Ultrasonographic device with weighted addition of data

摘要

A technique for an ultrasonographic device that can obtain respective rendering images for a plurality of regions of a 3D space is disclosed. According to the technique, a transmission beam former generates an ultrasonic beam for scanning a plurality of regions of interest and drives a matrix array. When a reception beam former generates a plurality of beam forming signals, respectively corresponding to the regions of interest, in accordance with reception signals of the matrix array generated by reflection wave from the respective regions of interest, a signal processing unit processes the beam forming signals and, with a viewpoint set for each of the regions of interest as a standard, generates respective rendering images of the plurality of regions of interest. A display unit displays the rendering images in parallel. A control unit carries out setting of the plurality of regions of interest and the viewpoints, by an external operation.

主权项

1. An ultrasonographic device comprising:
a matrix array in which ultrasonic transducers are arrayed at least two-dimensionally; a transmission beam former configured to drive said matrix array so as to generate an ultrasonic beam to scan a plurality of regions of interest of a preset 3D space; a reception beam former configured to generate a plurality of beam forming signals corresponding to respective regions of interest, of the plurality of regions of interest, in accordance with reception signals of said matrix array generated from reflection waves received from said plurality of regions of interest; a signal processing unit configured to process the plurality of beam forming signals generated by said reception beam former and to consequently generate respective rendering images of said plurality of regions of interest, with respective viewpoints set for each of said plurality of regions of interest as a standard to generate the respective rendering images; a display unit configured to display the respective rendering images generated by said signal processing unit, in parallel; and a control unit configured to set said plurality of regions of interest scanned by said transmission beam former, and said view points from which said signal processing unit generates the respective rendering images for each of said plurality of regions of interest in accordance with user input, wherein the control unit, to set the viewpoints, is further configured to select respective longitudinal cross-sections for each of the plurality of regions of interest in accordance with the user input and to set at least one viewpoint on a normal of each longitudinal cross-section selected, said signal processing unit is further configured to perform weighted addition on image data inside one of the regions of interest, wherein the weighted addition is performed respectively for sets of pieces of image data, the sets being located respectively on a plurality of straight lines, extending from the same viewpoint set on the normal of the selected longitudinal cross-section of the region of interest and through the region of interest, to generate a rendering image corresponding to the region of interest as viewed from the viewpoint, based on the sets of pieces of image data on which the weighted addition has been respectively performed, wherein with said transmission beam former, it is possible to carry out a scanning faster than a case of scanning the whole of said 3D space.