An image capturing device includes an imaging lens, an image capturing device main body, a first detection unit that detects a shake amount of the imaging lens, a second detection unit that detects a shake amount of the image capturing device main body, a first driving unit that performs image shake correction by a correction lens based on a detection result of the first detection unit, a second driving unit that performs image shake correction by the image capturing device main body based on a detection result of the second detection unit, a finder that is used for observing an optical image transmitting through the imaging lens, a reception device that receives an image capturing instruction of the optical image, and a CPU and a CPU that perform, in an optical view mode in which the optical image is observed by the finder, a control of causing each of the first detection unit and the second detection unit to detect the shake amount and causing only the first driving unit to perform image shake correction except for a case where the image capturing instruction is being received.

An image stabilization apparatus comprises: a first obtaining unit that obtains orientation information of an image capturing apparatus; a determining unit that, on the basis of the orientation information, determines a reference position of an image sensor included in the image capturing apparatus; and a calculating unit that calculates a correction amount for performing image stabilization by moving a position of the image sensor from the reference position in a plane intersecting with an optical axis. The reference position is different between when the orientation information indicates that the image capturing apparatus is in a first orientation and when the orientation information indicates that the image capturing apparatus is in a second orientation.

An imaging device includes an optical system including a plurality of lenses, an imaging element that images a subject image formed by the optical system, a shake detector that detects a shake of the imaging device, a lens driving controller that moves one of the plurality of lenses on a plane perpendicular to an optical axis based on an output signal from the shake detector to correct the shake, an imaging element driver that moves the imaging element on the plane perpendicular to the optical axis, an imaging controller that causes the imaging element to perform an imaging operation to obtain image data, and an image processor that performs a plural number of the imaging operations while moving the imaging element by a predetermined amount and synthesizes a plurality of obtained images to generate a synthesis image.

The present application provides an image processing circuit, a hand-held electronic device and a method for compensating for motion in an image received by an image sensor. The method includes sub-dividing an array of individual sensor cells from an image sensor adapted for receiving an image into at least a first sub-group and a second sub-group of sensor cells. Multiple timing signals are then generated for use in reading data out of the individual sensor cells of the image sensor. Data values are then read out from the individual sensor cells, wherein the data values from the individual sensor cells of the first sub-group of sensor cells are read out at a first rate using a first timing signal, and the data values from the individual sensor cells of the second sub-group of sensor cells are read out at a second rate using a second timing signal. The second rate is different than the first rate, where the sensor cells in the second sub-group of sensor cells are sampled more frequently than the sensor cells in the first sub-group of sensor cells. Motion of the image sensor is then determined from the data values read out of the individual sensor cells of the second sub-group of sensor cells. The image derived from the data values read out of the individual sensor cells of the first sub-group of sensor cells is then modified using the motion detected for producing a processed image.

An electronic device is provided. The electronic device includes a camera including a plurality of lenses, a display, and a processor, in which the processor is configured to display a plurality of icons corresponding to the plurality of lenses, based on first position information in a first photographing mode, and upon selection of a first icon by a first gesture from the plurality of icons in the first photographing mode, switch to a second photographing mode and display a zoom control region including a plurality of zoom levels having a first zoom level of a first lens corresponding to the first icon as a reference zoom level and the plurality of icons rearranged based on second position information corresponding to the plurality of zoom levels.

A control apparatus includes an acquisition unit configured to acquire information on an optical image stabilization performance, and a correction unit configure to provide an electronic image stabilization. The correction unit changes a gain of the correction unit based on information on a shutter speed and information on the image stabilization performance.

An apparatus includes a dynamic vision sensor (DVS) configured to output an asynchronous stream of sensor event data, and a complementary metal-oxide-semiconductor (CMOS) image sensor configured to output frames of image data. The apparatus further includes a hybrid feature handler configured to receive, as an input, one or more of a DVS output or a CMOS image sensor output, and provide tracked features to a visual-inertial simultaneous location and mapping (SLAM) pipeline performing inside-out device tracking, and a sensor scheduler configured to switch off the CMOS image sensor based on a current value of one or more CMOS control factors.

An image stabilization apparatus comprises: a first obtaining unit that obtains orientation information of an image capturing apparatus; a determining unit that, on the basis of the orientation information, determines a reference position of an image sensor included in the image capturing apparatus; and a calculating unit that calculates a correction amount for performing image stabilization by moving a position of the image sensor from the reference position in a plane intersecting with an optical axis. The reference position is different between when the orientation information indicates that the image capturing apparatus is in a first orientation and when the orientation information indicates that the image capturing apparatus is in a second orientation.

Some embodiments provide enhanced resolution imaging systems comprising: a mounting; an electro-optical image capture system; an angular jitter sensor system; an illumination source system; and an image capture control circuit is configured to: receive ling of sight displacement sensor data; obtain, during the capture frame, an angular displacement of the image capture system and monitor when the detected angular displacement of the image capture system, based on the sensor data, is beyond an angular displacement threshold envelope; and activate exposure of the image capture system to illumination, during the capture frame, when the detected angular displacement of the image capture system is within the angular displacement threshold envelope, and control a level of exposure of the image capture system to illumination, during the capture frame, when the detected angular displacement is not within the angular displacement threshold envelope.

A method for camera image stabilization includes a method for detecting blur in an image; measuring vibration in an apparatus which is obtaining said image; syncing the vibration with the camera shutter; and compensating shutter speed based on the blur compensation.