Abstract: Provided are a high dynamic range (HDR) image capturing device, which is capable of capturing an HDR image optimized in various situations, and a control method therefor.

Abstract: Provided are a high dynamic range (HDR) image capturing device, which is capable of capturing an HDR image optimized in various situations, and a control method therefor.

Abstract: An electronic device including a first camera configured to capture a first front image; a display module configured to display a preview screen of the first front image obtained by the first camera; and a controller configured to receive a focus input designating an object included in the preview screen is to be focused, receive an input for performing continuous shooting, and control the first camera to capture a plurality of images in different zoom levels while maintaining a focus on the designated object intact based on the received input for performing the continuous shooting.

Abstract: Disclosed are a distributed video encoding/decoding method and a distributed video encoding/decoding apparatus, which can improve loss resilience and the quality of service. The distributed video encoding method first involves checking the state of a channel, determining a channel coding rate and the size of video data to be transmitted based on the checked state of a channel, determining the number of motion prediction performance steps based on the determined size of video data to be transmitted, encoding the video data to be transmitted by performing motion predictions according to the determined number of motion prediction performance steps, and channel-coding the encoded video data according to the determined channel coding rate. Accordingly, it is possible to improve loss resilience, even without additionally occupying network resources, thereby being capable of reducing the probability of decoding failure.

Abstract: An electronic device including a first camera configured to capture a first front image; a display module configured to display a preview screen of the first front image obtained by the first camera; and a controller configured to receive a focus input designating an object included in the preview screen is to be focused, receive an input for performing continuous shooting, and control the first camera to capture a plurality of images in different zoom levels while maintaining a focus on the designated object intact based on the received input for performing the continuous shooting.

Abstract: Disclosed are a distributed video encoding/decoding method and a distributed video encoding/decoding apparatus, which can improve loss resilience and the quality of service. The distributed video encoding method first involves checking the state of a channel, determining a channel coding rate and the size of video data to be transmitted based on the checked state of a channel, determining the number of motion prediction performance steps based on the determined size of video data to be transmitted, encoding the video data to be transmitted by performing motion predictions according to the determined number of motion prediction performance steps, and channel-coding the encoded video data according to the determined channel coding rate. Accordingly, it is possible to improve loss resilience, even without additionally occupying network resources, thereby being capable of reducing the probability of decoding failure.