CN103593956A - Remote control equipment, computer equipment and control method - Google Patents
Remote control equipment, computer equipment and control method Download PDFInfo
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Abstract
The invention provides remote control equipment, computer equipment and a control method for remote control of electronic equipment. The remote control equipment comprises a memory unit, an input module, a controller and a front-end module. For storage of multiple data pairs by the memory unit, each data pair includes sampling control signal data and a first preset instruction code associated with the sampling remote control signal data; the sampling signal data represents a sampling remote control signal received from a remote control; and the first preset instruction code represents an instruction preset by a user. The input module receives a current instruction signal and converts the current instruction signal into a current instruction code. The controller searches the first preset instruction code matched with the current instruction code in the instruction codes of multiple data pairs, and acquires sampling remote control signal data associated with the matched first preset instruction code. The front-end module converts the sampling remote control signal data into the remote control signal, so as to conduct remote control on the electronic equipment. The control equipment combines electronic equipment and computer equipment, so that the user can control the electronic equipment by sending an instruction to the computer equipment.
Description
Technical field
The present invention relates to a kind of telecontrol engineering field, particularly a kind of remote control equipment for remote controlled electronic device, computer equipment and control method.
Background technology
Telepilot is widely used in routine work life, is especially widely used in field of household appliances as televisor, DVD, Set Top Box, air-conditioning, projector etc., also in other electronics, field of industrial production widespread use.Along with the raising of people's living standard, the electronic equipment in family is more and more, corresponding, and telepilot is also more and more.When a plurality of telepilots are mixed in together, be unfavorable for that user chooses the telepilot of needs rapidly and accurately.In addition, once telepilot is lost or damaged, user also will buy or keep in repair telepilot, produces extra spending.
Summary of the invention
The technical problem to be solved in the present invention is to provide a kind of remote control equipment for remote controlled electronic device, computer equipment and control method, is used for simplifying the control to a plurality of electronic equipments, and brings advantage to the user.
One embodiment of the invention provides a kind of remote control equipment, comprise: storage unit, be used for storing a plurality of data pair, each data of described a plurality of data centerings are to comprising sampling remote control signal data and the first preset instructions code being associated with described sampling remote control signal data, described sampling remote control signal data represents the sampling remote signal obtaining from telepilot, and the first preset instructions code is for representing the remote control equipment readable code of user preset instruction; Load module, represents the present instruction signal of the present instruction that the subscriber interface module of computer equipment receives, and converts described present instruction signal to present instruction code for receiving; Controller, be connected to described load module and described storage unit, for the first preset instructions code with described present instruction code matches in described a plurality of data centerings searches, and the sampling remote control signal data being associated with the first preset instructions code of described coupling; And the front-end module that is connected to described controller, for converting the described sampling remote control signal data being associated to remote signal and then remote controlled electronic device.
Another embodiment of the present invention provides a kind of computer equipment, comprising: storage medium, and for storing a plurality of the second pre-stored preset instructions codes, wherein said the second preset instructions code representative of consumer preset instructions; Subscriber interface module, for receiving user's present instruction, and converts described present instruction to computer-readable instruction data; Processor, is connected to described storage medium and described subscriber interface module, for a plurality of the second preset instructions codes at described storage medium, searches and the second preset instructions code that represents the code matches of present instruction; Be connected to the output module of described processor, for converting the second preset instructions code of described coupling to present instruction signal, and described present instruction signal is offered to remote control equipment, make described remote control equipment according to described present instruction remote controlled with signals electronic equipment.
Another embodiment of the present invention provides a kind of control method of remote controlled electronic device, comprising: convert present instruction to computer-readable instruction data; Computer equipment is identified described present instruction to produce present instruction signal and to provide to remote control equipment according to described computer-readable instruction data; Described remote control equipment converts described present instruction signal to present instruction code, wherein said remote control equipment comprises a plurality of data pair, each data of described a plurality of data centerings are to comprising sampling remote control signal data and the first preset instructions code being associated with described sampling remote control signal data, wherein said sampling remote control signal data represents the sampling remote signal obtaining from telepilot, and described the first preset instructions code is for representing the remote control equipment readable code of preset instructions; In the first right preset instructions code of described a plurality of data, search the first preset instructions code described and described present instruction code matches; From described a plurality of data centerings, obtain the sampling remote control signal data being associated with the first preset instructions code of described coupling; And convert the described sampling remote control signal data being associated to remote signal and then remote controlled electronic device.
The system and method for remote controlled electronic device of the present invention can be used in various occasions, for example, and projector, air-conditioning, TV, Set Top Box etc.Compared with prior art, system provided by the invention can be simply and effective a plurality of electronic equipments of remote control.
