CN103686462A - Controlling terminal and controlled terminal pairing method, controlling terminal and controlled terminal pairing system and terminals - Google Patents

Abstract

The invention provides a controlling terminal and controlled terminal pairing method, a controlling terminal and controlled terminal pairing system and terminals. A wireless communication environment is created between a controlling terminal and a controlled terminal; pre-stored control code rules are selected one by one by using the controlling terminal according to a preset time interval so as to generate control codes with preset control types; the generated control codes are transmitted to the controlled terminal on the basis of the wireless communication environment; and in each preset time interval after the generated control codes are transmitted to the controlled terminal, response information fed back by the controlled terminal is detected and acquired, when the response information is detected, the pre-stored control code rules corresponding to the control codes of the detected response information are locked, and function allocation is performed again according to the locked pre-stored control code rules, and automatic pairing between the controlling terminal and the controlled terminal is realized. A pairing process is effectively simplified, and the pairing accuracy is greatly improved.

Description

Method and system for pairing control terminal and controlled terminal and terminal

Technical Field

The present invention relates to a controlled terminal control technology, and in particular, to a method, a system, and a terminal for pairing a control terminal and a controlled terminal.

Background

Many controlled terminals (such as televisions and air conditioners) in life are controlled by other control terminals (such as remote controllers), and controlled terminals of different models or categories correspond to different control terminals. Even if the same manufacturer is used, the control terminals equipped for the controlled terminals of different product series are different. If the time is long, the situation that the control terminal is used by mistake or cannot be found is often encountered, and then the matched control terminal is often required to be found again so as to effectively control the controlled terminal. With the development and the development of the internet of things technology, the use of the control terminal is gradually blurred according to the demarcation line of the type or the category of the controlled terminal, and the requirement that the same control terminal is used for controlling different controlled terminals becomes more and more important.

At present, for a controlled terminal, except for a corresponding matched control terminal, a universal control terminal is available on the market for replacing a non-matched control terminal, the universal control terminal integrates control code rules of a plurality of controlled terminals, during matching, the model or the category of the controlled terminal is determined manually, then a corresponding control code rule selection key (usually different models or categories correspond to different selection keys) is determined according to the determined model or category, then the determined selection key is operated manually to select different control code rules and send a control code to the controlled terminal, and finally whether the controlled terminal is matched or not is judged by sensing whether the controlled terminal has a reaction or not manually.

Obviously, the pairing process using the conventional universal control terminal is complex, needs to depend on human identification, analysis, selection, sensing and the like, cannot automatically identify the controlled terminal and select a matched control code rule for the controlled terminal, and is complex to operate and easy to make mistakes.

Disclosure of Invention

The invention mainly aims to provide a method, a system and a terminal for pairing a control terminal and a controlled terminal, so as to realize automatic pairing of the control terminal and the controlled terminal, simplify the pairing operation process and improve the pairing accuracy.

A method for pairing a control terminal and a controlled terminal comprises the following steps: when receiving a pairing instruction sent by a user, the control terminal selects a rule of prestored control codes one by one according to a preset time interval to generate control codes of a preset control type, and sends the generated control codes to the controlled terminal based on a wireless communication environment; the control terminal detects and acquires response information fed back by the controlled terminal within a preset time interval after each generated control code is sent to the controlled terminal; and when the control terminal detects response information from the controlled terminal, locking the control code corresponding to the detected response information, mapping the pre-stored control code rule, and reconfiguring functions according to the locked pre-stored control code rule so as to control the controlled terminal based on the locked pre-stored control code rule.

Preferably, the step of the control terminal detecting and acquiring the response information fed back by the controlled terminal includes: detecting and acquiring response information broadcasted by the controlled terminal; or detecting and acquiring response information fed back by the controlled terminal based on the wireless communication environment.

Preferably, the step of generating the control code of the preset control type by the control terminal selecting the rule of the prestored control code one by one includes: selecting the rules of the prestored control codes one by one according to the storage time sequence of the rules of the prestored control codes to generate the control codes of the preset control types; or selecting the pre-stored control code rules one by one according to the priority sequence of each pre-stored control code rule to generate the control codes of the preset control type.

Preferably, the wireless communication environment is: and directly establishing wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals between the control terminal and the controlled terminal.

