Caliper for measuring objects in an image
First Claim
1. A system for performing and visualizing a measurement of an object viewed in an image computed from image data, the system comprising:
- an image unit for visualizing the image data in the image for displaying in a display;
a deployment unit for deploying a caliper in an image data space based on the location of the object in the image data space;
a caliper unit for visualizing the caliper in the image; and
a manipulation unit for manipulating the caliper in the image data space, wherein the manipulating is in response to a user input, and wherein the manipulating comprises at least one of scaling, translating, and rotating the caliper in the image;
and further wherein the scaling may be isotropic, anisotropic, or directional;
wherein the caliper comprises a first planar surface and a second planar surface substantially parallel to the first planar surface,wherein the deployment unit further comprises the first and second planar surfaces which are rotatable in three-dimensional space about a selected axis,wherein the measurement of the object is determined based on the distance between the planes of the first and second planar surface, andwherein the caliper unit visualizes the caliper by computing an image of the caliper using data from at least the deployment unit or the manipulation unit.
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Abstract
The invention relates to a system (300) for performing and visualizing a measurement of an object viewed in an image computed from image data, the system comprising an image unit (310) for visualizing the image data in the image for displaying in a display, a deployment unit (320) for deploying a caliper (21; 22; 23; 24) in an image data space based on the location of the object in the image data space, and a caliper unit (330) for visualizing the caliper (21; 22; 23; 24) in the image, wherein the caliper (21; 22; 23; 24) comprises a first planar surface (211) and a second planar surface (212) substantially parallel to the first planar surface (211), and wherein the measurement of the object is determined based on the distance between the planes of the first and second planar surface. Viewing the first and second planar surfaces of the caliper, visualized together with the measured object, improves the visualization of the measurement of an anatomical or pathological structure, because the first and second planar surface help a user to relate the measurement to the object—to see what is being measured. Advantageously, in an embodiment of the system (300), manually aligning the first and second planar surface with the object may also improve capturing the size of the object, because the system makes the measurement both easier to obtain and more accurate.
80 Citations
9 Claims
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1. A system for performing and visualizing a measurement of an object viewed in an image computed from image data, the system comprising:
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an image unit for visualizing the image data in the image for displaying in a display; a deployment unit for deploying a caliper in an image data space based on the location of the object in the image data space; a caliper unit for visualizing the caliper in the image; and a manipulation unit for manipulating the caliper in the image data space, wherein the manipulating is in response to a user input, and wherein the manipulating comprises at least one of scaling, translating, and rotating the caliper in the image; and further wherein the scaling may be isotropic, anisotropic, or directional; wherein the caliper comprises a first planar surface and a second planar surface substantially parallel to the first planar surface, wherein the deployment unit further comprises the first and second planar surfaces which are rotatable in three-dimensional space about a selected axis, wherein the measurement of the object is determined based on the distance between the planes of the first and second planar surface, and wherein the caliper unit visualizes the caliper by computing an image of the caliper using data from at least the deployment unit or the manipulation unit. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method of performing and visualizing a measurement of an object viewed in an image computed from image data, the method comprising:
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an image step for visualizing the image data in the image for displaying in a display; a deployment step for deploying a caliper in an image data space based on the location of the object in the image data space; a caliper step for visualizing the caliper in the image; and a manipulating step for manipulating the caliper in the image data space, in response to a user input, wherein the manipulating comprises at least one of scaling, translating, and rotating the caliper in the image; and further wherein the scaling may be isotropic, anisotropic, or directional; wherein the caliper comprises a first planar surface and a second planar surface substantially parallel to the first planar surface, wherein the first and second planar surfaces are rotatable in three-dimensional space about a selected axis, wherein the measurement of the object is determined based on the distance between the planes of the first and second planar surface, and wherein the caliper unit visualizes the caliper by computing an image of the caliper using data from at least the deployment unit or the manipulation unit.
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9. A computer program product embodied on a non-transitory computer readable medium, comprising instructions for performing and visualizing a measurement of an object viewed in an image computed from image data, the computer arrangement comprising a processing unit and a memory, the computer program product, after being loaded, providing said processing unit with the capability to carry out the tasks of:
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visualizing the image data in the image for displaying in a display; deploying a caliper in an image data space based on the location of the object in the image data space; visualizing the caliper in the image; and manipulating the caliper in the image data space, in response to a user input, wherein the manipulating comprises at least one of scaling, translating, and rotating the caliper in the image; and further wherein the scaling may be isotropic, anisotropic, or directional; wherein the caliper comprises a first planar surface and a second planar surface substantially parallel to the first planar surface, wherein the first and second planar surfaces are rotatable in three-dimensional space about a selected axis, wherein the measurement of the object is determined based on the distance between the planes of the first and second planar surface, and wherein the caliper unit visualizes the caliper by computing an image of the caliper using data from at least the deployment unit or the manipulation unit.
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Specification