Accompanying drawing explanation
Below in conjunction with accompanying drawing, technical scheme of the present invention is described in detail, so that characteristic of the present invention and advantage are more obvious.
Fig. 1 is the structural representation of telechirics according to an embodiment of the invention;
Fig. 2 is the structural representation of telechirics according to an embodiment of the invention;
Fig. 3 is the method flow schematic diagram according to an embodiment of the invention user's preset instructions being associated with remote signal;
Fig. 4 is sent to user's present instruction the method flow schematic diagram of remote control equipment according to an embodiment of the invention;
Fig. 5 is according to an embodiment of the invention according to the method flow schematic diagram of user's present instruction remote controlled electronic device; And
Fig. 6 is the operating process schematic diagram of telechirics according to an embodiment of the invention.
Embodiment
To embodiments of the invention be provided to detailed explanation below.Although the present invention is set forth and illustrated by these embodiments, it should be noted that the present invention is not merely confined to these embodiments.On the contrary, all substitutes, variant and the equivalent in the defined invention spirit of appended claim and invention scope contained in the present invention.In following detailed description of the present invention, in order to provide one to understand completely for of the present invention, illustrated a large amount of details.Yet, it will be understood by those skilled in the art that and there is no these details, the present invention can implement equally.In some other examples, the scheme of knowing for everybody, flow process, element and circuit are not described in detail, so that highlight purport of the present invention.
In one embodiment, the invention provides a kind of for controlling the telechirics of a plurality of electronic equipments.This telechirics is for example, by computer equipment (: smart mobile phone, panel computer, notebook computer etc.) with for example, for (: televisor controlling electronic equipment, Set Top Box, air-conditioning, the use such as projector) remote control equipment combination, makes user to control a plurality of electronic equipments by sending instruction to computer equipment.Advantageously, the invention provides a kind of control system and method for simply and effectively controlling a plurality of electronic equipments.
Fig. 1 is the structural representation of telechirics 100 according to an embodiment of the invention.Telechirics 100 comprises computer equipment 102 and remote control equipment 110.Remote control equipment 110 coordinates with computer equipment 102 user instruction is converted to remote signal 114 and then controls electronic equipment (for example: projector 120, air-conditioning 122, TV 124, Set Top Box 126 etc.).
Computer equipment 102 comprises operating system, is used for supervisory computer hardware resource and provide infrastructure service for computer program.More specifically, computer equipment 102 can be, but be not limited only to smart mobile phone, panel computer, desktop computer, notebook computer, handheld media player etc.Computer equipment 102 comprises subscriber interface module, for example: camera 104, microphone 106, touch screen 150 and motion sensor (not shown).Computer equipment 102 also comprises voice communication socket 108.In addition, remote control equipment 110 comprises voice communication socket 118 and infrared communication module 112.
During operation, in one embodiment, computer equipment 102 is identified user instruction by subscriber interface module.For instance, user can send instruction by microphone 106 being talked, touched touch screen 150, mobile computer device 102 or do gesture/action before camera 104.Microphone 106(is for example: acoustical-electrical transducer) from user side, receive sound instruction and produce the computer-readable instruction data that represent this sound instruction.The contact position of touch screen 150 induction on it or slip thereon, and produce the computer-readable instruction data that represent this contact position or represent this sliding type.Motion sensor (for example: comprise gravity sensor, and/or 3-axis acceleration sensor, and/or electronic compass) motion of induction computer equipment 102, for example: above move, move down, rock etc., and produce the computer-readable instruction data that represent this motion.Camera 104 is flutterred and is caught a picture group sheet of statement user action (for example: blink, open one's mouth etc.) and produce the computer-readable instruction data that represent this action.Therefore, computer equipment 102 is identified user instruction by analyzing these computer-readable instruction data, and utilizes these computer-readable instruction data that the user instruction of identification is offered to remote control equipment 110.For example, computer equipment 102 produces sound signal and by voice communication socket 108, sound signal is offered to remote control equipment 110 according to these computer-readable instruction data.Remote control equipment 110 passes through voice communication socket 118 received audio signals, and for example produces remote signal 114(according to sound signal: infrared signal), and by infrared communication module 112 transmitting remote signal 114 and then electronic equipments corresponding to remote control.
