Devices, systems and methods for operating a rear-facing perception system for vehicles are described. An exemplary rear-facing perception system contains two corner units and a center unit, with each of the two corner units and the center unit including a camera module and a dual-band transceiver. A method for operating the rear-facing perception system includes pairing with a control unit by communicating, using the dual-band transceiver, over at least a first frequency band, transmitting a first trigger signal to the two corner units over a second frequency band non-overlapping with the first frequency band, and switching to an active mode. In an example, the first trigger signal causes the two corner units to switch to the active mode, which includes orienting the camera modules on the center unit and the two corner units to provide an unobstructed view of an area around a rear of the vehicle.

Media user interfaces are described, including user interfaces for accessing media controls or settings (e.g., accessing controls and/or settings to capture photos and/or videos to capture videos).

Embodiments of apparatus and method for operating a companion processing unit. In an example, an apparatus includes an application processor, a memory, and a companion processing unit. The apparatus also includes an image sensor. The application processor is configured to turn on the image sensor, perform a scene detection on an image received from the image sensor, and determine whether a scene category of the image is supported by the companion processing unit. In response to the scene category being supported by the companion processing unit, the application processor controls the companion processing unit to start a boot-up sequence corresponding to the scene category. The boot-up sequence enables the companion processing unit to enter a mission mode in which the companion processing unit is ready to receive and process image data from the image sensor and send processed image data to the application processor.

An image is analyzed, a scene of the image is recognized, imaging information regarding capturing in a case where the image is captured is acquired, and reproduction information in a case where the image is reproduced on a display is acquired. An image coincident with preference of a user of the imaging device from among images having the same scene is decided for each scene based on the reproduction information, and a preference parameter table in which the scene and imaging information of the imaging device in a case where the image coincident with the preference of the user is captured are stored in association with each other is created. Imaging information associated with a scene coincident with a scene of an image to be captured next by the user is selected from the preference parameter table, and an image is captured by using the imaging information.

An ingestible device comprising a capsule, a camera, an antenna, and a propulsion component id disclosed. The camera can capture images of various in vivo environments as the ingestible device traverses the gastrointestinal tract, and these images can be wirelessly transmitted to an electronic device located outside of the living body. The images may be transmitted to the electronic device for review by an operator responsible for controlling the ingestible device.

An image recording apparatus includes a recording control unit that records a captured image acquired by the camera image acquisition unit in an image file for each of front cameras, and the degree-of-importance determination unit that determines a degree of importance of each of the plurality of image files. The recording control unit continues to record the captured image in a first image file, and executes close processing on the first image file at a timing based on a recordable duration time during which the captured image is continuously recorded in the first image file as an image file having the highest degree of importance when an electric power supply from a main power unit is cut off and the electric power supply source is switched by an electric power supply source switching unit.

A method including, at a camera, detecting motion in a field of view of the camera using a motion sensor, initiating processing of video data corresponding to the field of view in which the motion was detected, ceasing the processing after a first time duration, and determining a cool-off period for the motion sensor, the cool-off period having a second time duration based on the first time duration during which the camera does not detect motion using the motion sensor.

There is no risk of generating unnecessary events.

This imaging device comprises: a photoelectric conversion unit that has a plurality of photoelectric conversion elements for performing photoelectric conversion to generate an electric signal; a setting unit that sets a threshold value according to a noise level in a predetermined region among the plurality of photoelectric conversion elements; and a first detection unit that detects a detection signal in a case where the amount of change in the electric signal generated by the plurality of photoelectric conversion elements exceeds the threshold value.

This disclosure provides methods, devices, and systems for controlling motion-activated switches. The present implementations more specifically relate to relay controller that prevent motion-activated switches from turning off devices associated with an environment in which people are present. In some aspects, a motion-activated switch may include a relay controller coupled to a motion sensor, a camera, and a relay. The motion sensor outputs a motion trigger to the relay controller responsive to detecting motion in an environment. The motion trigger may cause the relay controller to acquire one or more images of the environment, via the camera, and selectively toggle the relay based on the acquired images. For example, the relay controller may close the relay responsive to identifying an image that includes an object of interest or may open the relay controller may open the relay responsive to identifying an image that does not include an object of interest.

A display control apparatus comprises a first display unit capable of being viewed via an eyepiece part, a second display unit capable of being viewed without the eyepiece part, an eye approach detection unit configured to detect an eye approaching to the eyepiece part, a sight line detection unit configured to detect a sight line of the eye that is viewing the first display unit via the eyepiece part, and a control unit configured to perform control to stop display of the first display unit if a sight line is not detected by the sight line detection unit within a first time period in a state where the eye approaching is being detected by the eye approach detection unit.