Provided are a mobile terminal having a plurality of display areas and a control method thereof. The mobile terminal includes a main body having a front surface, a side surface, and a rear surface, a display disposed on the front surface and extending from the front surface to the side surface, a wireless communication unit wirelessly communicating with an external device, and a controller receiving identification information of the external device in response to recognition of the external device, and controlling information output on the touch screen on the basis of the received identification information, wherein, on the basis of the identification information of the external device.

According to an aspect of the disclosure, an information processing apparatus comprising a communication circuit and a control circuit is provided. The control circuit transmits reduced image data of captured image data, to a first external apparatus through the communication circuit; receives, from the first external apparatus, a result of evaluation processing applied to the reduced image data; on the basis of the result of the evaluation processing, determines whether to apply image processing to the captured image data corresponding to the reduced image data, by a second external apparatus; transmits the captured image data that is determined to be applied the image processing, to the second external apparatus through the communication circuit; and receives, from the second external apparatus, a result of the image processing applied to the captured image data.

An unmanned aerial vehicle (UAV) logs first UAV information at a first frequency. The UAV triggers a camera associated with the UAV to capture an image. In response to triggering the camera to capture the image, the UAV logs second UAV information at a second frequency that is higher than the first frequency. A device that is separate from the UAV identifies a location of the UAV corresponding to the image based on a capture timestamp of the image received from the camera, the first UAV information, and the second UAV information. The device generates a geo-rectified imagery based on the image and the location of the UAV.

Many embodiments can comprise a system. The system can comprise a processor and a memory coupled to the processor. The memory can include instructions that, when executed by the processor, cause the processor to: determine a direction of gravity in each image of a sequence of images around an object; estimate a center of mass of the object in each image of the sequence of images using the direction of gravity and dimensions of the object; stabilize each image in the sequence of images using the center of mass; and generate a 360 degree display of the object using each image in the stabilized sequence of images. Other embodiments are disclosed herein.

A technique for reducing a work load during introduction of a system in the system processing an image generated by a camera. An information processing apparatus includes at least an accumulation unit, a recommended setting determination unit, and a camera control unit. The accumulation unit accumulates a score obtained through an authentication process using an image in which a person is captured and a camera setting at which a camera generates the image in a storage area. The recommended setting determination unit determines a recommended setting for the camera on the basis of a correspondence relationship between the score and the camera setting. The camera control unit controls the camera on the basis of the recommended setting.

A method of collecting visual data using a mobile image capture device is provided. The method comprises the steps of: capturing image data with the mobile image capture device and associating time and location data with each image; and storing the image data and associated time and location data. The method further comprises monitoring the position and orientation of the image capture device. The method further comprises: defining an area surrounding or next to the location of the mobile image capture device; and identifying a characteristic of the defined area based on one or more of: the density of the image data in the area; the age of the image data in the area; and/or data demand values associated with locations within the defined area. The timing of capture of image data is based on the characteristic of the defined area.

Disclosed are a method of acquiring an image using a light-emitting element array and an apparatus therefor. The method of acquiring an image using a light-emitting element array includes reconstructing a first image from some images among source images, detecting a partial region containing a detection target object from the first image, acquiring partial-region images corresponding to the partial region from each of the source images, and reconstructing a second image from the partial-region images using the FPMP.

In some examples, a computing device can include a processor resource and a non-transitory memory resource storing machine-readable instructions stored thereon that, when executed, cause the processor resource to: instruct an imaging device to capture an input image, determine image properties of the input image, activate a portion of a plurality of light sources based on a physical location of the plurality of light sources and the determined image properties of the input image, and instruct the imaging device to capture an output image when the portion of the plurality of light sources are activated.

A video shooting method includes: enabling a camera function; determining a first video recording template in response to a first operation of a user, where the first video recording template includes a first example sample, a second example sample, and preset audio; maintaining a position of an electronic device and starting video recording in response to a second operation of the user; and automatically generating a synthetic video, where the synthetic video includes a first video clip, a second video clip, and the preset audio, the first video clip is a video clip generated in the first camera movement mode, and the second video clip is a video clip generated in the second camera movement mode. In this manner, a plurality of video clips obtained in various camera movement modes may be synthesized into a video configured with audio.

According to an aspect of the disclosure, an information processing apparatus comprising a communication circuit and a control circuit is provided. The control circuit transmits reduced image data of captured image data, to a first external apparatus through the communication circuit; receives, from the first external apparatus, a result of evaluation processing applied to the reduced image data; on the basis of the result of the evaluation processing, determines whether to apply image processing to the captured image data corresponding to the reduced image data, by a second external apparatus; transmits the captured image data that is determined to be applied the image processing, to the second external apparatus through the communication circuit; and receives, from the second external apparatus, a result of the image processing applied to the captured image data.