Title :
Computed tomography postacquisition data correction for system alignment errors
Author_Institution :
Agilent Technol., Loveland, CO, USA
fDate :
10/1/1999 12:00:00 AM
Abstract :
A critical issue in obtaining high-quality images from a computed tomography system is the mechanical alignment of the data acquisition system. This paper will compare two methods of measuring and correcting errors introduced into second-generation computed tomography data sets from misalignment of the system. Both of these methods use a projection data set from a complete scan of an object as a starting point. One method is an iterative method that looks at residual errors in selected portions of the reconstructed image. The other method requires that the centroids of the projection data coincide with the centroid of the object. It will be shown that the centroid registration algorithm can be used to accurately measure a number of important computed tomography system alignment parameters and is mathematically efficient. The residual error algorithm will be shown to give less satisfactory results
Keywords :
computerised tomography; data acquisition; image enhancement; image reconstruction; iterative methods; centroid registration algorithm; data acquisition system; iterative method; mechanical alignment; postacquisition data correction; projection data; projection data set; reconstructed image; residual error algorithm; residual errors; second-generation computed tomography; system alignment errors; Attenuation measurement; Computed tomography; Data acquisition; Density measurement; Detectors; Error correction; Image reconstruction; Object detection; Sensor arrays; X-ray imaging;
Journal_Title :
Instrumentation and Measurement, IEEE Transactions on
