An electronic device includes a display and a control unit. The display displays a plurality of images of a subject captured in a first image-capturing region of an image sensor. The control unit controls the image sensor so as to set image-capturing conditions for the first image-capturing region to be different from image-capturing conditions for a second image-capturing region of the image sensor by using an image selected from the plurality of images displayed on the display.

Provided are an information processing apparatus and an information processing method, an imaging apparatus, a mobile device, and a computer program that performs processing for controlling exposure of an in-vehicle camera. The information processing apparatus includes: a recognition unit that recognizes an image after an output signal of an image sensor is processed by a processing unit; and a control unit that controls at least one of imaging operation of the image sensor or processing operation in the processing unit on the basis of a recognition result of the recognition unit. The image sensor is mounted on a vehicle and used, and the recognition unit image-recognizes at least a surrounding vehicle or a road surface. Then, the control unit controls detection or development processing of the region of the surrounding vehicle or the road surface in the image.

The present technology relates to an information processing device, an information processing method, and a program for achieving improvement of detection accuracy of object detection using an inference model. At least either a parameter associated with imaging or a parameter associated with signal processing for an input image obtained by the imaging is changed according to a type of an object detected from the input image by an inference model that uses a neural network.

The present invention provides a method and system for acquiring operating parameters of a photographic lens, including: a control circuit and a storage unit that are configured in the photographic lens, where the control circuit acquires an operating parameter of the photographic lens by using a focusing ring position sensor, a zoom ring position sensor, an aperture ring position sensor, an accelerometer and a gyro sensor; and the control circuit is further connected to a camera or an external data reading device by using a communication interface, to output the operating parameter after data encapsulation in real time.

The present invention provides a method and system for acquiring operating parameters of a photographic lens, including: a control circuit and a storage unit that are configured in the photographic lens, where the control circuit acquires an operating parameter of the photographic lens by using a focusing ring position sensor, a zoom ring position sensor, an aperture ring position sensor, an accelerometer and a gyro sensor; and the control circuit is further connected to a camera or an external data reading device by using a communication interface, to output the operating parameter after data encapsulation in real time.

The present disclosure relates to an imaging apparatus, an exposure controlling method, a program, and an imaging device by which the restoration accuracy of an image can be improved. The imaging apparatus includes: an imaging device including a plurality of directive pixel output units that receives incident light from an imaging target entering without the intervention of any of an imaging lens and a pinhole and has a configuration capable of independently setting an incident angle directivity indicative of a directivity to an incident angle of the incident light and a non-directive pixel output unit that receives the incident light entering without the intervention of any of an imaging lens and a pinhole and does not have a configuration for providing the incident angle directivity; and an exposure controlling section configured to perform exposure control of the plurality of directive pixel output units on the basis of a non-directive detection signal that is a detection signal outputted from the non-directive pixel output unit. The present disclosure can be applied, for example, to an imaging apparatus that performs imaging without using an imaging lens.

Provided is a video creation method capable of obtaining a good image quality of a video obtained by extracting a part of a captured video even in a case in which a position of the extracted region is changed.

The video creation method according to an embodiment of the present invention includes a setting step of setting, in an imaging region of a first video having a first angle of view, a plurality of regions having a second angle of view smaller than the first angle of view, a designation step of designating, out of a first region and a second region included in the plurality of regions, the second region having a smaller appropriate exposure amount than the first region as a reference region, and a condition determination step of determining at least one condition of an exposure time in a case in which the first video is captured or a stop amount for an incidence ray on the imaging lens based on the appropriate exposure amount of the reference region.

In a multi-camera system (S), a control apparatus (1) includes: an acquisition unit (141) configured to acquire image data from each of a plurality of cameras (2); a generation unit (142) configured to generate three-dimensional shape information for a subject in a predetermined imaging area on the basis of a plurality of pieces of image data; a selection unit (143) configured to select at least a partial area of an area represented by the three-dimensional shape information of the subject as an area for calculating a control value of each of the plurality of cameras (2); a creation unit (144) configured to create mask information that is an image area used for control value calculation within the area selected by the selection unit (143) for each of the plurality of pieces of image data; and a calculation unit (145) configured to calculate the control value of each of the plurality of cameras (2) on the basis of the image data from each of the plurality of cameras (2) and the mask information.

An intelligent light supplement device, video apparatus, and an intelligent light supplement method are disclosed. The intelligent light supplement device includes a light source input module, a light source computing module, and a light source output module. The light source input module has a light sensing unit, which receives an ambient light source. The light source computing module is electrically connected to the light source input module, compares the ambient light source with a content of an illuminance comparison table to generate an illuminance control signal corresponding to an apparatus illuminance value, and/or compares the ambient light source with a content of a color temperature comparison table to generate a color temperature control signal corresponding to an apparatus color temperature value. The light source output module has a light emitting unit and drives the light emitting unit according to the illuminance control signal and/or the color temperature control signal.

An imaging apparatus includes an imaging element that incorporates a memory which stores image data obtained by imaging an imaging region at a first frame rate, and a first processor configured to output the image data at a second frame rate less than or equal to the first frame rate, and an imaging lens including a focus lens, in which the first processor is configured to generate combined image data based on the image data of the number of frames decided in accordance with a depth of field with respect to the imaging region out of the image data of a plurality of frames obtained by imaging the imaging region at different positions of the focus lens.