Preferably, the wireless communication environment is: the control terminal is in communication connection with the controlled terminal through a local area network gateway, and wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals is established between the control terminal and the local area network gateway; and establishing wired communication connection between the local area network gateway and the controlled terminal, or establishing wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals.

Preferably, the wireless communication environment is: the control terminal is in communication connection with the controlled terminal through a network server, and wireless communication connection based on a wireless communication network is established between the control terminal and the network server; and establishing network communication connection based on the Internet between the network server and the controlled terminal.

Preferably, the wireless communication environment is: the control terminal is in communication connection with the controlled terminal through a network server and a local area network gateway, and wireless communication connection based on a wireless communication network is established between the control terminal and the network server; establishing an internet-based network communication connection between the network server and the local area network gateway; and establishing wired communication connection between the local area network gateway and the controlled terminal, or establishing wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals.

A method for pairing a control terminal and a controlled terminal comprises the following steps: A. when receiving a pairing instruction sent by a user, the control terminal selects a pre-stored control code rule to generate a control code of a preset control type, and sends the generated control code to the controlled terminal based on a wireless communication environment; B. the control terminal detects and acquires response information fed back by the controlled terminal within a preset time interval after the generated control code is sent to the controlled terminal; C. after the control terminal sends the generated control code to the controlled terminal, whether response information fed back by the controlled terminal is detected in a preset time interval or not is judged, the following step D is executed when the response information fed back by the controlled terminal is not detected in the preset time interval, and the following steps H and I are executed when the response information fed back by the controlled terminal is detected in the preset time interval; D. the control terminal selects another unselected pre-stored control code rule to generate another control code of a preset control type, and sends the generated another control code to the controlled terminal based on a wireless communication environment; E. the control terminal detects and acquires response information fed back by the controlled terminal within a preset time interval after the generated another control code is sent to the controlled terminal; F. after sending the generated another control code to the controlled terminal, the control terminal judges whether response information fed back by the controlled terminal is detected in a preset time interval, if the response information fed back by the controlled terminal is not detected in the preset time interval, the control terminal shifts to execute the following step G, and if the response information fed back by the controlled terminal is detected in the preset time interval, the control terminal shifts to execute the following steps H and I; G. the control terminal analyzes whether all the pre-stored control code rules are selected completely, and the steps D, E and F are repeatedly executed when the pre-stored control code rules are not selected; H. the control terminal locks a control code corresponding to the detected response information, and the mapped control code rules are prestored; I. and the control terminal reconfigures functions according to the locked prestored control code rule so as to control the controlled terminal based on the locked prestored control code rule.

A control terminal and controlled terminal pairing system runs in the control terminal in the method, and comprises a module for executing the corresponding steps of the control terminal in the method.

The utility model provides a control terminal with controlled terminal pairing, includes that above-mentioned control terminal and controlled terminal pair the system, and wireless signal sending unit, wherein, wireless signal sending unit is WIFI module, infrared signal sending unit, bluetooth module or takes transmitting antenna's wireless signal transmitter.

Compared with the prior art, the wireless communication environment is constructed between the control terminal and the controlled terminal, the control terminal is used for selecting the pre-stored control code rule one by one according to the preset time interval to generate the control codes of the preset control type, the generated control codes are sent to the controlled terminal based on the wireless communication environment, the response information fed back by the controlled terminal is detected and obtained in the preset time interval after each generated control code is sent to the controlled terminal, the control codes corresponding to the detected response information are locked when the response information is detected, the mapped pre-stored control code rule is used, and the function configuration is carried out again according to the locked pre-stored control code rule, so that the automatic pairing of the control terminal and the controlled terminal is realized, the pairing operation process is effectively simplified, and the pairing accuracy is greatly improved.

Drawings

Fig. 1A to fig. 1H are schematic communication environments of different embodiments of a wireless communication environment supporting pairing of a control terminal and a controlled terminal according to the present invention.

Fig. 2 is a hardware configuration diagram of a preferred embodiment of a control terminal applied in the wireless communication environment shown in fig. 1A to 1H.

Fig. 3 is a functional block diagram of a preferred embodiment of the system for pairing the control terminal and the controlled terminal in fig. 2.

Fig. 4 is a hardware configuration diagram of a preferred embodiment of a controlled terminal applied to the wireless communication environment shown in fig. 1A to 1H.

