said pulse sequence comprising a plurality of radiofrequency pulses and gradient pulses that respectively activate said radiofrequency coil system and said gradient coil system in order to acquire magnetic resonance data from a subject in said magnetic resonance scanner, said method comprising:
- providing said pulse sequence to a computer;
in said computer, automatically analyzing said pulse sequence to identify at least one segment thereof that is to be optimized;
in said computer, automatically applying a plurality of different optimization methods to said at least one segment and thereby obtaining a plurality of differently optimized forms of said at least one segment, said plurality of optimization methods comprising, a spline generation method, and a method for generating a gradient pulse by replacing a gradient waveform thereof by linear or trapezoidal gradient waveforms;
in said computer, for each of said differently optimized forms of said at least one segment, determining a frequency spectrum thereof;
in said computer, for each differently optimized form of said at least one segment, automatically determining an overall spectrum by multiplying the determined frequency spectrum of the respective differently optimized form of said at least one segment with a transmission function of said magnetic resonance scanner, thereby producing a plurality of overall spectra;
in said computer, applying a predetermined criterion to each overall spectrum in said plurality of overall spectra, and identifying an overall spectrum in said plurality of overall spectra that best satisfies said criterion and selecting an optimization method, as a selected optimization method among said plurality of optimization methods, that produced the overall spectrum that best satisfies said criterion;
in said computer, optimizing said pulse sequence so as to include said at least one segment thereof optimized by said selected optimization method, thereby producing an optimized pulse sequence; and
in said computer, generating control signals corresponding to said optimized pulse sequence and emitting said control signals from said computer to said magnetic resonance scanner in order to operate the magnetic resonance scanner so as to execute said optimized pulse sequence and thereby acquire said magnetic resonance data from the subject.
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Abstract
In a magnetic resonance (MR) apparatus and method to evaluate the consistency of a signal model used to generate a quantitative parameter map, the residual of the quantitative parameter map is calculated and a residual map is generated. The residual map is displayed together with the quantitative parameter map, with the residual map serving as an indicator of the quality of fit of the signal model.
13 Citations
14 Claims
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1. A method for selecting an optimization method for optimizing a pulse sequence that operates a magnetic resonance scanner comprising a radiofrequency coil system and a gradient coil system, said pulse sequence comprising a plurality of radiofrequency pulses and gradient pulses that respectively activate said radiofrequency coil system and said gradient coil system in order to acquire magnetic resonance data from a subject in said magnetic resonance scanner, said method comprising:
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providing said pulse sequence to a computer; in said computer, automatically analyzing said pulse sequence to identify at least one segment thereof that is to be optimized; in said computer, automatically applying a plurality of different optimization methods to said at least one segment and thereby obtaining a plurality of differently optimized forms of said at least one segment, said plurality of optimization methods comprising, a spline generation method, and a method for generating a gradient pulse by replacing a gradient waveform thereof by linear or trapezoidal gradient waveforms; in said computer, for each of said differently optimized forms of said at least one segment, determining a frequency spectrum thereof; in said computer, for each differently optimized form of said at least one segment, automatically determining an overall spectrum by multiplying the determined frequency spectrum of the respective differently optimized form of said at least one segment with a transmission function of said magnetic resonance scanner, thereby producing a plurality of overall spectra; in said computer, applying a predetermined criterion to each overall spectrum in said plurality of overall spectra, and identifying an overall spectrum in said plurality of overall spectra that best satisfies said criterion and selecting an optimization method, as a selected optimization method among said plurality of optimization methods, that produced the overall spectrum that best satisfies said criterion; in said computer, optimizing said pulse sequence so as to include said at least one segment thereof optimized by said selected optimization method, thereby producing an optimized pulse sequence; and in said computer, generating control signals corresponding to said optimized pulse sequence and emitting said control signals from said computer to said magnetic resonance scanner in order to operate the magnetic resonance scanner so as to execute said optimized pulse sequence and thereby acquire said magnetic resonance data from the subject. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A magnetic resonance apparatus, comprising:
