Computed tomography scanning apparatus and method with temperature compensation for dark current offsets
First Claim
1. In a CT scanning system having a radiation source for directing radiation through a region and an array of detectors for receiving radiation from the region while scanning the region and for generating detector signals indicative of the received radiation, a method of compensating for electrical currents that are generated by the detectors independently of radiation received by the detectors, said method comprising:
- generating a calibration relationship for the array of detectors, said generating comprising;
varying the temperature of the array of detectors,measuring the electrical currents generated by the detectors as the temperature of the detectors is varied,characterizing the variation in the electrical currents with temperature,using the variation in the electrical currents with temperature, generating a set of first detector offset signals to be applied to the detector signals generated while scanning the region;
after generating the calibration relationship, sensing a first temperature of the array of detectors;
measuring a first updated detector offset signal associated with the first temperature;
scanning the region to generate a detector signal;
sensing a second temperature of the array of detectors;
using the second temperature, the calibration relationship, and the first updated detector offset signal, adjusting the first updated detector offset signal to generate an adjusted detector offset signal such that the adjusted detector offset signal is based on the first updated detector offset signal, the second temperature and the calibration relationship; and
applying the adjusted detector offset signal to the detector signal.
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Accused Products
Abstract
A method and apparatus for performing CT scans of baggage being carried or loaded onto commercial aircraft are described. The CT baggage scanner of the invention includes numerous features which provide the system with high baggage throughput on the order of seven hundred bags per hour as well as improved image quality and accurate target detection. In one aspect, the scanner includes an adaptive image reconstruction window which identifies data collected from the field of view that are not related to the baggage being scanned. These unrelated data are excluded from the image reconstruction process, resulting in greatly reduced reconstruction time and increased baggage throughput. The invention also includes the capability of performing calibration "air scans" with objects such as the system conveyor in the field of view. Data gathered during the calibration scan are applied to a threshold, and data exceeding the threshold are assumed to be from X-rays that are unobstructed by objects in the field of view and are therefore used to perform the air calibration. The baggage scanner can also analyze scan data to identify shapes of objects, particularly, objects formed in the shape of a sheet. This greatly improves the ability of the system to detect sheet explosives. The system also compensates for detector dark currents and provides dark current offsets which can be dependent upon detector temperature.
102 Citations
12 Claims
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1. In a CT scanning system having a radiation source for directing radiation through a region and an array of detectors for receiving radiation from the region while scanning the region and for generating detector signals indicative of the received radiation, a method of compensating for electrical currents that are generated by the detectors independently of radiation received by the detectors, said method comprising:
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generating a calibration relationship for the array of detectors, said generating comprising; varying the temperature of the array of detectors, measuring the electrical currents generated by the detectors as the temperature of the detectors is varied, characterizing the variation in the electrical currents with temperature, using the variation in the electrical currents with temperature, generating a set of first detector offset signals to be applied to the detector signals generated while scanning the region; after generating the calibration relationship, sensing a first temperature of the array of detectors; measuring a first updated detector offset signal associated with the first temperature; scanning the region to generate a detector signal; sensing a second temperature of the array of detectors; using the second temperature, the calibration relationship, and the first updated detector offset signal, adjusting the first updated detector offset signal to generate an adjusted detector offset signal such that the adjusted detector offset signal is based on the first updated detector offset signal, the second temperature and the calibration relationship; and applying the adjusted detector offset signal to the detector signal. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A CT scanning system comprising:
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a radiation source for directing radiation through a region; an array of detectors for receiving radiation from the region while scanning the region and for generating detector signals indicative of the received radiation; and means for compensating for electrical currents that are generated by the detectors independently of radiation received by the detectors, said means for compensating for electrical currents comprising; means for generating a calibration relationship for the array of detectors, said means for generating (i) varying the temperature of the array of detectors, (ii) measuring the electrical currents generated by the detectors as the temperature of the detectors is varied,(iii) characterizing a variation in the electrical currents with temperature, and (iv) generating a set of first detector offset signals using the variation in the electrical currents with temperature; means for sensing a first temperature of the array of detectors after the calibration relationship is generated; means for measuring a first updated detector offset signal associated with the first temperature; means for sensing a second temperature of the array of detectors; means for adjusting the first updated detector offset signal using the second temperature, the calibration relationship and the first updated detector offset signal to generate an adjusted detector offset signal such that the adjusted detector offset signal is based on the first updated detector offset signal, the second temperature and the calibration relationship; and means for applying the adjusted detector offset signal to a detector signal to compensate for the electrical currents. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification
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- Resources
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Current AssigneeAnalogic Corporation
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Original AssigneeAnalogic Corporation
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InventorsCrawford, Carl R., Weedon, Hans J., Ruth, Christopher C.
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Primary Examiner(s)Church, Craig E.
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Application NumberUS08/948,928Time in Patent Office739 DaysField of Search378/98.8, 378/19, 250/370.09US Class Current378/19CPC Class CodesG01V 5/226 using tomography
