Embodiment
Infrared location of the present utility model television remote control, its preferable embodiment be, comprises main frame, infrared location TV remote controller, and at least 1 infrared transmitter is housed on the television set;
Described infrared television remote controller receives the infrared signal of described infrared transmitter, and the pose signal of the relative television set of described infrared location TV remote controller and user's control signal are transferred to described main frame; Described main frame is connected with described television set by data-interface.
Described infrared location TV remote controller can comprise imageing sensor, infrared point detection module, remote controller locating module; Described infrared point detection module detects the infrared signal in the described imageing sensor image information captured, and detected infrared signal is inputed to described remote controller locating module.
Described infrared location TV remote controller can comprise the wireless blue tooth module; Described main frame comprises Bluetooth adapter; Described remote controller locating module inputs to described wireless blue tooth module with the pose signal of described infrared television remote controller; Described wireless blue tooth module is transferred to described pose signal and user's control signal the Bluetooth adapter of described main frame.
Described infrared location TV remote controller can also comprise infrared transmission module; Described main frame comprises infrared receiver; Described remote controller locating module inputs to described infrared transmission module with the pose signal of described infrared television remote controller; Described infrared transmission module is transferred to described pose signal and user's control signal the infrared receiver of described main frame.
On the concrete described television set 2 infrared transmitter can be housed, and can be contained in the both sides of television set respectively; Described infrared transmitter comprises at least 1 infrared lamp.
Described main frame can be integrated in described television set inside, also can be arranged on the set-top box.
Described infrared location TV remote controller can also comprise random access memory, and described imageing sensor image information captured is kept at earlier in the random access memory, sends described infrared point detection module again to.
Described wireless blue tooth module can receive described pose signal and control signal by I2C data/address bus or SPI data/address bus.
Described infrared module can receive described pose signal and control signal by I2C data/address bus or SPI data/address bus.
Described pose signal can comprise described infrared location TV remote controller and television set relative position and the relative angle, and and television set relative position on a vertical plane etc. on parallel plane.
The described infrared location television remote control that adopts the utility model to provide, can be by the infrared ray reference point of being launched by infrared transmitter being detected and locating, calculate infrared location TV remote controller and television set relative position and the relative angle on parallel plane, and relative position on a vertical plane, thereby accurately operation is presented at the pointer on the television set, and make the desirable menu option of pointed user exactly, thereby effectively reduced the traditional tv remote controller and needed line by line that moving cursor makes the handling of TV remote controller better with the complex process of definite object menu option.
In order to further specify technical scheme described in the utility model, illustrate below by specific embodiment.
Specific embodiment:
As shown in Figure 1, a kind of infrared location television remote control, this remote control comprises:
Infrared location TV remote controller S11: be used to receive the image that comprises the infrared ray reference point of sending by infrared transmitter, carry out detection of infrared ray reference point and infrared ray reference point location, and calculate in view of the above that the infrared television remote controller causes because of the user controls with relative position and the relative angle of television set on parallel plane, and relative position on a vertical plane, and transmit the bearing data of this remote controller and the operating data that the user operates this remote controller.
Main frame S22: be used to receive infrared locator data, and link to each other, the data that receive are sent to television set with television set from infrared location TV remote controller;
Infrared transmitter S331, S332: being used to launch infrared ray provides reference point for described infrared location television remote control.
Specifically, described infrared location TV remote controller S11 specifically comprises:
Imageing sensor S111: be used for the infrared ray reference point that the receiving infrared-ray reflector is launched;
Infrared point detection module S112: be used to detect the infrared ray reference point locations;
Remote controller locating module S113: be used for further detecting described infrared location TV remote controller and television set relative pose according to the infrared ray reference point locations;
Wireless blue tooth module S114: be used for carrying out RFDC, transmit the pose data of described infrared location TV remote controller and user wireless data to the operating data of described infrared location TV remote controller operation with the Bluetooth adapter of described main frame.
Infrared module S115: be used for carrying out RFDC, transmit the pose data of described infrared location TV remote controller and user to the operating data of described infrared location TV remote controller operation and the wireless data of television set relative position with the infrared receiver of described main frame.
Specifically, described main frame S22 specifically comprises:
Bluetooth adapter S221: be used for receiving the operating data to the operation of described infrared location TV remote controller from the bearing data of described infrared location TV remote controller and user by bluetooth approach;
Infrared receiver S222: be used for receiving the operating data to the operation of described infrared location TV remote controller from the pose data of described infrared location TV remote controller and user by wireless mode;
Data transmission interface S223: be used to transmit the infrared location TV remote controller pose data that receive and user's operating data to the television set that is attached thereto.
In concrete application example, infrared location described in the utility model television remote control can be installed on the television set based on digital television system.Preferably, infrared transmitter comprises two infrared lamps.Preferably, infrared location technology scheme is judged calculating for line between the position data by the infrared ray reference point and two infrared ray reference points.Preferably, use the Bluetooth adapter of described main frame and the wireless blue tooth module of described infrared location TV remote controller to carry out transfer of data.
