An image capture device continuously generates time-lapse video frames to be included within a time-lapse video using a dynamic time-lapse video frame rate, with the value of the dynamic time-lapse video frame rate changing based on activation of a trigger to change the dynamic time-lapse video frame rate. The dynamic time-lapse video frame rate alternates between different values.

Systems, apparatuses, and/or methods may define a priority of image memory traffic based on image sensor protocol metadata. For example, a metadata identifier may identify image sensor protocol metadata corresponding to an image sensor physical layer and/or an image sensor link layer. Moreover, a prioritizer may define a priority of the image memory traffic based on the image sensor protocol metadata. The priority may be used to control client access to dedicated memory and/or to shared memory.

A method and an apparatus for determining a photographing delay time and a photographing device are disclosed. The method includes: controlling the photographing device to form, according to a preset imaging cycle, an image of a photographed object, and storing an imaged photo; each time photographing is initiated, displaying the imaged photo and receiving a first operation instruction entered by a user; determining, according to the first operation instruction, a corresponding target imaged photo; calculating a difference between an initiation moment of each time of photographing and an imaging moment of the corresponding target imaged photo, to obtain a delay time corresponding to a single time of photographing; and calculating an average value of delay times corresponding to at least two times of photographing, where the average value may be used as a standard delay time caused by an operation of the user on the photographing device.

A write control unit selects, in a row or column direction, N storing units from N×N storing units for storing pixel data of N (N≧2) read lines of image pickup devices and writes the data in sets of N pixels thereto, and switches a selection direction for selecting the storing units each time writes of the data of N lines are completed. A read control unit selects, in a direction different from the selection direction, N storing units and starts parallel reads of the data of N lines during writes of the data of every N-th line. Each storing unit to be first selected in the writes of the data of every N-th line performs write and read operations using different terminals, and each of the remaining storing units performs write and read operations using a common terminal.

Synchronization of simultaneously captured media in a multi-camera system is performed using a consistent file structure within the cameras. A primary camera receives a bitmap describing the file and folder utilization of each of one or more secondary cameras. The primary camera selects a folder number and file position number that is commonly available across all cameras. The primary camera directs the secondary cameras to store subsequently simultaneously captured media content at the selected file number and folder position number. During post-processing, simultaneously-captured content is accessed based on common folder numbers and file position numbers. A post-processing system compares a timestamp associated with each content file in a group with matching folder numbers and file position numbers to identify false positive groupings.

An image capture device continuously generates time-lapse video frames to be included within a time-lapse video using a time-lapse video frame rate, with the value of the time-lapse video frame rate changing based on activation of a trigger to change the time-lapse video frame rate.

An image capture device continuously generates time-lapse video frames to be included within a time-lapse video using a time-lapse video frame rate, with the value of the time-lapse video frame rate changing based on activation of a trigger to change the time-lapse video frame rate.

Provided is an information processing device that includes a first information acquisition section that acquires first information on the basis of a still image in a frame corresponding to a predetermined time point, from among a plurality of images of a biological sample captured in a time-series manner, a second information acquisition section that acquires second information on the basis of an interframe change of the plurality of images in a predetermined period, and a determination section that determines an event regarding the biological sample, using the first information and the second information.

An image capture device continuously generates time-lapse video frames to be included within a time-lapse video using a time-lapse video frame rate, with the value of the time-lapse video frame rate changing based on activation of a trigger to change the time-lapse video frame rate.

[Object] To more precisely determine an event regarding a biological sample. [Solution] An information processing device according to the present technology includes: a first information acquisition section that acquires first information on the basis of a still image in a frame corresponding to a predetermined time point, from among a plurality of images of a biological sample captured in a time-series manner; a second information acquisition section that acquires second information on the basis of an interframe change of the plurality of images in a predetermined period; and a determination section that determines an event regarding the biological sample, using the first information and the second information.