Imaging device and imaging method
First Claim
1. An imaging apparatus, comprising:
- an imaging lens module configured to project at least one image, directly to at least one eye of a user, of multiple objects at different distances from the apparatus, and comprising a plurality of subregions, wherein the imaging lens module comprises at least one lens, imaging parameters of each of the plurality of subregions are adjustable, and the plurality of subregions are subregions physically independent from each other, or logical subregions obtained by logically dividing one physically integral imaging lens module;
a processor, communicatively coupled to a memory that stores computer-executable instructions, that executes or facilitates execution of the computer-executable instructions to perform operations comprising;
obtain position information of the multiple objects relative to the apparatus;
determine the imaging parameters of multiple subregions of the imaging lens module corresponding to the multiple objects based on the position information of the multiple objects relative to the apparatus, wherein each of the multiple objects corresponds to one or more subregions of the multiple subregions; and
adjust, concurrently, the imaging parameters of the multiple subregions of the imaging lens module corresponding to the multiple objects respectively based on the imaging parameters.
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Accused Products
Abstract
An apparatus includes: an imaging lens module, used to image at least one object, and including a plurality of subregions having adjustable imaging parameters; a position sensing module, used to obtain position information of at least one object relative to an imaging apparatus; an information processing module, used to determine an imaging parameter of a corresponding subregion of the imaging lens module according to the position information of at least one object relative to the imaging apparatus; and a lens adjustment module, used to adjust the imaging parameter of the corresponding subregion of the imaging lens module according to the determined imaging parameter. The apparatus can adjust an imaging parameter for regions corresponding to a plurality of target objects at different distances in a visual field, and enable a user to watch objects at different distances in a visual field comfortably, thereby improving user experience.
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Citations
48 Claims
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1. An imaging apparatus, comprising:
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an imaging lens module configured to project at least one image, directly to at least one eye of a user, of multiple objects at different distances from the apparatus, and comprising a plurality of subregions, wherein the imaging lens module comprises at least one lens, imaging parameters of each of the plurality of subregions are adjustable, and the plurality of subregions are subregions physically independent from each other, or logical subregions obtained by logically dividing one physically integral imaging lens module; a processor, communicatively coupled to a memory that stores computer-executable instructions, that executes or facilitates execution of the computer-executable instructions to perform operations comprising; obtain position information of the multiple objects relative to the apparatus; determine the imaging parameters of multiple subregions of the imaging lens module corresponding to the multiple objects based on the position information of the multiple objects relative to the apparatus, wherein each of the multiple objects corresponds to one or more subregions of the multiple subregions; and adjust, concurrently, the imaging parameters of the multiple subregions of the imaging lens module corresponding to the multiple objects respectively based on the imaging parameters. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, 45)
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23. A method, comprising:
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obtaining, by a system comprising a processor, position information of multiple objects at different distances relative to an imaging apparatus; determining, by the system, imaging parameters of multiple subregions of an imaging lens module corresponding to the multiple objects based on the position information of the multiple objects relative to the imaging apparatus, wherein each of the multiple objects corresponds to one or more subregions of the multiple subregions, wherein the imaging lens module comprises at least one lens and is used to project at least one image, directly to at least one eye of a user, of the multiple objects, and further comprises a plurality of subregions, wherein the imaging parameters of each of the plurality of subregions are adjustable, and the plurality of subregions are subregions physically independent from each other, or logical subregions obtained by logically dividing one physically integral imaging lens module; and adjusting, by the system concurrently, the imaging parameters of the multiple subregions of the imaging lens module corresponding to the multiple objects respectively based on the imaging parameters. - View Dependent Claims (24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42, 43)
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44. A non-transitory computer readable medium comprising executable instructions that, in response to execution, cause a device comprising a processor to perform operations, comprising:
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obtaining position information of multiple objects relative to an imaging apparatus; determining imaging parameters of multiple subregions of an imaging lens module corresponding to the multiple objects based on the position information of the multiple objects relative to the imaging apparatus, wherein each of the multiple objects corresponds to one or more subregions of the multiple subregions, wherein the imaging lens module comprises at least one lens and is used to project at least one image, directly to at least one eye of a user, of the multiple objects, and further comprises a plurality of subregions, wherein the imaging parameters of each of the plurality of subregions is adjustable, and the plurality of subregions are subregions physically independent from each other, or logical subregions obtained by logically dividing one physically integral imaging lens module; and adjusting, concurrently, the imaging parameters of multiple subregions of the imaging lens module corresponding to the multiple objects respectively based on the imaging parameters. - View Dependent Claims (46, 47, 48)
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Specification