Abstract:
A remote controller is provided. The remote controller includes an input interface; a communicator; a storage; and a processor configured to: transmit, to the display apparatus via the communicator, a signal indicating control instructions based on a user input received through the input interface, receive, from the display apparatus via the communicator, information related to a first control code for controlling a first source device of the at least one source device based on the control instructions, identify the first control code from a first control code set stored in the storage based on the information related to the first control code, and control the communicator to transmit a first control signal indicating the first control code to the first source device.
Abstract:
An electronic apparatus including a proximity sensor is provided. The apparatus includes a touch sensor configured to sense a touch trace of the object in response to a user gesture of touching the electronic apparatus using an object and moving the touched point being input, a proximity sensor configured to sense a motion of the object before and after the touch, and a controller configured to change the touch trace based on a direction of motion of the object before and after the touch, and recognize the user gesture according to the changed touch trace. Accordingly, the touch trace may be changed and thus, an accurate control operation may be performed.
Abstract:
An image capturing apparatus includes: a sensor; a camera; an image processor; a first communicator operatable in one between a first status and a second status that consumes less power than the first status; a second communicator having a lower data transmission rate than the first communicator; and a controller configured to make a request for whether to take an image with the camera to an external apparatus through the second communicator if the sensor senses an object while the first communicator is in the second status, control the image processor to generate the data of the image taken by the camera in response to an instruction received by the second communicator, and control the first communicator to switch over to the first status so that the data of the image are transmitted to the external apparatus through the first communicator.
Abstract:
A display device is disclosed. A display device according to an embodiment of the present disclosure comprises: a display disposed on the front surface of the display device; a front camera for capturing a user located in front of the display device; a rear camera for capturing a wall surface positioned behind the display device; a sensor unit for measuring the distance between the display device and the wall surface; and a processor for determining a position of the user with regard to the captured image of the user, and for controlling the display to display an image corresponding to a partial area of the wall surface existing in the direction in which the display device is located with respect to the position of the user in the captured images of the wall surface.
Abstract:
An image processing system, an image display apparatus, an image transmission apparatus, a method for controlling the image display apparatus, and a method for controlling the image transmission apparatus are provided. The image processing system including an image display apparatus in operative communication with an image transmission apparatus includes an image transmission apparatus configured to transmit image data to the image display apparatus by wireless communication and an image display apparatus configured to receive image data from the image transmission apparatus by wireless communication and display the image data. In response to being turned on, the image display apparatus may transmit a first control signal for booting up the image transmission apparatus to the image transmission apparatus, and in response to the image transmission apparatus being booted up, transmit a second control signal for changing a state of the booted up image transmission apparatus to a power saving state based on previous viewing information stored in the image display apparatus.
Abstract:
A display apparatus (100) including a display (110) configured to display a pointing object (10), a communicator (130) configured to perform communication with a remote control device (200) which recognizes a movement and transmits a signal corresponding to the recognized movement, and a processor (120) configured to control a moving state of the pointing object based on the signal received from the remote control device. The processor controls the moving state of the pointing object according to a relative coordinate method for a first area where a screen of the display is included, and controls the moving state of the pointing object according to an absolute coordinate method for a second area outside the first area.
Abstract:
A user terminal (100) for controlling a display device (200) and a control method thereof are provided. The user terminal includes a communicator (120) configured to communicate with the display device, a main controller (131) configured to control the user terminal, and a sub-controller (132) configured to control the user terminal while the user terminal is in a sleep mode, wherein the sub-controller is configured to change a mode of the user terminal from the sleep mode to a standby mode in response to the communicator receiving environmental change detection information or user detection information from the display device while the user terminal is in the sleep mode.