In one embodiment, the form of instruction is preset by user.More specifically, on the one hand, user provides preset instructions by subscriber interface module to computer equipment 102.Remote control equipment 110 receives this preset instructions from computer equipment 102, and will represent the first preset instructions code C of this preset instructions
iNST(will be discussed in more detail below) is stored in storage unit, and wherein, the preset instructions that this remote control equipment 110 receives from computer equipment 102 can have many forms, as sound signal; This first preset instructions code is the readable instruction code of this remote control equipment 110.On the other hand, the remote signal that 110 pairs of telepilots 128 of remote control equipment send is sampled, and for example obtains sampling remote signal 116(: infrared signal), and by the sampling remote control signal data D of this sampling remote signal 116
sMPbe stored in storage unit.Remote control equipment 110 is further by this first preset instructions code C
iNSTwith this sampling remote control signal data D
sMPbe associated, thereby can make remote control equipment 110 set up the corresponding relation of this preset instructions and this sampling remote signal 116.Similarly, remote control equipment 110 can be set up the corresponding relation of a plurality of preset instructions and a plurality of sampling remote signals 116.
Advantageously, the telechirics 100 that comprises computer equipment 102 and remote control equipment 110 can obtain sampling remote signals from various telepilots.Telechirics 100 can also receive user's preset instructions, and sets up the corresponding relation of preset instructions and the remote signal that obtains of sampling.Just because of this, user can control a plurality of dissimilar electronic equipments by sending instruction to telechirics 100 when not changing the control mode of existing electronic equipment, can simplify like this control of a plurality of electronic equipments and bring advantage to the user.
In Fig. 1, disclosed device and module only illustrate as example, and the present invention is not limited to this.In the example of Fig. 1, computer equipment 102 communicates by letter with remote control equipment 110 by voice communication.Yet, in another embodiment, computer equipment 102 by Wi-Fi communication, Bluetooth communication, USB (universal serial bus) communication (as, USB) etc. communicate by letter with remote control equipment 110.In another embodiment, the CPU (central processing unit) of computer equipment 102 (CPU) is communicated by letter with the micro-control unit (MCU) of remote control equipment 110 by communication bus.In the example of Fig. 1, remote control equipment 110 obtains sampling remote signal 116 and transmitting remote signal 114 by infrared communication module.Yet in another embodiment, remote control equipment 110 obtains sampling remote signal 116 and transmitting remote signal 114 by the similar communication module of Wi-Fi communication module, bluetooth communication etc.
Fig. 2 is the structural representation that comprises according to an embodiment of the invention the telechirics 100 of computer equipment 102 and remote control equipment 110.Fig. 2 is described in connection with Fig. 1.As shown in Figure 2, computer equipment 102 comprises subscriber interface module 250, for example: camera 104, microphone 106, touch screen 150 and motion sensor 234.CPU (central processing unit)), storage medium 236 and output module 208 computer equipment 102 for example also comprises processor 230(:.Computer equipment 102 also comprises for supporting the operating system of subscriber interface module 250, processor 230 and output module 208 operations.Micro-control unit) and comprise the front-end module 212 of signal projector 246 and signal receiver 248 remote control equipment 110 for example comprises load module 218, storage unit 244, controller 240(:.In one embodiment, storage medium 236 and the instantaneous computer readable storage medium of storage unit 244 right and wrong.
In one embodiment, the storage medium 236 of computer equipment 102 is for storing user's preset instructions database.This preset instructions database comprises a plurality of the second pre-stored preset instructions code (C'
iNST1, C'
iNST2, C'
iNST3...), wherein, this second preset instructions code C'
iNSTfor the readable instruction code of this computer equipment 102.The second preset instructions code C' that each is pre-stored
iNSTan associated preset instructions.More specifically, in conjunction with the description of Fig. 1, the form of instruction is by user's predefine.Each second pre-stored preset instructions code C' in preset instructions database
iNSTbeing in response to the preset instructions that the subscriber interface module 250 of computer equipment 102 receives produces.In addition, each second preset instructions code C' in preset instructions database
iNSTalso with from telepilot (for example: the sampling remote control signal data D of the sampling remote signal 116 of traditional remote controller 128) receiving
sMPthere is corresponding relation.