In actual applications, infrared transmitter S331 can be installed on the upper right corner of digital television S44, infrared transmitter S332 can be installed on the lower left corner of digital television S44, connect power supply and to behind this infrared transmitter continued power, these two infrared transmitter continue the emission infrared ray; Main frame S22 is connected by data transmission interface S223 with digital television S44; Infrared location TV remote controller S33 can switch or menu is selected in the infrared transmitter range of exposures digital television program.
As shown in Figure 2, the concrete operating process of the utility model is:
Step S1, when described infrared location TV remote controller S11, main frame S22 and infrared transmitter S331, S332 install with digital television S44 and be connected finish after.Infrared location TV remote controller S11 is connected with Bluetooth adapter S221 in the main frame by wireless blue tooth module S114; Or be connected with main frame middle infrared (Mid-IR) receiver S222 by infrared transmission module S115.
Step S2, connection enter Digital Television remote control flow process after finishing, and imageing sensor S111 begins to catch view data in the TV remote controller of infrared location, and sends this view data to infrared point detection module S112.The infrared point detection module is analyzed the view data that receives, whether photographed the infrared ray reference point in the detected image, if no infrared ray reference point, this module is not carried out any operation, wait for and receive next width of cloth view data, at this moment, the pointer that is presented on the digital television screen is not done any action; As if having and containing an infrared ray reference point at least, this module is determined the coordinate position of detected infrared ray reference point in image, and sends coordinate data to remote controller locating module S113.Remote controller locating module S113 calculates described infrared location TV remote controller and the relative position of television set on parallel plane according to the position data of any infrared ray reference point that receives.Remote controller locating module S113 calculates described infrared location TV remote controller and the relative angle of television set on parallel plane by the angle that line and predetermined angle reference line between two infrared ray reference points that receive form.Remote controller locating module S113 calculates described infrared location TV remote controller and television set relative position on a vertical plane by the variable in distance between two infrared ray reference points that receive.
Step S3, wireless blue tooth module S114 send this bearing data and user's operating data to the Bluetooth adapter S221 of main frame; Or this bearing data and user's operating data are sent to the infrared receiver S222 of main frame by infrared transmission module S115.
Data transmission interface S223 in step S4, the main frame is with this positional information, be that pointer position and the user that the user operates infrared location TV remote controller sends digital television to the switching of TV programme and the selection information of Digital Television menu, and finally realize the operand word TV menu.
Infrared location of the present utility model television remote control, can calculate infrared location remote controller and relative position and the relative angle of television set on parallel plane by detecting the infrared ray reference point, and relative position on a vertical plane, and the operation that the data and the user of this relative position carried out on the remote controller of infrared location is sent in the television set by main frame external or that be integrated in television set inside, simultaneously the form with pointer is presented on the television screen, accurately locatees and selects being presented at menu on the television set thereby be implemented under the 3 D stereo pattern.
Adopt technical scheme described in the utility model, when infrared location described in the utility model television remote control is used on the television set, by the infrared ray reference point of being launched by infrared transmitter being carried out Detection of Existence and complicated location Calculation, calculate infrared location TV remote controller and television set relative position and the relative angle on parallel plane, and relative position on a vertical plane, thereby be implemented in and accurately operate the pointer that is presented on the television set under the 3 D stereo pattern, TV programme is switched and the menu selection, and carried out interactive game.
Television set is used infrared location television remote control, can not only realize all functions of traditional tv remote controller fully, and by infrared reference point location, space, can make the desirable menu option of pointed user exactly, thereby effectively having reduced the traditional tv remote controller needs line by line moving cursor with the complex process of definite object menu option, these technical improvement are exactly the amplitude that has effectively reduced the required mobile arm of switching TV program when watching TV In the view of the user, and, efficiently solve the sense of discomfort that long-time pressing button brings with moving cursor for long menu is selected selecting TV programme menu and personalized time and the number of times of selecting to continue to push selector button.
Not only bring great advantage to the user aspect convenience, more expand aspect functional, the control mode under the 3 D stereo pattern is the field that the traditional tv remote controller does not relate to fully.By using three-dimensional steer mode, can be simultaneously at the enterprising line operate in the plane parallel with vertical with television set, and the detection and localization of realization remote controller and television set relative position and relative angle, promptly with television set about, about, front and back, and the location in each orientation of rotation.This is at the much progress of TV remote controller on sensitivity level.
Infrared location television remote control is new-typely controlled experience for what the user had brought fast and flexible in use, this is not only to have surmounted traditional remote controller in speed and on the time, more the user brings unprecedented smooth experience, makes that simultaneously controlling TV remote controller becomes an interesting activity.
The above; it only is the preferable embodiment of the utility model; but protection range of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the variation that can expect easily or replacement all should be encompassed within the protection range of the present utility model.