System and method for viewing three-dimensional echographic data
First Claim
1. A 3D echography system, comprising a host ultrasonic echograph equipped with a TV monitor, a ultrasonic probe connected to said echograph, for analyzing a subject, first electronic acquisition means which include a control card for controlling azimuth scanning of the probe and a memory means for storing acoustic lines originating from the echograph, a workstation comprising a processing unit equipped with an echography memory for storing 3D echographic data on the subject as voxels, the probe, the first electronic means and the workstation being linked together by a bus, wherein the system further includes, for simulation of a 2D echography session or sessions, a dummy which simulates the subject and a 3D position and orientation sensor connected to the workstation, via a 3D position and orientation indicator, and second electronic display means contained in said workstation, which, at each position of said sensor to be manipulated as a 2D echographic probe simulator in proximity to the dummy, makes a sectional plane which the sensor defines towards and into the dummy correspond to an equivalent plane contained in the form of voxels in the echography memory, and which displays this plane on the screen of said TV monitor.
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Abstract
A system useful echographic examination simulation and training includes an ultrasonic echograph (31) equipped with a TV monitor (32), a 3D probe (33) for analyzing a subject, acquisition means (39), a memory card (42) storing the detected acoustic lines and a workstation (34) with central processing unit (35) and 3D echography memory (38). For reading the latter memory (38), the system includes a viewing device including a dummy (56) simulating the subject, and a 3D orientation sensor (52) connected to the workstation via a 3D coordinate indicator (54) and display means (29) of the workstation, which make the sectional plane which the sensor defines on the dummy correspond to the equivalent plane contained in the form of voxels in the echography memory (38), and display this plane on the screen of the TV monitor (32).
60 Citations
11 Claims
- 1. A 3D echography system, comprising a host ultrasonic echograph equipped with a TV monitor, a ultrasonic probe connected to said echograph, for analyzing a subject, first electronic acquisition means which include a control card for controlling azimuth scanning of the probe and a memory means for storing acoustic lines originating from the echograph, a workstation comprising a processing unit equipped with an echography memory for storing 3D echographic data on the subject as voxels, the probe, the first electronic means and the workstation being linked together by a bus, wherein the system further includes, for simulation of a 2D echography session or sessions, a dummy which simulates the subject and a 3D position and orientation sensor connected to the workstation, via a 3D position and orientation indicator, and second electronic display means contained in said workstation, which, at each position of said sensor to be manipulated as a 2D echographic probe simulator in proximity to the dummy, makes a sectional plane which the sensor defines towards and into the dummy correspond to an equivalent plane contained in the form of voxels in the echography memory, and which displays this plane on the screen of said TV monitor.
- 8. A method of 3D echography, comprising performing the acquisition of echographic lines distributed in a volume and passing through the point of application of a 3D echographic probe against a subject, converting these lines into the form of digital voxels identified in spherical coordinates, then converting the coordinates of the said voxels into Cartesian coordinates, and viewing said voxels in Cartesian coordinates, in the form of sectional planes, by simulation of a 2D echography session or sessions, by manipulation of a 3D position and orientation sensor, which simulates a 2D echographic probe against a dummy which is simulating said subject, a predetermined homothetic ratio being established between the size of the subject and that of the dummy, and addressing said voxels, in the form of sectional planes through the volume which said voxels represent, being proportional to the variations in displacement and in orientation of said sensor against said dummy.
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10. A method of generating a two-dimensional image from volumetric image data stored in a digital memory, which image data represents the interior of a subject of a particular type, said method comprising:
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placing a probe proximate the surface of an object which simulates said subject; sensing the position and orientation of said probe; and generating a two-dimensional image from the stored volumetric image data in dependence on the sensed position and orientation of said probe, which image represents the interior of the subject in a sectorial plane directed towards and into the subject from a position relative to the subject equivalent to the position of the probe relative to said object. - View Dependent Claims (11)
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Specification
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- Resources
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Current AssigneeUS Philips Corporation (Koninklijke Philips N.V.)
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Original AssigneeUS Philips Corporation (Koninklijke Philips N.V.)
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InventorsMallart, Raoul, Collet-Billon, Antoine
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Primary Examiner(s)JAWORSKI, FRANCIS J
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Application NumberUS08/308,050Time in Patent Office683 DaysField of Search128/660.070, 128/661.010, 128/916, 382/6US Class Current600/443CPC Class CodesA61B 8/00 Diagnosis using ultrasonic,...A61B 8/08 Detecting organic movements...A61B 8/4254 using sensors mounted on th...A61B 8/483 involving the acquisition o...B82Y 15/00 Nanotechnology for interact...G01S 15/8993 Three dimensional imaging s...Y10S 128/916 Ultrasound 3-D imaging
