Provided is a processing apparatus including a processing unit that is connected to a data bus, and performs control involved with an image which is output by each of a plurality of image sensors connected to the data bus, through the data bus.

An image sensor, electronic device and method thereof that performs on-sensor multiresolution deep neural network (DNN) processing, such as for gesture recognition. The image data is transformed into first resolution type image data and second resolution type image data. Based on detecting the first resolution type image data includes a predetermined object, processing the second resolution type image data using the second resolution type image data as input into the second DNN.

A camera array, an imaging device and/or a method for capturing image that employ a plurality of imagers fabricated on a substrate is provided. Each imager includes a plurality of pixels. The plurality of imagers include a first imager having a first imaging characteristics and a second imager having a second imaging characteristics. The images generated by the plurality of imagers are processed to obtain an enhanced image compared to images captured by the imagers. Each imager may be associated with an optical element fabricated using a wafer level optics (WLO) technology.

Many embodiments can comprise a system. The system can comprise a processor and a memory coupled to the processor. The memory can include instructions that, when executed by the processor, cause the processor to: determine a direction of gravity in each image of a sequence of images around an object; estimate a center of mass of the object in each image of the sequence of images using the direction of gravity and dimensions of the object; stabilize each image in the sequence of images using the center of mass; and generate a 360 degree display of the object using each image in the stabilized sequence of images. Other embodiments are disclosed herein.

System and method for improving the shaving experience by providing improved visibility of the skin shaving area. A digital camera is integrated with the electric shaver for close image capturing of shaving area, and displaying it on a display unit. The display unit can be integral part of the electric shaver casing, or housed in a separated device which receives the image via a communication channel. The communication channel can be wireless (using radio, audio or light) or wired, such as dedicated cabling or using powerline communication. A light source is used to better illuminate the shaving area. Video compression and digital image processing techniques are used for providing for improved shaving results. The wired communication medium can simultaneously be used also for carrying power from the electric shaver assembly to the display unit, or from the display unit to the electric shaver.

An imaging device according to an embodiment of the present disclosure includes: a pixel array; and a sensitivity setting section. The pixel array includes a plurality of light-receiving pixels that is divided into a plurality of pixel lines. The plurality of pixel lines includes a first pixel line and a second pixel line that extend in a first direction and are provided side by side in a second direction. The plurality of light-receiving pixels each accumulates electric charge corresponding to an amount of received light and each has light-receiving sensitivity which is variable. The sensitivity setting section sets the light-receiving sensitivity of a second light-receiving pixel in a first period on the basis of a first pixel value corresponding to a result of accumulation in a first light-receiving pixel disposed at a first position in the first pixel line in the first direction. The second light-receiving pixel is disposed at the first position in the second pixel line in the first direction.

An image sensor comprises a plurality of pixels. Pixels are capable of detecting a change in an amount of light intensity and pixels are capable of detecting an amount of light intensity. In a first mode the sensor outputs data from the first one or more of the pixels. In a second mode the sensor outputs data from the second one or more of the pixels. At least one of the first mode and the second mode is selected by a processor based on at least one of a result of processing data output in the first mode and a result of processing data output in the second mode.

System and method for improving the shaving experience by providing improved visibility of the skin shaving area. A digital camera is integrated with the electric shaver for close image capturing of shaving area, and displaying it on a display unit. The display unit can be integral part of the electric shaver casing, or housed in a separated device which receives the image via a communication channel. The communication channel can be wireless (using radio, audio or light) or wired, such as dedicated cabling or using powerline communication. A light source is used to better illuminate the shaving area. Video compression and digital image processing techniques are used for providing for improved shaving results. The wired communication medium can simultaneously be used also for carrying power from the electric shaver assembly to the display unit, or from the display unit to the electric shaver.

Systems and techniques are described for controlling digital imaging field of view. A device's first image sensor captures a first image based on first light redirected by a light redirection element, and the device's second image sensor captures a second image based on second light redirected by the light redirection element. The device can modify the first image and second image using perspective distortion correction, and can generate a combined image with a large field of view by combining the first image and the second image. The light redirection element can include two prisms that have corners cut and polished to form edges, which can be coupled together and/or colored. A refractive index of the adhesive can be selected to minimize light noise in the combined image. A light-absorbent colorant can coat the interface between the edges of the prisms to minimize light noise in the combined image.

An imaging apparatus including: a first imaging element and a second imaging element, in which each of the first and second imaging elements includes: a plurality of pixels in a semiconductor substrate; a pixel separation wall; and a color filter above a light receiving surface of the semiconductor substrate that transmits light having a wavelength that is different between the first imaging element and the second imaging element, the pixel separation wall included in the first imaging element has a slit at a center of the first imaging element where the imaging apparatus is viewed from a side of the light receiving surface, and the pixel separation wall included in the second imaging element does not have a slit at a center of the second imaging element where the imaging apparatus is viewed from a side of the light receiving surface.