In one embodiment, a plurality of data of storage unit 244 storage of remote control equipment 110 are to ((C
iNST1, D
sMP1), (C
iNST2, D
sMP2), (C
iNST3, D
sMP3) ...).Each data is to comprising sampling remote control signal data D
sMPwith with this sampling remote control signal data D
sMPthe the first preset instructions code C being associated
iNST.For example, sampling remote control signal data D
sMP1with the first preset instructions code C
iNST1be associated, sampling remote control signal data D
sMP2with the first preset instructions code C
iNST2be associated etc.The sampling remote control signal data D of each data centering
sMPthe sampling remote signal 116 that representative receives from telepilot.The first preset instructions code C of each data centering
iNSTrepresentative of consumer preset instructions.In addition, storage unit 244 is also stored and is represented each data centering sampling remote control signal data D
sMPwith each data centering the first preset instructions code C
iNSTthe look-up table TB1 being associated.Load module 218 receives the preset instructions signal S of the computer equipment 102 that is used for representing user preset instruction
iNST, and by preset instructions signal S
iNSTconvert the first corresponding preset instructions code C to
iNST.And the remote signal of 248 pairs of telepilots of signal receiver of front-end module 212 is sampled, and sampling remote control signal data D corresponding to the sampling remote signal 116 obtaining convert to
sMP.Mutual the first corresponding preset instructions code C
iNSTwith sampling remote control signal data D
sMPbe stored in storage unit 244.Therefore, remote control equipment 110 is by upgrading look-up table TB1 by the first preset instructions code C of correspondence
iNSTwith corresponding sampling remote control signal data D
sMPbe associated, for example, by the first preset instructions code C of mutual correspondence
iNSTwith sampling remote control signal data D
sMPwrite look-up table TB1, or by the first preset instructions code C of mutual correspondence
iNSTwith sampling remote control signal data D
sMPmemory address write look-up table TB1.So, in conjunction with the description of Fig. 1, remote control equipment 110 has been set up the corresponding relation of a plurality of user preset instructions and a plurality of sampling remote signals 116.
Fig. 3 is the method flow diagram according to an embodiment of the invention user's preset instructions being associated with sampling remote signal 116.Although Fig. 3 discloses some concrete step, these steps are only exemplary.That is to say, the present invention is applicable to carrying out other steps similar with Fig. 3 or that be equal to.Fig. 3 is described in connection with Fig. 1 and Fig. 2.
In one embodiment, process flow diagram 300 completes as the computer executed instructions being stored in non-instantaneous computer readable medium.Circuit in computer equipment 102 and module perform step 302,304,306,308 and 310 under the control of processor 230; Circuit in remote control equipment 110 and module perform step 312,314,316,318,320,322 and 324 under the control of controller 240.
In step 302, the interface module 250 of computer equipment 102 receives preset instructions and converts this preset instructions to computer-readable preset instructions data D'T from user side
iNST.
In step 304, computer equipment 102 is according to these computer-readable preset instructions data D'T
iNSTobtain the second preset instructions code C' that represents this preset instructions
iNST.Wherein, this second preset instructions code C'
iNSTfor pre-stored, and can be one or one group of code.For example, computer equipment 102 comprises data with existing storehouse (for example: picture database, audio database, touch-screen input database or motion database), for example, corresponding to the information data code storage of different information (: action, sound, touch-screen input or movable information) in this data with existing storehouse.For example, according to algorithm (: modulation and demodulation algorithm and/or fuzzy algorithm) processor 230 from computer-readable preset instructions data D'T
iNSTmiddle extraction characteristic, and search and computer-readable preset instructions data D'T in corresponding data with existing storehouse
iNSTin the corresponding information data code of characteristic, and the information data code that this is searched is as the second preset instructions code C'
iNSTthereby, obtain the second preset instructions code C' that represents this preset instructions
iNST.For instance, user says " turning on TV " facing to microphone 106.Computer equipment 102 is analyzed the information data code that sound instructions " are turned on TV " and obtained the expression instruction of " turning on TV ", and using this information data code as the second preset instructions code C'
iNST.
In step 306, processor 230 is by this second preset instructions code C'
iNSTbe kept in the preset instructions database of storage medium 236.That is to say the pre-stored second instruction code C' corresponding with preset instructions of preset instructions database
iNST.In one embodiment, preset instructions database can be included in above-mentioned data with existing storehouse, also can separate with above-mentioned data with existing storehouse.
In step 308, output module 208 receives this second preset instructions code C' from processor 230
iNSTand by this second instruction code C'
iNSTconvert preset instructions signal S to
iNST, this preset instructions signal S
iNSTbe with the signal type of remote control equipment 110 compatibilities (for example: infrared signal).In one embodiment, output module 208 comprises for by this second preset instructions code C'
iNSTconvert preset instructions sound signal S to
iNSTvoice communication module.In another embodiment, output module 208 comprises this second preset instructions code C'
iNSTconvert one or more preset instructions signal S to
iNSTcommunication module, for example: Wi-Fi communication module, bluetooth communication or universal serial bus communications module.
In step 310, output module 208 provides preset instructions signal S to remote control equipment 110
iNST.In step 312, the load module 218 of remote control equipment 110 receives from computer equipment 102 the preset instructions signal S that represents preset instructions
iNST.
