A camera module and array camera module with circuit board unit and photosensitive unit and manufacturing method thereof is provided. The array camera module includes two or more camera lenses and a circuit unit. The circuit unit includes a circuit board portion for electrically connecting two or more photosensitive sensors of the array camera module, and a conjoined encapsulation portion integrally encapsulated on the circuit board portion. The camera lenses are respectively arranged along the photosensitive paths of the photosensitive sensors.

A depth estimation system is described capable of determining depth information using two images from two cameras. A first camera captures a first image and a second camera captures a second image, both images including a plurality of light channels. A scan direction is selected from a plurality of scan directions. For the selected scan direction, along each of a plurality of scanlines, the system compares pixels from the first image to pixels from the second image. The comparison is based on calculating a census transform for each pixel in the first image and a census transform for each pixel in the second image. This comparison is used to determine a stereo correspondence between the pixels in the first image and the pixels in the second image. The system generates a depth map based on the stereo correspondence.

A depth estimation system is described capable of determining depth information using two images from two cameras. A first camera captures a first image and a second camera captures a second image, both images including a plurality of light channels. A scan direction is selected from a plurality of scan directions. For the selected scan direction, along each of a plurality of scanlines, the system compares pixels from the first image to pixels from the second image. The comparison is based on calculating a census transform for each pixel in the first image and a census transform for each pixel in the second image. This comparison is used to determine a stereo correspondence between the pixels in the first image and the pixels in the second image. The system generates a depth map based on the stereo correspondence.

An electronic device comprising: an acquisition unit configured to acquire an image set including a first image and a second image which have parallax from each other; and a control unit configured to perform control such that 1) in a case of a first display mode where the first image is to be displayed without displaying the second image, the first image is displayed on a display with an orientation of the first image being corrected to be directed to be in a predetermined orientation, and 2) in a case of a second display mode where both the first image and the second image are to be displayed, the first image and the second image are displayed on the display without an orientation of the first image and the second image being corrected to be directed to be in the predetermined orientation.

An electronic device comprising: an acquisition unit configured to acquire an image set including a first image and a second image which have parallax from each other; and a control unit configured to perform control such that 1) in a case of a first display mode where the first image is to be displayed without displaying the second image, the first image is displayed on a display with an orientation of the first image being corrected to be directed to be in a predetermined orientation, and 2) in a case of a second display mode where both the first image and the second image are to be displayed, the first image and the second image are displayed on the display without an orientation of the first image and the second image being corrected to be directed to be in the predetermined orientation.

The present disclosure relates to a camera system for a mobile device. The camera system comprises at least one camera which is freely mounted to the mobile device. Further, the camera system comprises at least one motion measurement unit configured to provide motion data of the camera and a data processing circuitry configured to determine a pose of the camera from the motion data.

The present disclosure relates to a camera system for a mobile device. The camera system comprises at least one camera which is freely mounted to the mobile device. Further, the camera system comprises at least one motion measurement unit configured to provide motion data of the camera and a data processing circuitry configured to determine a pose of the camera from the motion data.

An image processing apparatus includes an imaging unit that images a user and a real object, an analysis unit that analyzes an attitude of the real object based on imaging information captured by the imaging unit, and a control unit that controls display of an image related to the real object based on the attitude of the real object.

In order to improve imaging, in particular for low light intensities, an image recording device, in particular formed as an endoscope, is proposed, which comprises a single photon sensitive detector (SPSD) in addition to an image sensor, which uses photodiodes as light-sensitive cells, in order to respectively detect light from a common object area. With the help of the SPSD, additional image information can be obtained from the object area, to improve the image data recorded with the image sensor or to enhance it with additional image information, in particular with regard to a further spectral range, which is captured with the SPSD.

In some examples, the disclosure describes a device that includes a first imaging device coupled to a first side of an expandable display device, a second imaging device coupled to a second side of the expandable display device, an adjustment device to alter a size of the expandable display device to alter a distance between the first imaging device and the second imaging device, and a processor to: determine the distance between the first imaging device and the second imaging device based on a position of the adjustment device, capture first image data from the first imaging device and second image data from the second imaging device at the position of the adjustment device, and generate an image utilizing the first image data, the second image data, and the distance.