| 摘要 |
A computed tomography (CT) system has a composite scanning mode in which the x-ray focal spot undergoes a circular or more general motion in the vertical plane facing an object to be reconstructed. The x-ray source also rotates along a circular trajectory along a gantry encircling the object. In this way, a series of composite scanning modes are implemented, including a composite-circling scanning (CCS) mode in which the x-ray focal spot undergoes two circular motions: while the x-ray focal spot is rotated on a plane facing a short object to be reconstructed, the x-ray source is also rotated around the object on the gantry plane. In contrast to the saddle curve cone-beam scanning, the CCS mode requires that the x-ray focal spot undergo a circular motion in a plane facing the short object to be reconstructed, while the x-ray source is rotated in the gantry plane. Because of the symmetry of the mechanical rotations and the compatibility with the physiological conditions, this new CCS mode has significant advantages over the saddle curve from perspectives of both engineering implementation and clinical applications.
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