초록

Controlling operations of a display apparatus using a remote controller that detects user motion in a three-dimensional space and transmits the detected motion of the user in the three-dimensional space to thereby determine commands corresponding to the detected motion of the user.

대표청구항 ▼

1. A display apparatus comprising: a display;a signal receiver that receives a wireless signal from a remote controller, the wireless signal indicating a user motion detected by the remote controller in a three-dimensional space defined by a plurality of sensor arrays arranged in three axis directio

1. A display apparatus comprising: a display;a signal receiver that receives a wireless signal from a remote controller, the wireless signal indicating a user motion detected by the remote controller in a three-dimensional space defined by a plurality of sensor arrays arranged in three axis directions of the three-dimensional space, a plurality of sensors being disposed in each of the three axis directions such that a position of the user motion in the three-dimensional space corresponding to a location of sensors of the sensor arrays, the sensors detecting the user motion, the wireless signal includes on/off information of the plurality of sensors; anda controller that calculates a coordinate value for the user motion in the three-dimensional space using the on/off information of the plurality of sensors, and performs a control operation to control the display apparatus according to the calculated coordinate value indicating the user motion in the three-dimensional space,wherein the controller displays a three-dimensional GUI, the three-dimensional GUI comprising a plurality of menus in a plurality of planes in the three-dimensional space, each plane having a menu therein, and the controller is configured to change a display status of the three-dimensional GUI in accordance with the user motion relative to the plane having the menu to be selected. 2. The display apparatus of claim 1, wherein the controller controls to change a GUI displayed on the display according to attributes of the user motion of the three-dimensional space detected by the remote controller and received in the wireless signal from the remote controller, andwherein the attributes of the user motion comprise at least one of a motion direction, a motion distance, a motion speed, and a motion pattern. 3. The display apparatus of claim 1, wherein the controller moves a cursor displayed on a GUI represented in two dimensions according to a user motion of two axis directions in the three-dimensional space, and selects an item of the GUI pointed to by the cursor according to a user motion of a remaining axis direction other than the two axis directions. 4. The display apparatus of claim 3, wherein, when the item of the GUI is selected, the controller adjusts a setting value of the item according to user motion of one axis direction in the user motion of the three axis directions. 5. The display apparatus of claim 4, wherein, when the item is a volume control menu and the volume control menu is selected, the controller increases a volume of the display apparatus as the user motion of the one axis direction moves in a first direction, and decreases the volume of the display apparatus as the user motion of the one axis direction moves in a second direction that is opposite the first direction. 6. The display apparatus of claim 4, wherein, when the item is a channel change menu and the channel change menu is selected, the controller increases a channel of the display apparatus as the user motion of the one axis direction moves in a first direction, and decreases the channel of the display apparatus as the user motion of the one axis direction moves in a second direction that is opposite the first direction. 7. The display apparatus of claim 1, wherein the controller detects a center sensor or an outermost sensor in each axis direction based on locations of sensors detecting the user motion with respect to each of the plurality of the sensor arrays, and determines the user motion according to a coordinate value indicating a location of the detected center sensor or outermost sensor. 8. The display apparatus of claim 1, wherein the plurality of the sensor arrays have different operating frequencies. 9. A method of controlling a display apparatus, the method comprising: receiving a wireless signal from a remote controller, the wireless signal indicating a user motion detected by the remote controller in a three-dimensional space defined by a plurality of sensor arrays arranged in three axis directions of the three-dimensional space, a plurality of sensors being disposed in each of the three axis directions such that a position of the user motion in the three-dimensional space corresponding to a location of sensors of the sensor arrays, the sensors detecting the user motion, the wireless signal includes on/off information of the plurality of sensors;calculating a coordinate value for the user motion in the three-dimensional space using the on/off information of the plurality of sensors; andcontrolling the display apparatus according to the calculated coordinate value indicating the user motion in the three-dimensional space,wherein the controlling further comprises:displaying a three-dimensional GUI on a display of the display apparatus, the three-dimensional GUI comprising a plurality of menus in a plurality of planes in the three-dimensional space, each plane having a menu therein,changing a display status of the three-dimensional GUI in accordance with the user motion relative to the plane having the menu to be selected. 10. The method of claim 9, wherein the controlling comprises: changing display of a Graphical User Interface (GUI) displayed on a display according to attributes of the user motion of the three-dimensional space detected by the remote controller and received in the wireless signal from the remote controller,wherein the attributes of the user motion comprise at least one of a motion direction, a motion distance, a motion speed, and a motion pattern. 