Fig. 5 is a flowchart illustrating a specific implementation of a first embodiment of a method for pairing a control terminal and a controlled terminal according to the present invention.

Fig. 6 is a flowchart illustrating a second embodiment of a method for pairing a control terminal and a controlled terminal according to the present invention.

The implementation, functional features and advantages of the objects of the present invention will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

It should be noted that the wireless communication environments shown in fig. 1A to 1H are non-exhaustive examples, and those skilled in the art should understand that: the wireless communication environment illustrated in fig. 1A to 1H should be extended to any suitable "wireless communication environment" in which the inventive concept can be implemented.

As shown in fig. 1A and 1B, a wireless communication environment based on a wifi (wireless fidelity) signal is shown.

Environment one (shown in fig. 1A): the control terminal 1 is configured with a WIFI module, the local area network gateway 3 (for example, a router) is configured with a WIFI module, and the control terminal 1 and the local area network gateway 3 establish WIFI signal connection based on the configured WIFI modules respectively; the lan gateway 3 is in wired signal connection with the controlled terminal 2 (for example, wired signal connection is established through a data line), or in wireless signal connection (for example, wireless signal connection is established through respective WIFI modules, respective bluetooth modules, respective infrared signal receiving/transmitting units, respective radio frequency signal receiving/transmitting units, or any suitable wireless communication units); the control terminal 1 firstly sends the control code of the controlled terminal 2 to the local area network gateway 3 through the WIFI signal, and then the local area network gateway 3 sends the control code corresponding to the WIFI signal received from the control terminal 1 to the controlled terminal 2, so that the controlled terminal 2 can respond to the control code and feed back corresponding response information.

Environment two (shown in fig. 1B): the control terminal 1 is configured with a WIFI module, the controlled terminal 2 is configured with a WIFI module, and the control terminal 1 and the controlled terminal 2 establish WIFI signal connection based on the configured WIFI modules respectively; the control terminal 1 directly sends the control code of the controlled terminal 2 to the controlled terminal 2 through the WIFI signal, so that the controlled terminal 2 can respond to the control code and feed back corresponding response information.

The response information may be sound information or communication information that cannot be perceived by human senses (e.g., specific information propagated via wireless communication signals such as WIFI signals, infrared signals, bluetooth signals, and radio frequency signals, or specific information propagated via data lines).

It should be noted that, in this embodiment, when the response information is the sound information, the controlled terminal 2 feeds back the response information in a manner that: the controlled terminal 2 directly broadcasts corresponding sound to the outside through a response information feedback unit (e.g., a speaker) configured by the controlled terminal 2, so that the control terminal 1 detects the sound, i.e., obtains the response information. When the response information is communication information that cannot be perceived by human senses, the controlled terminal 2 feeds back the response information in the following manner: the controlled terminal 2 sends the response information to the feedback information acquisition unit of the control terminal 1 through a response information feedback unit (e.g., a WIFI module, an infrared signal sending unit, a bluetooth module, a radio frequency signal sending unit, or a network connection unit) configured by the controlled terminal itself based on the wireless communication environment of the corresponding environment one or environment two.

A wireless communication environment based on the environment one and the environment two: if the response information is voice information, the feedback information acquiring unit configured by the control terminal 1 is a voice acquiring unit (e.g., a microphone); if the response information is communication information which cannot be sensed by human senses, the function of the feedback information acquisition unit configured by the control terminal 1 can be realized by a WIFI module configured by the control terminal 1.

In the above-mentioned environment one and environment two, avoided in the current infrared remote control signal scheme, control terminal 1 must aim at controlled terminal 2 closely and carry out control operation, as long as in the place that the WIFI signal can reach, no longer restrict control terminal 1's operation direction and distance.

In the first environment, the wireless communication environment established based on the lan gateway 3 is compatible with the existing controlled terminal 2 controlled by an infrared signal and the controlled terminal 2 controlled by other types of signals (e.g., WIFI signals, bluetooth signals, radio frequency signals, radio signals, etc.), and the inventive idea of the present invention can be implemented without changing the hardware configuration of the existing air conditioner.

As shown in fig. 1C and 1D, a wireless communication environment based on infrared signals is shown.

