Claims
- 1. A nuclear magnetic resonance imaging method comprising the steps of:
- detecting, by use of a predetermined pulse sequence of a detection system, a nuclear magnetic resonance signal corresponding to an image for a region to be examined;
- reconstructing image date on the basis of said detected signal, wherein said reconstructing step includes the steps of:
- estimating, by use of a part of said detected signal, a phase shift due to a deviation of an origin of a sampling time of said detected signal or due to both of said deviation and a characteristic of said detection system;
- eliminating said estimated phase shift from said detected signal; and
- displaying said reconstructed data as an image.
- 2. An imaging method according to claim 1, wherein the step of eliminating said estimated phase shift from said detected signal comprises resampling of said detected signal for said elimination.
- 3. An imaging method according to claim 1, wherein the step of reconstructing an image data includes providing a predetermined processing for said reconstructed data.
- 4. An imaging method according to claim 1, wherein said part of said detected signal comprises a line of said detected signal.
- 5. An imaging method according to claim 4, wherein said line of said detected signal includes a peak of said detected signal.
- 6. A nuclear magnetic resonance imaging method comprising the steps of:
- detecting, by use of a predetermined pulse sequence of a detection system, a nuclear magnetic resonance signal corresponding to an image for a region to be examined;
- reconstructing image data on the basis of said detected signal, wherein said reconstructing step includes the steps of:
- estimating, by use of a part of said detected signal, a phase shift due to a deviation of an origin of a sampling time of said detected signal or due to both of said deviation and a characteristic of said detection system;
- eliminating said estimated phase shift, from partially reconstructed image data; and
- displaying said reconstructed data as an image.
- 7. An imaging method according to claim 6, wherein the step of eliminating said estimated phase shift from said partially reconstructed image data which is obtained by one dimensional Fourier transformation for said detected signal, comprises eliminating said phase shift proportional to a position of a read-out gradient magnetic field direction.
- 8. An imaging method according to claim 6, wherein the step of reconstructing an image data includes providing a predetermined processing for said reconstructed data.
- 9. An imaging method according to claim 6, wherein said part of said detected signal comprises a line of said detected signal.
- 10. An imaging method according to claim 9, wherein said line of said detected signal includes a peak of said detected signal.
- 11. A nuclear magnetic resonance imaging method comprising the steps of:
- detecting, by use of a predetermined pulse sequence of a detection system, a nuclear magnetic resonance signal corresponding to an image for a region to be examined;
- reconstructing image data on the basis of said detected signal, wherein said reconstructing step includes the steps of:
- estimating, by use of a part of said detected signal, a phase shift due to a deviation of an origin of a sampling time of said detected signal or due to both of said deviation and a characteristic of said detection system;
- eliminating said estimated phase shift from totally reconstructed image data; and
- displaying said reconstructed data as a image.
- 12. An imaging method according to claim 11, wherein the step of eliminating said estimated phase shift from said totally reconstructed image data comprises eliminating said phase shift proportional to a position of a read-out gradient magnetic field direction.
- 13. An imaging method according to claim 11, wherein the step of reconstructing an image data includes providing a predetermined processing for said reconstructed data.
- 14. An imaging method according to claim 11, wherein said part of said detected signal comprises a line of said detected signal.
- 15. An imaging method according to claim 14, wherein said line of said detected signal includes a peak of said detected signal.
- 16. A nuclear magnetic resonance imaging apparatus comprising:
- means for detecting, by use of a predetermined pulse sequence of a detection system, a nuclear magnetic resonance signal corresponding to an image for a region to be examined;
- means for reconstructing image data on the basis of said detected signal, wherein said reconstructing means includes:
- means for estimating, by use of a part of said detected signal, a phase shift due to a deviation of an origin of a sampling time of said detected signal or due to both of said deviation and a characteristic of said detection system;
- means for eliminating said estimated phase shift from said detected signal; and
- means for displaying said reconstructed data as an images.
- 17. An imaging apparatus according to claim 16, wherein said means for eliminating said estimated phase shift from said detecting signal comprises means for resampling of said detected signal for said elimination.
- 18. An imaging apparatus according to claim 16, wherein said means for reconstructing an image data includes means for providing a predetermined processing for said reconstructed data.
- 19. An imaging apparatus according to claim 16, wherein said part of said detected signal comprises a line of said detected signal.
- 20. An imaging apparatus according to claim 19, wherein said line of said detected signal includes a peak of said detected signal.
- 21. A nuclear magnetic resonance imaging apparatus comprising:
- means for detecting, by use of predetermined pulse sequence of a detection system, a nuclear magnetic resonance signal corresponding to an image for a region to be examined;
- means for reconstructing image data on the basis of said detected signal, wherein said reconstructing means includes:
- means for estimating, by use of a part of said detected signal, a phase shift due to a deviation of an origin of a sampling time of said detected signal or due to both of said deviation and a characteristic of said detection system;
- means for eliminating said estimated phase shift, from partially reconstructed image data; and
- means for displaying said reconstructed data as an image.
- 22. An imaging apparatus according to claim 21, wherein said means for eliminating said estimated phase shift from said partially reconstructed image data, which is obtained by one dimensional Fourier transformation for said detected signal, eliminates said phase shift proportional to a position of a read-out gradient magnetic field direction.
- 23. An imaging apparatus according to claim 21, wherein said means for reconstructing an image data includes means for providing a predetermined processing for said reconstructed data.
- 24. An imaging apparatus according to claim 21, wherein said part of said detected signal comprises a line of said detected signal.
- 25. An imaging apparatus according to claim 24, wherein said line of said detected signal includes a peak of said detected signal.
- 26. A nuclear magnetic resonance imaging apparatus comprising:
- means for detecting, by use of a predetermined pulse sequence of a detection system, a nuclear magnetic resonance signal corresponding to an image for a region to be examined;
- means for reconstructing image data on the basis of said detected signal, said reconstructing means including:
- means for estimating, by use of a part of said detected signal, a phase shift due to a deviation of an origin of a sampling time of said detected signal or due to both of said deviation and a characteristic of said detection system;
- means for eliminating said estimated phase shift from totally reconstructed image data; and
- means for displaying said reconstructed data as a image.
- 27. An imaging apparatus according to claim 26, wherein, said means for eliminating said estimated phase shift from said totally reconstructed image data eliminated said phase shift proportional to a position of a read-out gradient magnetic field direction.
- 28. An imaging apparatus according to claim 26, wherein said means for reconstructing an image data includes means for providing a predetermined processing for said reconstructed data.
- 29. An imaging apparatus according to claim 26, wherein said part of said detected signal comprises a line of said detected signal.
- 30. An imaging apparatus according to claim 26, wherein said line of said detected signal includes a peak of said detected signal.
Parent Case Info
This application is a Continuation of application Ser. No. 133,069, filed Dec. 15, 1987, now U.S. Pat. No. 4,870,362, which is a continuation of application Ser. No. 826,250, filed Feb. 5, 1986, now abandoned.
US Referenced Citations (4)
Continuations (2)
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Number |
Date |
Country |
Parent |
133069 |
Dec 1987 |
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Parent |
826250 |
Feb 1986 |
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