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a magnetic resonance scanner comprising a radiofrequency coil system and a gradient coil system, said magnetic resonance scanner comprising a scanner structure having a transmission function; a control computer configured to operate said magnetic resonance scanner according to a pulse sequence comprising a plurality of radiofrequency pulses and a plurality of gradient pulses that respectively activate said radiofrequency coil system and said gradient coil system in order to acquire magnetic resonance data from a subject in said magnetic resonance scanner; said control computer being configured to automatically analyze said pulse sequence to identify at least one segment thereof that is to be optimized; said control computer being configured to automatically apply a plurality of different optimization methods to said at least one segment and thereby obtain a plurality of differently optimized forms of said at least one segment, said plurality of optimization methods comprising, a spline generation method, and a method for generating a gradient pulse by replacing a gradient waveform thereof by linear or trapezoidal gradient waveforms; said computer, for each of said differently optimized forms of said at least one segment, being configured to determine a frequency spectrum thereof; said control computer, for each differently optimized form of said at least one segment, being configured to automatically determine an overall spectrum by multiplying the determined frequency spectrum of the respective differently optimized form of said at least one segment with said transmission function of said magnetic resonance scanner, thereby producing a plurality of overall spectra; said control computer being configured to apply a predetermined criterion to each overall spectrum in said plurality of overall spectra, and identify an overall spectrum in said plurality of overall spectra that best satisfies said criterion and select an optimization method, as a selected optimization method among said plurality of optimization methods, that produced the overall spectrum that best satisfies said criterion; said computer being configured to optimize said pulse sequence so as to include said at least one segment thereof optimized by said selected optimization method, thereby producing an optimized pulse sequence; and said computer being configured to generate control signals corresponding to said optimized pulse sequence and to emit said control signals from said computer to said magnetic resonance scanner in order to operate the magnetic resonance scanner so as to execute said optimized pulse sequence and thereby acquire said magnetic resonance data from the subject. - View Dependent Claims (12)
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13. A non-transitory, computer-readable data storage medium encoded with programming instructions, said storage medium being loaded in a control computer of a magnetic resonance apparatus, said magnetic resonance apparatus comprising a magnetic resonance scanner comprising a radiofrequency coil system and a gradient coil system, and said programming instructions causing said control computer to:
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receive a pulse sequence for operating said magnetic resonance scanner, said pulse sequence comprising a plurality of radio frequency pulses and a plurality of gradient pulses that respectively activate said radiofrequency coil system and said gradient coil system in order to acquire magnetic resonance data from a subject in said magnetic resonance scanner; automatically analyze said pulse sequence to identify at least one segment thereof that is to be optimized; automatically apply a plurality of different optimization methods to said at least one segment and thereby obtaining a plurality of differently optimized forms of said at least one segment, said plurality of optimization methods comprising, a spline generation method, and a method for generating a gradient pulse by replacing a gradient waveform thereof by linear or trapezoidal gradient waveforms; for each of said differently optimized forms of said at least one segment, determine a frequency spectrum thereof; for each differently optimized form of said at least one segment, automatically determine an overall spectrum by multiplying the determined frequency spectrum of the respective differently optimized form of said at least one segment with a transmission function of said magnetic resonance scanner, thereby producing a plurality of overall spectra; apply a predetermined criterion to each overall spectrum in said plurality of overall spectra, and identify an overall spectrum in said plurality of overall spectra that best satisfies said criterion and select an optimization method, as a selected optimization method among said plurality of optimization methods, that produced the overall spectrum that best satisfies said criterion; optimize said pulse sequence so as to include said at least one segment thereof optimized by said selected optimization method, thereby producing an optimized pulse sequence; and generate control signals corresponding to said optimized pulse sequence and emit said control signals from said computer to said magnetic resonance scanner in order to operate the magnetic resonance scanner so as to execute said optimized pulse sequence and thereby acquire said magnetic resonance data from the subject. - View Dependent Claims (14)
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Specification