Patent Number: 052280705
Section: claims

1. A CT scanner comprising: an examination region for receiving a subject that attenuates penetrating radiation more along some of a multiplicity of traversing paths than others;  a source of penetrating radiation which directs a beam of radiation through the examination region;  a motor means for rotating the radiation source through a multiplicity of angular positions around the examination region to pass the radiation through the subject along the multiplicity of traversing paths;  a means for varying the energy fluence of radiation impinging upon the subject in accordance with the angular position of the radiation source such that an average energy fluence that traverses the subject is generally constant for all angular positions of the x-ray source;  a radiation detection means for detecting the radiation with substantially the average energy fluence that has traversed the subject;  a means for reconstructing image representations from the radiation detected by the detectors.  an examination region for receiving a subject;  a source of penetrating radiation which directs a beam of radiation through the examination region;  a motor means for rotating the radiation source around the examination region, such that average radiation attenuation by the subject varies with an angular position of the radiation source therearound;  a means for varying the x-ray energy fluence of radiation impinging upon the subject in accordance with the angular position of the radiation source such that an average x-ray energy fluence that has traversed the subject is generally constant for all angular positions of the x-ray source, the means for varying the x-ray energy fluence impinging on the subject including:  a radiation detection means for detecting the radiation that has traversed the subject;  a means for reconstructing image representations from the radiation detected by the detectors.  a means for determining an average x-ray energy fluence detected by the radiation detection means for each of a plurality of the angular positions of the radiation source;  a means for determining a variation in the x-ray energy fluence at each angular position; and,  a means for determining an angular velocity speed correction for making the average x-ray energy fluence substantially constant at each angular position, corrected angular velocities being stored in the look-up table in conjunction with the corresponding angular positions.  an examination region for receiving a subject;  an x-ray tube in which x-rays are generated by a tube current flowing from a cathode to an anode;  a motor means for rotating the radiation source around the examination region, such that average radiation attenuation by the subject varies with an angular position of the radiation source therearound;  a means for varying the x-ray energy fluence of radiation impinging upon the subject in accordance with the angular position of the radiation source such that an average x-ray energy fluence that has traversed the subject is generally constant for all angular positions of the x-ray source, the means for varying the x-ray energy fluence including a means for adjusting a bias on a grid between the cathode and the anode to vary the tube current;  a radiation detection means for detecting the radiation that has traversed the subject;  a means for reconstructing image representations from the radiation detected by the detectors.  an examination region for receiving a non-cylindrical subject;  an x-ray tube in which x-rays are generated by a tube current from a cathode striking a target;  a motor means for rotating the radiation source around the examination region, such that average radiation attenuation by the subject varies with an angular position of the radiation source therearound;  an angular position resolving means for determining a current angular position of the x-ray tube relative to the subject;  an x-ray tube current varying means connected with the angular position resolving means for varying the x-ray tube current such that the x-ray energy fluence of radiation impinging upon the subject in accordance with the angular position of the radiation source such that an average x-ray energy fluence that has traversed the subject is generally constant for all angular positions of the x-ray source;  a radiation detection means for detecting the radiation that has traversed the subject;  a means for reconstructing image representations from the radiation detected by the detectors.  a means for determining a variation in an average of the x-ray fluence detected at a plurality of the angular positions; and,  a means for determining tube current corrections for making the average x-ray energy fluence substantially constant, the tube current corrections being stored in the look-up table in conjunction with the corresponding angular positions.  a source of penetrating radiation which rotates relative to a subject that has different radiation attenuation properties at different angular directions therethrough;  a means for detecting radiation generated by the radiation source which has been transmitted through the subject;  a means for determining a current angular position of the radiation source relative to the subject;  a means for adjusting an energy fluence of the radiation which impinges upon the subject between each sampling of the radiation detection means in accordance with the current relative angular position of the radiation source and the radiation attenuation properties of the subject along the angular direction from the current radiation source position through the subject such that an average energy fluence of radiation that traverses the subject is held substantially constant for all angular positions of the radiation source.  a source of a fan-shaped swath of radiation;  a means for rotating the fan-shaped swath of radiation relative to a subject whose radiation absorbency varies with a relative angular position between the fan-shaped swath and the subject  a radiation detection means for detecting the radiation which has traversed the subject;  a means for selectively adjusting at least one of an amount of radiation impinging upon the subject and a rotation speed of the radiation swath in accordance with the sampled radiation and the relative angular position between the swath and the subject to adjust for the varying radiation absorbency of the subject with angular position between the fan-shaped swath and the subject such that an average energy fluence of the radiation which has traversed the subject and is detected by the detectors remains constant.  generating a swath of radiation which is directed to pass through the subject;  rotating the fan-shaped swath relative to the subject such that the fan-shaped swath passes through the subject from a plurality of angular orientations;  repeatedly sampling the radiation which has passed through the patient at different relative angles;  selectively adjusting at least one of an amount of radiation impinging upon the subject and a rotation speed of the radiation swath in accordance with the sampled radiation and the relative angular position between the swath and the subject.  rotating the swath of radiation with a constant x-ray energy fluence around the subject at a constant angular velocity;  determining an average x-ray energy fluence of radiation sampled across the swath at each of a plurality of angular positions;  determining a deviation in the average sampled x-ray energy fluence at the angular positions;  determining a selected angular velocity for each angular position to hold the average sampled x-ray energy fluence substantially constant at the angular positions. 2. The scanner as set forth in claim 1 wherein the means for varying the x-ray energy fluence of radiation impinging on the subject includes a means for adjusting an x-ray energy fluence output of the radiation source as a function of angular position of the radiation source. 3. The scanner as set forth in claim 1 wherein the radiation source includes an x-ray tube in which x-rays are generated by a tube current flowing from a cathode to an anode and wherein the means for varying the x-ray energy fluence includes a means for varying the tube current. 4. A CT scanner comprising: 5. The scanner as set forth in claim 4 further including an angular position resolving means for determining a current angular position of the radiation source relative to the subject, the angular position resolving means being operatively connected with the speed designating means. 6. The scanner as set forth in claim 4 wherein the speed designating means includes a look-up table. 7. The scanner as set forth in claim 6 further including a means for calculating look-up table values, the look-up table value calculating means including: 8. A CT scanner comprising: 9. A CT scanner comprising: 10. The scanner as set forth in claim 9 wherein the tube current varying means includes a look-up table means which correlates angular position and radiation variations. 11. The scanner as set forth in claim 10 further including a means for calculating look-table values, the look-up table value calculating means including: 12. A radiation examination means comprising: 13. The system as set forth in claim 12 further including an image reconstruction means connected with the radiation detecting means for reconstructing an image representation from the detected radiation. 14. A CT scanner comprising: 15. A method of generating an image representation of a subject of non-uniform cross-section, the method comprising: 16. The method as set forth in claim 15 wherein the adjusting step includes adjusting a rotational speed of the swath of radiation relative to the patient such that an average x-ray energy fluence of the radiation sampled across the swath at each relative angular position is substantially constant. 17. The method as set forth in claim 16 wherein the radiation which has passed through the subject is sampled at constant intervals. 18. The method as set forth in claim 16 further including determining a selected angular velocity for each angular position including: 19. The method as set forth in claim 15 wherein the step of generating the swath of radiation includes directing a tube current from a cathode to an anode of an x-ray tube, interaction of the tube current and the anode generating the radiation and wherein the adjusting step includes adjusting the tube current in accordance with angular position. 20. The method as set forth in claim 19 wherein the step of adjusting the tube current includes adjusting a bias on a grid between the cathode and the anode.