Environment three (shown in fig. 1C): the control terminal 1 is configured with an infrared signal sending unit, the local area network gateway 3 (for example, a router) is configured with an infrared signal receiving unit, and the control terminal 1 and the local area network gateway 3 establish infrared signal connection based on the respective configured infrared signal receiving/sending units; the lan gateway 3 is in wired signal connection with the controlled terminal 2 (for example, wired signal connection is established through a data line), or in wireless signal connection (for example, wireless signal connection is established through respective WIFI modules, respective bluetooth modules, respective infrared signal receiving/transmitting units, respective radio frequency signal receiving/transmitting units, or any suitable wireless communication units); the control terminal 1 firstly sends the control code of the controlled terminal 2 to the local area network gateway 3 through the infrared signal, and then the local area network gateway 3 sends the control code corresponding to the infrared signal received from the control terminal 1 to the controlled terminal 2, so that the controlled terminal 2 responds to the control code and feeds back corresponding response information.

Environment four (shown in fig. 1D): the control terminal 1 is provided with an infrared signal sending unit, the controlled terminal 2 is provided with an infrared signal receiving unit, and the control terminal 1 and the controlled terminal 2 establish infrared signal connection based on the respectively configured infrared signal receiving/sending units; the control terminal 1 directly sends the control code of the controlled terminal 2 to the controlled terminal 2 through the infrared signal, so that the controlled terminal 2 responds to the control code and feeds back corresponding response information.

The response information may be sound information or communication information that cannot be perceived by human senses (e.g., specific information propagated via wireless communication signals such as WIFI signals, infrared signals, bluetooth signals, and radio frequency signals, or specific information propagated via data lines).

It should be noted that, in this embodiment, when the response information is the sound information, the controlled terminal 2 feeds back the response information in a manner that: the controlled terminal 2 directly broadcasts corresponding sound to the outside through a response information feedback unit (e.g., a speaker) configured by the controlled terminal 2, so that the control terminal 1 detects the sound, i.e., obtains the response information. When the response information is communication information that cannot be perceived by human senses, the controlled terminal 2 feeds back the response information in the following manner: the controlled terminal 2 sends the response information to the feedback information acquisition unit of the control terminal 1 through a response information feedback unit (e.g., a WIFI module, an infrared signal sending unit, a bluetooth module, a radio frequency signal sending unit, or a network connection unit) configured by the controlled terminal itself based on the wireless communication environment of the corresponding environment three or environment four.

Wireless communication environments based on the environment three and the environment four described above: if the response information is voice information, the feedback information acquiring unit configured by the control terminal 1 is a voice acquiring unit (e.g., a microphone); if the response information is communication information that cannot be perceived through human senses, the function of the feedback information acquisition unit configured by the control terminal 1 may be implemented by an infrared signal receiving unit configured by the control terminal 1.

In the third environment, the wireless communication environment established based on the local area network gateway 3 is compatible with the existing controlled terminal 2 controlled by the infrared signal and the controlled terminal 2 controlled by other types of signals (for example, WIFI signals, bluetooth signals, radio frequency signals, radio signals, and the like), and the inventive idea of the present invention can be implemented without changing the hardware configuration of the existing air conditioner.

As shown in fig. 1E and 1F, a wireless communication environment based on bluetooth signals is shown.

Environment five (shown in fig. 1E): the control terminal 1 is configured with a Bluetooth module, the local area network gateway 3 (for example, a router) is configured with a Bluetooth module, and the control terminal 1 and the local area network gateway 3 establish Bluetooth signal connection based on the respective configured Bluetooth modules; the lan gateway 3 is in wired signal connection with the controlled terminal 2 (for example, wired signal connection is established through a data line), or in wireless signal connection (for example, wireless signal connection is established through respective WIFI modules, respective bluetooth modules, respective infrared signal receiving/transmitting units, respective radio frequency signal receiving/transmitting units, or any suitable wireless communication units); the control terminal 1 firstly sends the control code of the controlled terminal 2 to the local area network gateway 3 through the Bluetooth signal, and then the local area network gateway 3 sends the control code corresponding to the Bluetooth signal received from the control terminal 1 to the controlled terminal 2, so that the controlled terminal 2 responds to the control code and feeds back corresponding response information.

