In examples, a relative skin reflectance of a captured image of a subject is determined. The determination selects from the captured image pixels of the subject's face and pixels in the background and normalizes luminance values of the skin pixels using the background pixels. The relative skin reflectance value is determined for the captured image, based on the normalized luminance values of the skin pixels. Optionally the relative skin reflectance value is qualified, based on thresholds of skin reflectance values, as suitable for biometric use. Optionally, a non-qualifying captured image is flagged and, optionally, another image is acquired, or the non-conforming image is processed further to transform the image into a suitable image for biometric analysis.

An object recognition system of the present disclosure includes: a light source section that irradiates a subject with dot light having a predetermined pattern; an event detection sensor that receives the dot light having the predetermined pattern reflected by the subject and detects, as an event, that a change in luminance of a pixel exceeds a predetermined threshold; and a signal processor that performs, in a case where a plurality of successive pixels in a pixel array section of the event detection sensor detects occurrence of an event in a certain period, processing of removing the event as noise, the plurality of successive pixels being equal to or greater than a predetermined number of pixels.

An object is to facilitate tone adjustment. For this object, an image processing system according to the present technology includes: a setting value determination unit that determines a setting value of a tone curve characteristic to be applied to a linear image signal having a linear characteristic according to an operation of a user; a tone adjustment unit that applies the tone curve characteristic based on the determined setting value to the linear image signal; and an image signal output unit that outputs, as an output image signal, an image signal after tone curve application obtained by application of the tone curve characteristic to the linear image signal. This configuration facilitates tone adjustment.

The various implementations described herein include methods, devices, and systems for implementing high dynamic range and automatic exposure functions in a video system. In one aspect, a method is performed at a video camera device and includes, while operating in a non-high dynamic range (HDR) mode: capturing first video data of a scene with the image sensor; determining whether a minimum number of pixels of the first video data meets one or more first color intensity criteria; and in accordance with the determination that the minimum number of pixels of the first video data meets the one or more first color intensity criteria, switching operation from the non-HDR mode to an HDR mode.

Provided are an image exposure adjustment method and apparatus, a device, and a medium. The image exposure adjustment method includes performing human body detection on a collected image; in a case where a human body is detected, segmenting the image to determine a foreground region and a background region in the image; determining a mask image according to the foreground region and the background region; and determining an exposure weight table according to the mask image, and performing exposure value adjustment on the image according to the exposure weight table.

To reduce increased consumption of the recording capacity of a recording medium to record generated image data, an imaging device includes an imaging element and an image processor that receive subject light through an opening in a housing and generate image data, a recording controller that records the image data generated by the imaging processor onto a memory card, a lens cover movable to a position at which the lens cover covers the opening to restrict the subject light from entering the imaging element, and a determiner that detects a position of the lens cover based on the image data generated by the imaging processor and determines whether the lens cover covers the opening. The recording controller stops recording the image data onto the memory card when the determiner determines that the lens cover covers the opening.

A conversion method for converting luminance of a video, including a luminance value in a first luminance range, to be displayed on a display apparatus includes: acquiring a first luminance signal indicating a code value obtained by quantization of the luminance value of the video; and converting the code value indicated by the acquired first luminance signal into a second luminance value determined based on a luminance range of the display apparatus, the second luminance value being compatible with a second luminance range with a maximum value smaller than a maximum value of the first luminance range and larger than 100 nit. This provides the conversion method capable of achieving further improvement.

An exposure control apparatus accepts a specification of a shutter speed, determines, based on the specified shutter speed, a first accumulation time in which an image sensor accumulates a charge for image capture during a live view, determines, based on the specified shutter speed, a second accumulation time in which the image sensor accumulates a charge for image capture when obtaining a still image; and controls the image sensor to accumulate a charge over the first accumulation time or the second accumulation time. The accumulation time that can be set in the image sensor differs between during the live view and when obtaining a still image, and the first determination unit varies a method of determining the first accumulation time according to whether or not the specified shutter speed is longer than a predetermined shutter speed.

The imaging apparatus according to the present invention includes: a first operation unit having a plurality of buttons corresponding to setting items of imaging conditions, and capable of adjusting the setting items according to operation; and a second operation unit capable of performing a rotating operation and a depressing operation and setting conditions related to the setting items according to operation.

An electronic apparatus comprises an image sensor including a first pixel group and a second pixel group, and capable of actuating the pixel groups with the same or different shooting conditions; a controller that switches between a first actuation control of actuating the first and second pixel groups with the same shooting conditions and a second actuation control of actuating the first and second pixel groups with different shooting conditions; a detector that detects flicker based on a signal read out from the image sensor; and a determination unit that determines whether or not the detector can detect flicker based on a signal read out from the image sensor by the second actuation control. If the determination unit determines affirmative, the controller controls to actuate the second pixel group with the shooting conditions for flicker detection in the second actuation control.