System and method for displaying an image indicating a positional relation between partially overlapping images
First Claim
1. A camera system comprising:
- a display monitor for displaying an image of an object, taken by an optical unit and stored in a frame buffer, on a screen of the monitor;
a reading unit for reading a preceding image and a current image among a plurality of partially overlapping images, from the frame buffer, the preceding image and the current image containing a common element;
a determining unit for determining a positional relation between the preceding image and the current image based on a common pattern derived from the common element in the two adjacent images read by the reading unit; and
a displaying unit for displaying, when a shutter switch is turned on, a displaying unit image comprising the concurrent display of (i) a boundary image indicating a boundary of the preceding image on the screen of the monitor at a shifted position according to the positional relation determined by the determining unit, and (ii) the current image, wherein one of the plurality of partially overlapping images is defined by the overlap of the boundary image and the current image.
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Abstract
A camera system includes a display monitor which displays an image of an object, taken by an optical unit, on a screen of the monitor. A reading unit reads a preceding image and a current image among a plurality of partially overlapping images, from a memory device, the preceding image and the current image containing a common element. A determining unit determines a positional relation between the preceding image and the current image based on a common pattern derived from the common element in the two adjacent images read by the reading unit. A displaying unit displays an image indicating a boundary of the preceding image on the screen of the monitor at a shifted position according to the positional relation determined by the determining unit, with the current image concurrently displayed on the screen of the monitor.
249 Citations
18 Claims
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1. A camera system comprising:
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a display monitor for displaying an image of an object, taken by an optical unit and stored in a frame buffer, on a screen of the monitor;
a reading unit for reading a preceding image and a current image among a plurality of partially overlapping images, from the frame buffer, the preceding image and the current image containing a common element;
a determining unit for determining a positional relation between the preceding image and the current image based on a common pattern derived from the common element in the two adjacent images read by the reading unit; and
a displaying unit for displaying, when a shutter switch is turned on, a displaying unit image comprising the concurrent display of (i) a boundary image indicating a boundary of the preceding image on the screen of the monitor at a shifted position according to the positional relation determined by the determining unit, and (ii) the current image, wherein one of the plurality of partially overlapping images is defined by the overlap of the boundary image and the current image. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 17)
a sensor for outputting an optical axis direction signal indicating a direction of an optical axis of the optical unit; and
a secondary determining unit for determining a positional relation between the preceding image and the current image based on a difference between the optical axis direction signal output by the sensor with respect to the current image and the optical axis direction signal output by the sensor with respect to the preceding image.
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6. The camera system according to claim 1, wherein the determining unit determines a displacement vector, indicating a positional relation between the preceding image and the current image, based on a difference between coordinates of a central pixel of a maximum-similarity common pattern in the preceding image and coordinates of a central pixel of the maximum-similarity common pattern in the current image, and wherein the displaying unit displays an image of the displacement vector on the screen of the monitor with the current image concurrently displayed on the screen of the monitor.
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7. The camera system according to claim 1, further comprising an image storing unit for storing an image of the object, taken by the optical unit, in an image memory, wherein the image storing unit stores auxiliary data, containing information indicating the positional relation from the determining unit, in the image memory, in addition to the image stored therein.
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8. The camera system according to claim 5, further comprising an image storing unit for storing an image of the object, taken by the optical unit, in an image memory, wherein the image storing unit stores auxiliary data, containing information indicating the positional relation from the secondary determining unit, in the image memory, in additional to the image stored therein.
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17. The camera system according to claim 1, wherein the displaying unit displays a displacement vector, corresponding to the positional relation between the preceding image and the current image, during movement of an optical axis of the optical unit.
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9. A divisional shooting method for a camera system in which at least two of partially overlapping images of an object, taken by an optical unit and stored in a frame buffer, are displayed, comprising the steps of:
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reading a preceding image and a current image among the partially overlapping images, from the frame buffer, the preceding image and the current image containing a common element;
determining a positional relation between the preceding image and the current image based on a common pattern derived from the common element in the two adjacent images; and
displaying, when a shutter switch is turned on, a displaying unit image comprising the concurrent display of (i) a boundary image indicating a boundary of the preceding image on a screen of a display monitor at a shifted position according to the positional relation determined by the determining step, and (ii) the current image, wherein one of the at least two partially overlapping images is defined by the overlap of the boundary image and the current image. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 18)
outputting an optical axis direction signal indicating a direction of an optical axis of the optical unit; and
determining a positional relation between the preceding image and the current image based on a difference between the optical axis direction signal output by the sensor with respect to the current image and the optical axis direction signal output by the sensor with respect to the preceding image.
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14. The method according to claim 9, wherein, in the determining step, a displacement vector, indicating a positional relation between the preceding image and the current image, is determined based on a difference between coordinates of a central pixel of a maximum-similarity common pattern in the preceding image and coordinates of a central pixel of the maximum-similarity common pattern in the current image, and wherein, in the displaying step, an image of the displacement vector is displayed on the screen of the monitor with the current image concurrently displayed on the screen of the monitor.
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15. The method according to claim 9, further comprising a step of storing an image of the object, taken by the optical unit, in an image memory, wherein auxiliary data, containing information indicating the positional relation from the determining unit, is stored in the image memory in addition to the image stored therein.
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16. The method according to claim 13, further comprising a step of storing an image of the object, taken by the optical unit, in an image memory, wherein auxiliary data, containing information indicating the positional relation from the secondary determining unit, is stored in the image memory, in additional to the image stored therein.
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18. The method according to claim 9, further comprising the step of displaying a displacement vector, corresponding to the positional relation between the preceding image and the current image, during movement of an optical axis of the optical unit.
Specification