3D Modeling from Multiple Projections: Parallel-Beam to Helical Cone-Beam Trajectory
نویسندگان
چکیده
Tomographic imaging is a technique for exploration of a cross-section of an inspected object without destruction. Normally, the input data, known as the projections, are gathered by repeatedly radiating coherent waveform through the object in a number of viewpoints, and receiving by an array of corresponding detector in the opposite position. In this research, as a replacement of radiographs, the series of photographs taken around the opaque object under the ambient light is completely served as the projections. The purposed technique can be adopted with various beam geometry including parallel-beam, cone-beam and spiral cone-beam geometry. From the process of tomography, the outcome is the stack of pseudo cross-sectional image. Not the internal of cross section is authentic, but the edge or contour is valid.
منابع مشابه
Scan and reconstruction of helical cone-beam industrial CT for big workpiece
In 3D cone-beam Industrial Computed Tomography (ICT), in addition to the case which the inspected workpiece is longer than the detector, it is common that the diameter of the detected workpiece is bigger than the width of the detector. The helical trajectory can solve the problem of long object scan, not the problem of big object scan. In this paper, a scan mode and reconstruction method is dis...
متن کاملA Reconstruction Algorithm for Helical Cone-Beam SPECT
Cone-beam SPECT provides improved sensitivity for imaging small organs like the brain and heart. However, current cone-beam tomography with the focal point traversing a planar orbit does not acquire sufficient data to give an accurate reconstruction. In this paper, we employ a data-acquisition method which obtains complete data for cone-beam SPECT by simultaneously rotating the gamma camera and...
متن کاملCone-Beam Iterative Recomtruction of a Segment of a Long Object
This study was performed to investigate the iterative reconstruction of a segment of a long object using cone-beam projections acquired with a practical-size detector. This reconstruction problem is commonly called the cone-beam long object problem. The cone-beam focal-point trajectories studied were either helical or helical with planar arcs. We assume that the long object is confined in a tal...
متن کاملCone-Beam Iterative Reconstruction of a Segment of a Long Object
This study was performed to investigate the iterative reconstruction of a segment of a long object using cone-beam projections acquired with a practical-sized detector. This reconstruction problem is commonly called the cone-beam long object problem. The cone-beam focal-point trajectories studied were either helical or helical with planar arcs. We assume that the long object is confined in a ta...
متن کاملA Generalized Model for 3D Compton Scatter in Single Photon Emission Computed Tomography Using Slice-by-Slice Blurring and Scatter Projection Rebinning
The modeling of 3D Compton scatter in SPECT is complicated by the use of a variety of collimator geometry. To date, effective and efficient modeling of 3D Compton scatter in parallel-beam SPECT has been made possible by Frey and Tsui [1], Zeng et al [2], and Bai et al [3]. For fan-beam and cone-beam SPECT, the model in [3] can effectively model first order 3D Compton scatter. But for varying-fo...
متن کامل