In step 314, load module 218 is by preset instructions signal S
iNSTconvert the first preset instructions code C to
iNST.This first preset instructions code C
iNSTfor representing the readable code of remote control equipment 110 of preset instructions.In one embodiment, load module 218 comprises preset instructions signal S
iNSTconvert the first preset instructions code C to
iNSTvoice communication module.In another embodiment, load module 218 comprises from one or more preset instructions signal S
iNSTpacket in extract the communication module of useful load data, for example: Wi-Fi communication module, bluetooth communication or universal serial bus communications module.In such an embodiment, computer-readable code C'
iNSTthe useful load data that comprise extraction.
In step 316, controller 240 is by the first preset instructions code C
iNSTbe kept in storage unit 244.
In step 318, controller 240 enable signal receivers 248 from telepilot (for example: the telepilot 128 Fig. 1) up-sampling remote signal.
In step 320, signal receiver 248 converts the sampling remote signal 116 of acquisition to computer-readable sampling remote control signal data D
sMP.
In step 322, controller is by this sampling remote control signal data D
sMPbe kept in storage unit 244.
In step 324, controller makes the first preset instructions code C by upgrading look-up table TB1
iNSTwith this sampling remote control signal data D
sMPbe associated.
In one embodiment, according to different user preset instructions, repeat the step in flow process Figure 30 0, the second preset instructions code (C' of a plurality of user preset instructions of the pre-stored expression of preset instructions database in storage medium 236
iNST1, C'
iNST2, C'
iNST3...).In addition, by repeating the step in flow process Figure 30 0, storage unit 244 is pre-stored a plurality of the first preset instructions code (C also
iNST1, C
iNST2, C
iNST3...) and default remote control signal data (D associated with it
sMP1, D
sMP2, D
sMP3...).A plurality of the first preset instructions code (C
iNST1, C
iNST2, C
iNST3...) represent different user preset instructions.Sampling remote control signal data (D
sMP1, D
sMP2, D
sMP3...) represent the sampling remote signal 116 be associated with this preset instructions.
In one embodiment, when user need to control remote control equipment, user sends user instruction to computer equipment 102.According to the preset instructions database in computer equipment 102 and the look-up table TB1 in remote control equipment 110, the user instruction that user sends is converted into remote signal 114 and then controls remote control equipment.Operation is for example shown in Fig. 4 and Fig. 5.
Fig. 4 is the method flow schematic diagram 400 that according to an embodiment of the invention user instruction is sent to remote control equipment 110.Although Fig. 4 discloses concrete step, these steps are only exemplary.That is to say, the present invention can be applicable to the distortion of step shown in various other steps or Fig. 4 well.Fig. 4 is described in connection with Fig. 1 and Fig. 2.Step in process flow diagram 400 is carried out by computer equipment 102.
In one embodiment, process flow diagram 400 completes as the computer executed instructions being stored in non-instantaneous computer readable medium.Circuit in computer equipment 102 and module are carried out following steps under the control of processor 230.
In step 402, the subscriber interface module 250 of computer equipment 102 receives present instruction and this current instruction transformation is become to computer-readable instruction data from user side.
In step 404, processor 230 obtains the code that represents this present instruction according to these computer-readable instruction data.For example, according to modulation and demodulation algorithm and/or fuzzy algorithm, processor 230 is from computer-readable instruction extracting data characteristic, and for example, in above-mentioned data with existing storehouse (: picture database, audio database, touch-screen input database or motion database), searches the code of the expression present instruction corresponding with this characteristic.
In step 406, processor 230 is at the second preset instructions code (C' of above-mentioned storage medium 236
iNST1, C'
iNST2, C'
iNST3...) in search the code of this expression present instruction and produce search result.For instance, processor 230 is by a plurality of the second preset instructions code C' in the code of this expression present instruction and preset instructions database
iNST(C'
iNST1, C'
iNST2, C'
iNST3...) compare.If this represents code and a plurality of second preset instructions code C' of present instruction
iNST(C'
iNST1, C'
iNST2, C'
iNST3...) in a code match, for example: the code of this expression present instruction can find in this preset instructions database, judge that this present instruction is discernible.If this represents code and a plurality of second preset instructions code C' of present instruction
iNSTin any one code do not mate, for example: in preset instructions database, do not comprise the code of this expression present instruction, judge that this present instruction is unrecognizable.
Output module 208 according to search result by coupling the second preset instructions code C'
iNSTconvert present instruction signal to.Particularly, in step 408, if this represents code and a plurality of second preset instructions code C' of present instruction
iNST(C'
iNST1, C'
iNST2, C'
iNST3...) in a code match, process flow diagram 400 forwards step 412 to; Otherwise, forward step 410 to.