Environment six (shown in fig. 1B): the control terminal 1 is configured with a Bluetooth module, the controlled terminal 2 is configured with a Bluetooth module, and the control terminal 1 and the controlled terminal 2 establish Bluetooth signal connection based on the respective configured Bluetooth modules; the control terminal 1 directly sends the control code of the controlled terminal 2 to the controlled terminal 2 through the bluetooth signal, so that the controlled terminal 2 can respond to the control code and feed back corresponding response information.

The response information may be sound information or communication information that cannot be perceived by human senses (e.g., specific information propagated via wireless communication signals such as WIFI signals, infrared signals, bluetooth signals, and radio frequency signals, or specific information propagated via data lines).

It should be noted that, in this embodiment, when the response information is the sound information, the controlled terminal 2 feeds back the response information in a manner that: the controlled terminal 2 directly broadcasts corresponding sound to the outside through a response information feedback unit (e.g., a speaker) configured by the controlled terminal 2, so that the control terminal 1 detects the sound, i.e., obtains the response information. When the response information is communication information that cannot be perceived by human senses, the controlled terminal 2 feeds back the response information in the following manner: the controlled terminal 2 sends the response information to the feedback information acquisition unit of the control terminal 1 through a response information feedback unit (e.g., a WIFI module, an infrared signal sending unit, a bluetooth module, a radio frequency signal sending unit, or a network connection unit) configured by the controlled terminal itself based on the wireless communication environment of the corresponding environment five or environment six.

Wireless communication environment based on environment five and environment six above: if the response information is voice information, the feedback information acquiring unit configured by the control terminal 1 is a voice acquiring unit (e.g., a microphone); if the response information is communication information that cannot be perceived through human senses, the function of the feedback information acquisition unit configured by the control terminal 1 may be implemented by a bluetooth module configured by the control terminal 1.

In the fifth environment and the sixth environment, it is avoided that in the existing infrared remote control signal scheme, the control terminal 1 must be aligned to the controlled terminal 2 in a short distance to perform control operation, and as long as the bluetooth signal can reach the place, the operation direction and distance of the control terminal 1 are not limited any more.

In the fifth environment, the wireless communication environment established based on the lan gateway 3 is compatible with the existing controlled terminal 2 controlled by an infrared signal and the controlled terminal 2 controlled by other types of signals (e.g., WIFI signals, bluetooth signals, radio frequency signals, radio signals, etc.), and the inventive idea of the present invention can be implemented without changing the hardware configuration of the existing air conditioner.

As shown in fig. 1G and 1H, a wireless communication environment based on a mobile internet is shown.

Environment seven (shown in fig. 1G): the control terminal 1 is provided with a wireless communication unit, the local area network gateway 3 (for example, a router) is provided with a network connection unit, the control terminal 1 establishes network connection with the network server 5 based on the wireless communication unit and through a wireless communication network (mobile internet), and the local area network gateway 3 establishes internet network connection with the network server 5 based on the network connection unit; the lan gateway 3 is in wired signal connection with the controlled terminal 2 (for example, wired signal connection is established through a data line), or in wireless signal connection (for example, wireless signal connection is established through respective WIFI modules, respective bluetooth modules, respective infrared signal receiving/transmitting units, respective radio frequency signal receiving/transmitting units, or any suitable wireless communication units); the control terminal 1 firstly sends the control code of the controlled terminal 2 to the network server 5 through the wireless communication network (mobile internet) so that the network server 5 sends the control code received from the control terminal 1 to the local area network gateway 3 in communication connection with the network server, and then the local area network gateway 3 sends the control code received from the network server 5 to the controlled terminal 2 so that the controlled terminal 2 responds to the control code and feeds back corresponding response information.

Environment eight (shown in fig. 1H): the control terminal 1 is provided with a wireless communication unit, the controlled terminal 2 is provided with a network connection unit, the control terminal 1 establishes network connection with the network server 5 through a wireless communication network (mobile internet) based on the wireless communication unit, and the controlled terminal 2 establishes internet network connection with the network server 5 based on the network connection unit; the control terminal 1 firstly sends the control code of the controlled terminal 2 to the network server 5 through the wireless communication network (mobile internet), and then the network server 5 sends the control code received from the control terminal 1 to the controlled terminal 2, so that the controlled terminal 2 responds to the control code and feeds back corresponding response information.