11. The method of claim 9, wherein the controlling further comprises: moving a cursor displayed on a two-dimensional GUI according to a user motion of two axis directions in the three-dimensional space, and selecting an item of the two-dimensional GUI pointed to by the cursor according to a user motion of a remaining axis direction. 12. The method of claim 11, wherein the controlling further comprises: when the item of the GUI is selected, adjusting a setting value of the item according to user motion of one axis direction in the user motion of the three axis directions. 13. The method of claim 12, wherein, when the item is a volume control menu, the controlling further comprises: when the volume control menu is selected, increasing a volume of the display apparatus as the user motion of the one axis direction moves in a first direction and decreasing the volume of the display apparatus as the user motion of the one axis direction moves in a second direction that is opposite the first direction. 14. The method of claim 12, wherein, when the item is a channel change menu, the controlling further comprises: when the channel change menu is selected, increasing a channel of the display apparatus as the user motion of the one axis direction moves in a first direction, and decreasing the channel of the display apparatus as the user motion of the one axis direction moves in a second direction that is opposite the first direction. 15. The method of claim 9, wherein the controlling comprises detecting a center sensor or an outermost sensor in each axis direction based on locations of sensors detecting the user motion with respect to each of the plurality of the sensor arrays, and determining the user motion according to a coordinate value indicating a location of the detected center sensor or outermost sensor. 16. The method of claim 9, wherein the plurality of the sensor arrays have different operating frequencies. 17. A remote controller comprising: a sensor that senses user motion in a three-dimensional space defined by a plurality of sensor arrays arranged in three axis directions of the three-dimensional space, a plurality of sensors being disposed in each of the three axis directions such that a position of the user motion in the three-dimensional space corresponding to a location of sensors of the sensor arrays, the sensors detecting the user motion; anda remote controller signal transmitter that transmits a wireless signal indicating the sensed user motion to a display apparatus,wherein the wireless signal includes on/off information of the plurality of sensors so that the display apparatus calculates a coordinate value for the user motion in the three-dimensional space using the on/off information of the plurality of sensors, andwherein the wireless signal includes a signal for displaying a three-dimensional GUI, the three-dimensional GUI comprising a plurality of menus in a plurality of planes in the three-dimensional space, each plane having a menu therein, and changing a display status of the three-dimensional GUI in accordance with the user motion relative to the plane having the menu to be selected. 18. The remote controller of claim 17, wherein the sensor comprises: a first sensor and a second sensor, respectively, arranged in a matrix form and connected by a hinge,wherein the first sensor and the second sensor are rotated based on the hinge to open and close the remote controller. 19. The remote controller of claim 17, wherein the plurality of the sensor arrays have different operating frequencies. 20. A display system comprising: a display apparatus, the display apparatus comprising:a display;a signal receiver that receives a wireless signal, the wireless signal identifying motion of a user in a three-dimensional space; anda processor that controls an operation of the display apparatus based on the motion of the user in the three-dimensional space identified by the wireless signal received by the signal receiver; anda remote controller, the remote controller comprising:a plurality of sensors arranged in each direction of three axis directions and detect the motion of the user in the three-dimensional space; anda signal transmitter that transmits to the display apparatus the wireless signal identifying the motion of the user in the three-dimensional space detected by the sensor,wherein a plurality of sensors being disposed in each of the three axis directions such that a position of the user motion in the three-dimensional space corresponds to a location of the sensors detecting the user motion,wherein the wireless signal includes on/off information of the plurality of sensors,wherein the processor of the display apparatus calculates a coordinate value for the user motion in the three-dimensional space using the on/off information of the plurality of sensors and controls the operation of the display apparatus based on the calculated coordinate value, andwherein the processor displays a three-dimensional GUI, the three-dimensional GUI comprising a plurality of menus in a plurality of planes in the three-dimensional space, each plane having a menu therein, and the processor is configured to change a display status of the three-dimensional GUI in accordance with the user motion relative to the plane having the menu to be selected. 21. The display system of claim 20, wherein the processor determines that the motion of the user in the three-dimensional space corresponds to one of a channel change command to change a channel of the display apparatus and a volume change command to change a volume of the display apparatus, and the processor one of changes the channel of the display apparatus based on the channel change command and changes the volume of the display apparatus based on the volume change command.