In step 410, processor 230 for example produces signal, to inform that this present instruction of user's (: by show some words on screen) is unrecognizable.
In step 412, output module 208 is by the second preset instructions code C' of this correspondence
iNSTconvert present instruction signal to.
In step 414, output module 208 by present instruction signal is offered to remote control equipment 110 so that the remote control equipment 110 transmitting first preset instructions code C corresponding with this current command signal
iNSTthe control signal 114 being associated, and then remote controlled electronic device, this will describe in detail after a while.
Fig. 5 is the method flow schematic diagram 500 based on user instruction remote controlled electronic device according to an embodiment of the invention.Although Fig. 5 discloses concrete steps, these steps are only exemplary.That is to say, the present invention can be applicable to the distortion of step shown in various other steps or Fig. 5 well.Fig. 5 is described in connection with Fig. 1 and Fig. 2.Step in process flow diagram 500 is carried out by remote control equipment 110.
In one embodiment, process flow diagram 500 completes as the computer executed instructions being stored in non-instantaneous computer readable medium.Circuit in remote control equipment 110 and module are carried out following steps under the control of controller 240.
In step 502, load module 218 receives present instruction signal from computer equipment 102.The present instruction that the subscriber interface module 250 of present instruction signal indication computer equipment 102 receives.
In step 504, load module 218 converts this current command signal to present instruction code, and this current instruction code is offered to controller 240.
In step 506, controller 240 in a plurality of data of storage unit 244 to ((C
iNST1, D
sMP1), (C
iNST2, D
sMP2), (C
iNST3, D
sMP3) ...) the first preset instructions code in search this current instruction code.For instance, controller 240 is by the first preset instructions code (C in present instruction code and storage unit 244
iNST1, C
iNST2, C
iNST3...) compare.
In step 508, if this current instruction code mates with in a plurality of the first preset instructions codes in storage unit 244 one, process flow diagram 500 forwards step 512 to; Otherwise, forward step 510 to.In one embodiment, as mentioned above, the output module 208 of computer equipment 102 and the load module 218 of remote control equipment 110 are voice communication modules.Non-ideal characteristic due to audio frequency conversion, for example, for same instruction, by load module 218, the present instruction code of present instruction signal conversion gained and middle load module 218 embodiment illustrated in fig. 3 are changed preset instructions signal to the first preset instructions code C of gained
iNSTbetween have and depart from, therefore in storage unit 244, may cannot accurately find (for example: identical) corresponding with this current instruction code first preset instructions code C
iNST.Advantageously, controller 240 is searched this current instruction code in the instruction code of storage unit 244 according to fuzzy algorithm, for example, if the difference of a first preset instructions code of storage unit 244 and this current instruction code is in predefined scope, this current instruction code and this first preset instructions code match so.
In step 510, present instruction code does not mate with arbitrary the first preset instructions code in storage unit 244, and controller 240 abandons this current command signal and produces fault-signal so.In one embodiment, telechiric device 110 has indication light source.This indication light source in response to fault-signal with predefined frequency scintillation or with predefined colour light emitting.In step 512, a first preset instructions code C in this current instruction code and storage unit 244
iNSTmatch, so controller 240 from the data of storage unit 244 to ((C
iNST1, D
sMP1), (C
iNST2, D
sMP2), (C
iNST3, D
sMP3) ...) in obtain the first preset instructions code C mating with this
iNSTthe sampling remote control signal data D being associated
iNST(that is: D
sMP).The controller 240 remote control signal data D that will sample
iNSToffer front-end module 212.
In step 514, the signal projector 246 of the front-end module 212 remote control signal data D that will sample
iNSTfor example convert remote signal 114(to, infrared signal).
In step 516, signal projector 246 transmitting remote signal 114 and then remote controlled electronic devices.In one embodiment, front-end module 212 comprises infrared communication module, by transmitting infrared signal (for example: remote signal 114) control electronic equipment is used for.In another embodiment, front-end module 212 comprises infrared communication module, and/or bluetooth communication, and/or Wi-Fi communication module.
Fig. 6 is the operating process schematic diagram 600 of telechirics 100 according to an embodiment of the invention.Fig. 6 is described in connection with Fig. 1, Fig. 2, Fig. 3, Fig. 4 and Fig. 5.
In step 602, the subscriber interface module 250(of computer equipment 102 for example: camera 104, microphone 106, touch screen 150 or motion sensor 234) convert user's present instruction to computer-readable instruction data.
