Imaging adjustment device and imaging adjustment method
First Claim
1. An apparatus, comprising:
- a memory, coupled to a processor, used to store executable modules, comprising;
an information processing module used to receive position information and depth information of an imaging lens group or an imaging receiver relative to an object, and obtain at least one imaging parameter corresponding to the imaging lens group according to the position information and the depth information, wherein the imaging lens group is used to image the object and comprises a plurality of subregions with at least one adjustable imaging characteristic, and wherein a subregion of the plurality of subregions is a first subregion of the imaging lens group physically independent from a second subregion of the imaging lens group, or is a third subregion determined by logically dividing the imaging lens group; and
a transmission module used to initiate sending the at least one imaging parameter, wherein each imaging parameter of the at least one imaging parameter corresponds to a part in a projection region of the object on the imaging lens group to correct a perspective deformation of the object.
1 Assignment
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Accused Products
Abstract
An imaging analysis apparatus includes: an information processing module, used to receive position and depth information of an imaging lens group and/or imaging receiver relative to an object, obtain an imaging parameter corresponding to the imaging lens group according to the position and depth information, and send the obtained imaging parameter. An imaging lens group, used to image an object, can include subregions having adjustable imaging characteristics; and a lens adjustment module, used to receive the imaging parameter of the imaging lens group, determine a subregion corresponding to the imaging parameter, and adjust the imaging characteristic of the subregion. An object can be imaged by using an imaging lens in which each subregion has adjustable imaging parameters, thereby adjusting and correcting a perspective deformation that occurs on the object, and preventing a perspective deformation from occurring on an image of the object acquired by a user.
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Citations
34 Claims
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1. An apparatus, comprising:
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a memory, coupled to a processor, used to store executable modules, comprising; an information processing module used to receive position information and depth information of an imaging lens group or an imaging receiver relative to an object, and obtain at least one imaging parameter corresponding to the imaging lens group according to the position information and the depth information, wherein the imaging lens group is used to image the object and comprises a plurality of subregions with at least one adjustable imaging characteristic, and wherein a subregion of the plurality of subregions is a first subregion of the imaging lens group physically independent from a second subregion of the imaging lens group, or is a third subregion determined by logically dividing the imaging lens group; and a transmission module used to initiate sending the at least one imaging parameter, wherein each imaging parameter of the at least one imaging parameter corresponds to a part in a projection region of the object on the imaging lens group to correct a perspective deformation of the object. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An apparatus, comprising:
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an imaging lens group used to image an object, and comprising a plurality of subregions with at least one adjustable imaging characteristic, wherein the plurality of subregions comprise first subregions of the imaging lens group that are physically independent from each other, or comprise second subregions obtained by logically dividing the imaging lens group; and a lens adjustment module comprising a processor, wherein, in response to receiving at least one imaging parameter of the imaging lens group from an imaging analysis apparatus, the processor of the lens adjustment module determines a subregion corresponding to an imaging parameter of the at least one imaging parameter, and adjust an imaging characteristic of the at least one adjustable imaging characteristic of the subregion, wherein each of the at least one imaging parameter corresponds to a part in a projection region of the object on the imaging lens group to correct a perspective deformation of the object. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. An imaging adjustment device, comprising:
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an imaging lens group used to image an object, and comprising a plurality of subregions with at least one adjustable imaging characteristic, wherein a subregion of the plurality of subregions of the imaging lens group is physically independent from another subregion of the plurality of subregions, or the subregion is obtained by logically dividing the imaging lens group; a processor; and a memory that stores executable instructions that, when executed by the processor, facilitate performance of operations, comprising; in response to receiving at least one imaging parameter of the imaging lens group from an imaging analysis apparatus, determining a subregion corresponding to an imaging parameter of the at least one imaging parameter, and adjusting an imaging characteristic of the at least one adjustable imaging characteristic of the subregion; and receiving position information and depth information of the imaging lens group or an imaging receiver relative to the object, obtaining at least one imaging parameter corresponding to the imaging lens group according to the position information and the depth information, and initiating sending the at least one imaging parameter, wherein each imaging parameter of the at least one imaging parameter corresponds to a part in a projection region of the object on the imaging lens group to correct a perspective deformation of the object.
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20. A method, comprising:
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receiving, by a device comprising a processor, position and depth information of an imaging lens group or an imaging receiver relative to an object; obtaining at least one imaging parameter corresponding to the imaging lens group according to the position and depth information, wherein the imaging lens group comprises a plurality of subregions with at least one adjustable imaging characteristic, and wherein a subregion of the plurality of subregions is a first subregion of the imaging lens group physically independent from a second subregion of the imaging lens group, or is a third subregion determined by logically dividing the imaging lens group; and sending the at least one imaging parameter, wherein, to correct perspective deformation of the object, each imaging parameter of the at least one imaging parameter corresponds to a part in a projection region of the object on the imaging lens group. - View Dependent Claims (21, 22, 23, 24, 25)
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26. A method, comprising:
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receiving, by a system comprising a processor, at least one imaging parameter of an imaging lens group output from an imaging analysis process, wherein the imaging lens group is used to image an object, and comprises a plurality of subregions with at least one adjustable imaging characteristic, and wherein a subregion of the plurality of subregions is a first subregion of the imaging lens group physically independent from a second subregion of the imaging lens group, or is a third subregion determined by logically dividing the imaging lens group; and determining a subregion corresponding to an imaging parameter of the at least one imaging parameter and adjusting an imaging characteristic, of the at least one adjustable imaging characteristic, of the subregion, wherein each imaging parameter of the at least one imaging parameter corresponds to a part in a projection region of the object on the imaging lens group for correction of a perspective deformation of the object. - View Dependent Claims (27, 28, 29, 30, 31, 32, 33)
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34. A computer readable storage device comprising executable instructions that, in response to execution, cause a device comprising a processor to perform operations, comprising:
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receiving position and depth information of an imaging lens group or an imaging receiver relative to an object; obtaining at least one imaging parameter corresponding to the imaging lens group according to the position and depth information; and sending the at least one imaging parameter, wherein each of the at least one imaging parameter corresponds to a part in a projection region of the object on the imaging lens group to correct perspective deformation of the object, the imaging lens group is used to image the object and comprises a plurality of subregions with at least one adjustable imaging characteristic, and wherein the subregions of the plurality of subregions of the imaging lens group are physically independent from each other, or the subregions are obtained by logically dividing the imaging lens group.
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Specification