A system control unit consecutively images a subject by driving based on a global shutter method, divides captured image data obtained by the imaging into a plurality of areas, and each time each area is generated, compares the generated area with the same area as the area in the captured image data generated by the imaging performed before the imaging, and detects a moving object from the area based on a result of the comparison. Based on a change in position of the detected moving object, the system control unit predicts a timing at which a trigger range TR set in the captured image overlaps with the moving object, and performs automatic imaging in a frame period that includes the timing.

An image pickup apparatus is configured to change a shooting process based on data on a shot image. The image pickup apparatus is configured to, when the image pickup apparatus changes the shooting process, assign greater weights to the data on the shot image based on an instruction from a user than to the data on the shot image automatically processed.

When a professional photographer or a general spectator acquires a video, position information of a specific target corresponding to a password is displayed in a timely manner.

An image processing apparatus includes display unit for displaying an image, selection unit for selecting a specific target from the image displayed on the display unit, designation information generation unit for generating designation information regarding the specific target selected by the selection unit, transmission unit for transmitting the designation information generated by the designation information generation unit and a predetermined password to a server, acquisition unit for acquiring position information of the specific target that is generated by the server on the basis of the designation information and the password from the server, and control unit for displaying additional information based on the position information of the specific target acquired by the acquisition unit on the display unit.

Methods, systems, and devices for operating a camera-enabled device are described. The camera-enabled device may emit, via a first light emitting source, an infrared light in a physical environment and determine time-of-flight information associated with a target object in the physical environment based on the emitted infrared light. The camera-enabled device may estimate one or more exposure settings based on the time-of-flight information, and emit, via a second light emitting source, a visible light in the physical environment based on the estimated one or more exposure settings. As a result, the camera-enabled device may capture an image of the physical environment based on the emitted visible light and the estimated one or more exposure settings.

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.

A region extracting section 31 extracts an image of a subject region and an image of a background region from a picked up image. A region-specific exposure control amount calculating section 33 calculates a subject region exposure control amount based on the image of the subject region and a background region exposure control amount based on the image of the background region. An exposure control amount calculating section 34 sets a contribution ratio of the subject region exposure control amount and a contribution ratio of the background region exposure control amount, and calculates an exposure control amount for use in exposure adjustment by mixing the subject region exposure control amount and the background region exposure control amount at a mixing ratio based on the set contribution ratios. A control section 55 controls a shutter speed, an aperture value, and other settings based on the exposure control amount calculated by the exposure control amount calculating section 34. Thus, regardless of whether or not flash light emission is to be performed, stable exposure is obtained with natural, balanced brightness ensured in the picked up image.

An imaging apparatus, an unmanned moving object, an imaging method, a system, and a program capable of favorably compositing a telephoto image group even in a case where an overlapping region between images of the telephoto image group is small, and accurately compositing a telephoto image regardless of a subject (scene) of a wide angle image are provided. An imaging apparatus (100) includes an imaging optical system, a directional sensor, a wide dynamic range image generation part (302) that generates a wide dynamic range wide angle image obtained by enlarging a dynamic range of a wide angle image, an image acquisition part (2a) that acquires a wide dynamic range wide angle image group and a telephoto image group configured with a telephoto image, a composition information acquisition part (2b) that acquires composition information to be used for compositing the telephoto image group by analyzing the acquired wide dynamic range wide angle image group, and a composite image generation part (2c) that generates an image in which the telephoto image group is composited, based on the composition information, information related to focal lengths of the wide angle optical system and the telephoto optical system, and the telephoto image group.

This application discloses a camera circuitry and a camera device. The camera circuitry includes a light collection circuit, an operational amplification circuit, an image processor and a first resistor. The light collection circuit is used to collect the brightness value and pass the collected brightness value through the operational amplification circuit and the first resistor are then transmitted to the image processor, and the image processor initiate imaging based on the brightness value. By providing an operational amplification circuit and a first resistor at the back end of the light collecting circuit, and adopting a continuous power supply mode for the light collecting circuit and the operational amplification circuit, the convergence speed of the light brightness value is effectively improved, so that accurate ambient light brightness values can be obtained faster to achieve normal camera functions.

This application discloses a camera circuitry and a camera device. The camera circuitry includes a light collection circuit, an operational amplification circuit, an image processor and a first resistor. The light collection circuit is used to collect the brightness value and pass the collected brightness value through the operational amplification circuit and the first resistor are then transmitted to the image processor, and the image processor initiate imaging based on the brightness value. By providing an operational amplification circuit and a first resistor at the back end of the light collecting circuit, and adopting a continuous power supply mode for the light collecting circuit and the operational amplification circuit, the convergence speed of the light brightness value is effectively improved, so that accurate ambient light brightness values can be obtained faster to achieve normal camera functions.

The invention relates to a measurement and/or sensor device, comprising a camera and a memory unit, and comprising data stored in the memory unit for controlling the measurement and/or sensor device, wherein the measurement and/or sensor device has a protection device for the memory unit, which protects the data stored in the memory unit against unauthorized alteration, and the data stored in the memory unit are adjustment data for adjustment of the measurement and/or sensor device.