In step 604, computer equipment 102 is identified user's present instruction to produce present instruction signal according to computer-readable instruction data.
In step 606, the load module 218 of remote control equipment 110 converts present instruction signal to present instruction code.
In step 608, the controller 240 of remote control equipment 110 in a plurality of data of said memory cells 244 to ((C
iNST1, D
sMP1), (C
iNST2, D
sMP2), (C
iNST3, D
sMP3) ...) instruction code in search this current instruction code, and then get the first preset instructions code C mating with this current instruction code
iNST.
In step 610, controller 240 from data to ((C
iNST1, D
sMP1), (C
iNST2, D
sMP2), (C
iNST3, D
sMP3) ...) in obtain the first preset instructions code C mating with this current instruction code
iNSTthe sampling remote control signal data D being associated
iNST.
In step 612, the front-end module 212 of the remote control equipment 110 remote control signal data D that will sample
iNSTconvert remote signal 114 to and carry out remote controlled electronic device.
Therefore, embodiments of the invention provide remote control equipment, computer equipment and the control method for a plurality of electronic equipments of remote control.The present invention utilizes the interface module (for example: camera, microphone, touch screen and motion sensor) of computer equipment to receive user instruction, and utilizes remote control equipment to sample and for controlling electronic equipment, carry out the remote signal of preset function; Further the remote signal of user's defined instruction and sampling is associated respectively.Therefore, user controls a plurality of electronic equipments by sending instructions to telechirics, has simplified like this control to a plurality of electronic equipments, brings advantage to the user simultaneously.
Finally should be noted that, above embodiment is only used for the present invention is described and is unrestricted, although the present invention be have been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can modify or be equal to replacement the present invention, and not departing from the spirit and scope of the present invention, it all should be encompassed in the middle of claim scope of the present invention.
Claims (20)
1. a remote control equipment, is characterized in that, described remote control equipment comprises:
Storage unit, be used for storing a plurality of data pair, each data of described a plurality of data centerings are to comprising sampling remote control signal data and the first preset instructions code being associated with described sampling remote control signal data, described sampling remote control signal data represents the sampling remote signal obtaining from telepilot, and the first preset instructions code is for representing the remote control equipment readable code of user preset instruction;
Load module, represents the present instruction signal of the present instruction that the subscriber interface module of computer equipment receives, and converts described present instruction signal to present instruction code for receiving;
Controller, be connected to described load module and described storage unit, for the first preset instructions code with described present instruction code matches in described a plurality of data centerings searches, and the sampling remote control signal data being associated with the first preset instructions code of described coupling; And
Be connected to the front-end module of described controller, for converting the described sampling remote control signal data being associated to remote signal and then remote controlled electronic device.
2. remote control equipment according to claim 1, is characterized in that, described load module comprises the voice communication module that sound signal is converted to described present instruction code.
3. remote control equipment according to claim 1, it is characterized in that, described load module comprises communication module, and wherein said communication module is any one in voice communication module, Wi-Fi communication module, bluetooth communication and universal serial bus communications module.
4. remote control equipment according to claim 1, is characterized in that, described load module also for receiving the preset instructions signal of described computer equipment output, and the first preset instructions code corresponding to described preset instructions signal converts to;
Described front-end module, also for sampling remote control signal data corresponding to described sampling remote signal converting to, described sampling remote signal is that the signal sampling by described telepilot is sent obtains; And
Described controller, also for being associated the first preset instructions code of described correspondence with described corresponding sampling remote control signal data.
5. remote control equipment according to claim 1, is characterized in that, described front-end module comprises the infrared communication module of controlling described electronic equipment by transmitting infrared signal.
6. remote control equipment according to claim 1, is characterized in that, described front-end module comprises communication module, and wherein said communication module is any one in infrared communication module, bluetooth communication and Wi-Fi communication module.
7. a computer equipment, is characterized in that, described computer equipment comprises:
Storage medium, for storing a plurality of the second pre-stored preset instructions codes, wherein said the second preset instructions code representative of consumer preset instructions;
Subscriber interface module, for receiving user's present instruction, and converts described present instruction to computer-readable instruction data;
Processor, is connected to described storage medium and described subscriber interface module, for a plurality of the second preset instructions codes at described storage medium, searches and the second preset instructions code that represents the code matches of present instruction;
Be connected to the output module of described processor, for converting the second preset instructions code of described coupling to present instruction signal, and described present instruction signal is offered to remote control equipment, make described remote control equipment according to described present instruction remote controlled with signals electronic equipment.
