Techniques for device camera angle are described. In one or more implementations, a camera is mounted in a computing device at an angle based on an orientation of the computing device. For example, when the computing device is positioned on a surface and at an angle to the surface (such as when supp
Techniques for device camera angle are described. In one or more implementations, a camera is mounted in a computing device at an angle based on an orientation of the computing device. For example, when the computing device is positioned on a surface and at an angle to the surface (such as when supported by a kickstand), the mounting angle of the camera is such that an optical axis of the camera points forward, and not towards the surface. In at least some implementations, a computing device includes a camera that is physically adjustable to support different orientations of the computing device. In at least some implementations, images that are captured via a camera on a computing device can be manipulated based on an orientation of the computing device.
대표청구항▼
1. A computer-implemented method, comprising: ascertaining an orientation of a computing device that includes a kickstand, the orientation being based at least in part on an angle of the kickstand relative to the computing device; and manipulating image data captured via a sensor of a camera compone
1. A computer-implemented method, comprising: ascertaining an orientation of a computing device that includes a kickstand, the orientation being based at least in part on an angle of the kickstand relative to the computing device; and manipulating image data captured via a sensor of a camera component of the computing device, including:determining, based on the orientation, an image region that corresponds to a portion of the sensor;utilizing a portion of the image data from the image region to capture an image; andignoring a different portion of the image data captured outside of the image region. 2. A method as described in claim 1, wherein the orientation comprises an angle at which the computing device is positioned relative to gravity. 3. A method as described in claim 1, further comprising changing an angle of orientation of one or more portions of the camera component with respect to the computing device based on the orientation of the computing device. 4. A method as described in claim 3, wherein said changing comprises one of more of tilting, rotating, or panning the one or more portions of the camera component with reference to the computing device. 5. A method as described in claim 1, wherein said manipulating comprises applying one or more image data correction techniques to the image data. 6. A method as described in claim 1, wherein said ignoring is in response to determining that the different portion of the image data does not exceed a threshold signal-to-noise ratio. 7. A method as described in claim 1, wherein the image region corresponds to a portion of the sensor that receives light at a threshold light intensity. 8. A method as described in claim 1, further comprising: ascertaining a change in orientation of the computing device; anddetermining, based on the change in orientation, a different image region that corresponds to a different portion of the sensor to be used for capturing a different image. 9. An apparatus comprising: a computing device including a kickstand that is positionable to enable the computing device to be supported on a surface;a camera assembly operably attached at a fixed angle within the computing device at an angle such that when the computing device is supported via the kickstand on the surface, an optical axis of one or more components of the camera assembly is substantially parallel to the surface, the camera assembly including an image sensor for capturing an image; anda camera module configured to select a portion of the image sensor to be used to capture an image based on one or more of an angle of orientation of the computing device or an external light level. 10. An apparatus as described in claim 9, wherein the angle is such that when the computing device is supported via the kickstand on the surface, a field of view of one or more components of the camera assembly is substantially perpendicular to the surface. 11. An apparatus as described in claim 9, further comprising an input device that is attached to the computing device and that is rotatable to different positions with respect to the computing device, at least one of the positions corresponding to a typing position in which the computing device is supported by the kickstand and input can be provided to the computing device via the input device. 12. An apparatus as described in claim 9, further comprising: a display device disposed on a front surface of the computing device, andan input device that is attached to the computing device and that is rotatable to different positions with respect to the computing device, at least one of the positions corresponding to handheld position in which the input device is rotated against a rear surface of the computing device such that images in a field of view of one or more components of the camera assembly can be viewed via the display device and captured. 13. An apparatus as described in claim 9, wherein the computing device includes functionality to: determine an orientation of the computing device; andapply one or more of light enhancement or light correction to a portion of the image data based on the orientation. 14. An apparatus as described in claim 9, wherein the computing device includes functionality to: determine an orientation of the computing device; andperform image manipulation of an image captured via the camera assembly based on the orientation. 15. An apparatus as described in claim 9, wherein the one or more components of the camera assembly comprises a lens. 16. An apparatus comprising: a computing device;a display device disposed on a front surface of a computing device;an input device operably attached to the computing device and that is rotatable to support different orientations of the computing device, at least one of the orientations enabling the display device to be covered by the input device;a kickstand disposed on a rear surface of the computing device and configured to support the computing device on a surface;a camera assembly mounted to the computing device such that a field of view of the camera assembly faces away from the display device, one or more components of the camera assembly being angled on the computing device based on an angle at which the kickstand is configured to support the computing device; anda sensor mechanism configured to detect an angle of the kickstand relative to the computing device; anda camera module configured to adjust one or more components of the camera assembly by one or more of panning or tilting the one or more components relative to the computing device and based on the detected angle of the kickstand relative to the computing device. 17. An apparatus as recited in claim 16, wherein the camera assembly is physically adjustable via one or more of tilting, rotating, or panning, to support image capture in different orientations of the computing device. 18. An apparatus as recited in claim 16, wherein the one or more components of the camera assembly are angled on the computing device such that when the kickstand supports the computing device on the surface, a field of view of the one or more components is substantially perpendicular to the surface. 19. An apparatus as recited in claim 16, wherein the computing device includes: functionality to ascertain an orientation of the computing device; andfunctionality to perform one or more of: adjusting the one or more components of the camera assembly based on the orientation of the computing device; ormanipulating image data captured via the camera component based on the orientation of the computing device. 20. An apparatus as recited in claim 19, wherein the functionality to ascertain an orientation of the computing device comprises functionality to determine an angle of the computing device with reference to gravity.
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