8. computer equipment according to claim 7, is characterized in that, described subscriber interface module comprises acoustical-electrical transducer, for receiving sound instruction and producing the described computer-readable instruction data that represent described sound instruction.
9. computer equipment according to claim 7, is characterized in that, described interface module comprises touch screen, for responding to the contact position on described touch screen and producing the described computer-readable instruction data that represent described position.
10. computer equipment according to claim 7, is characterized in that, described interface module comprises motion sensor, for responding to the motion of described computer equipment and producing the described computer-readable instruction data that represent described motion.
11. computer equipments according to claim 7, is characterized in that, described interface module comprises camera, catch a picture group sheet that represents an action, and produce the described computer-readable instruction data that represent described action for flutterring.
12. computer equipments according to claim 7, it is characterized in that, if a code in the code of described expression present instruction and described a plurality of the second pre-stored preset instructions code matches, described output module converts the second preset instructions code of described coupling to described present instruction signal.
13. computer equipments according to claim 7, is characterized in that, described output module comprises voice communication module, for converting the second preset instructions code of described correspondence to sound signal.
14. computer equipments according to claim 7, it is characterized in that, described output module comprises communication module, and wherein said communication module is any one in voice communication module, Wi-Fi communication module, bluetooth communication and universal serial bus communications module.
The control method of 15. 1 kinds of remote controlled electronic devices, is characterized in that, described control method comprises:
Convert present instruction to computer-readable instruction data;
Computer equipment is identified described present instruction to produce present instruction signal and to provide to remote control equipment according to described computer-readable instruction data;
Described remote control equipment converts described present instruction signal to present instruction code, wherein said remote control equipment comprises a plurality of data pair, each data of described a plurality of data centerings are to comprising sampling remote control signal data and the first preset instructions code being associated with described sampling remote control signal data, wherein said sampling remote control signal data represents the sampling remote signal obtaining from telepilot, and described the first preset instructions code is for representing the remote control equipment readable code of preset instructions;
In the first right preset instructions code of described a plurality of data, search the first preset instructions code described and described present instruction code matches;
From described a plurality of data centerings, obtain the sampling remote control signal data being associated with the first preset instructions code of described coupling; And
Convert the described sampling remote control signal data being associated to remote signal and then remote controlled electronic device.
16. control methods according to claim 15, is characterized in that, describedly convert described present instruction to described computer-readable instruction data and comprise at least one step in a plurality of steps, and described a plurality of steps comprise:
Receive sound instruction and produce described computer-readable instruction data;
Contact position on induction touch screen produces described computer-readable instruction data;
The motion of responding to described computer equipment produces described computer-readable instruction data; And
Flutter to catch and represent that a picture group sheet of an action produces described computer-readable instruction data.
17. control methods according to claim 15, is characterized in that, describedly convert described present instruction signal to described present instruction code and comprise:
Convert sound signal to described present instruction code.
18. control methods according to claim 15, is characterized in that, described convert present instruction to computer-readable instruction data before, described method also comprises:
Described computer equipment converts described preset instructions to computer-readable preset instructions data;
According to described computer-readable preset instructions data acquisition the second preset instructions code, described the second preset instructions code is for representing the computer equipment readable code of described preset instructions;
By described the second preset instructions code storage in preset instructions database;
Convert described the second preset instructions code to preset instructions signal.
19. control methods according to claim 18, is characterized in that, described convert described the second preset instructions code to preset instructions signal after, described method also comprises:
Described remote control equipment receives described preset instructions signal from described computer equipment;
The first preset instructions code corresponding to described preset instructions signal convert to, described the first preset instructions code is for representing the remote control equipment readable code of described preset instructions;
From telepilot, obtain described sampling remote signal;
Sampling remote control signal data corresponding to described sampling remote signal convert to; And
The first preset instructions code of described correspondence is associated with described corresponding sampling remote control signal data.
20. control methods according to claim 15, is characterized in that, describedly convert the described sampling remote control signal data being associated to remote signal and comprise:
Convert the described sampling remote control signal data being associated to infrared signal.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201210286522.3A CN103593956A (en) | 2012-08-13 | 2012-08-13 | Remote control equipment, computer equipment and control method |
| US13/954,224 US20130330084A1 (en) | 2012-04-12 | 2013-07-30 | Systems and Methods for Remotely Controlling Electronic Devices |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201210286522.3A CN103593956A (en) | 2012-08-13 | 2012-08-13 | Remote control equipment, computer equipment and control method |
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| CN103593956A true CN103593956A (en) | 2014-02-19 |
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| CN201210286522.3A Pending CN103593956A (en) | 2012-04-12 | 2012-08-13 | Remote control equipment, computer equipment and control method |
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