The response information may be sound information or communication information that cannot be perceived by human senses (e.g., specific information propagated via wireless communication signals such as WIFI signals, infrared signals, bluetooth signals, and radio frequency signals, or specific information propagated via data lines).

It should be noted that, in this embodiment, when the response information is the sound information, the controlled terminal 2 feeds back the response information in a manner that: the controlled terminal 2 directly broadcasts corresponding sound to the outside through a response information feedback unit (e.g., a speaker) configured by the controlled terminal 2, so that the control terminal 1 detects the sound, i.e., obtains the response information. When the response information is communication information that cannot be perceived by human senses, the controlled terminal 2 feeds back the response information in the following manner: the controlled terminal 2 sends the response information to the feedback information acquisition unit of the control terminal 1 through a response information feedback unit (e.g., a WIFI module, an infrared signal sending unit, a bluetooth module, a radio frequency signal sending unit, or a network connection unit) configured by the controlled terminal itself based on the corresponding wireless communication environment of environment seven or environment eight.

Wireless communication environment based on environment seven and environment eight described above: if the response information is voice information, the feedback information acquiring unit configured by the control terminal 1 is a voice acquiring unit (e.g., a microphone); if the response information is communication information that cannot be perceived by human senses, the function of the feedback information acquisition unit configured by the control terminal 1 may be implemented by a wireless communication unit configured by the control terminal 1.

In the seventh environment and the eighth environment, it is avoided that in the existing infrared remote control signal scheme, the control terminal 1 must be closely aligned with the controlled terminal 2 to perform control operation, and as long as the mobile internet or the traditional internet can reach the place, the operation direction and distance of the control terminal 1 are no longer limited (even the two are separated by two or two countries to perform control operation).

In the seventh environment, the wireless communication environment established based on the lan gateway 3 is compatible with the existing controlled terminal 2 controlled by an infrared signal and the controlled terminal 2 controlled by other types of signals (e.g., WIFI signals, bluetooth signals, radio frequency signals, radio signals, etc.), and the inventive idea of the present invention can be implemented without changing the hardware configuration of the existing air conditioner.

It should be noted that the wireless communication environments shown in fig. 1A to 1H are only examples of preferred embodiments, and those skilled in the art can easily configure a similar wireless communication environment for pairing the control terminal and the controlled terminal, for example, a wireless communication environment based on radio signals, with reference to the examples in fig. 1A to 1H. And will not be described in detail herein.

Fig. 2 is a hardware block diagram of a preferred embodiment of a control terminal applied to the wireless communication environment shown in fig. 1A to 1H. The control terminal 1 comprises a processing unit 10, a storage unit 15, a wireless signal transmitting unit 13, an input unit 16, a control terminal and controlled terminal pairing system 11 and a feedback information acquiring unit 17. The control terminal 1 may be a remote controller, a mobile phone, a tablet computer, a computer or any other suitable electronic device (preferably a mobile phone); the controlled terminal 2 may be a television, an air conditioner or any other suitable electronic device (preferably an air conditioner).

The input unit 16 (e.g., a preset physical key or a preset virtual key for triggering a pairing instruction) is configured to allow a user to input a pairing instruction (e.g., the user operates the preset physical key or the virtual key to input the pairing instruction). Based on the inventive idea of the present invention, the control terminal 1 may further include a display unit (not shown in the figure) for outputting and displaying a pairing operation interface of the control terminal and the controlled terminal pairing system 11 and/or a control operation interface of the controlled terminal 2 after successful pairing.

The storage unit 15 is used for storing the control terminal and controlled terminal pairing system 11 and the operation data thereof. It should be emphasized that the storage unit 15 may be a single storage device or a combination of a plurality of different storage devices, which will not be described herein. The operation data comprises a plurality of pre-stored control code rules, and each pre-stored control code rule corresponds to one type or category of controlled terminal 2.

The wireless signal transmitting unit 13 is configured to transmit a control code of a preset control type to the controlled terminal 2 under the control of the processing unit 10.

The feedback information obtaining unit 17 is configured to detect and receive response information to the control code fed back by the controlled terminal 2 under the control of the processing unit 10.

For the wireless communication environment shown in fig. 1A and 1B, the wireless signal transmitting unit 13 and the feedback information acquiring unit 17 are two sub-units of the WIFI module respectively; alternatively, the wireless signal transmitting unit 13 is a WIFI module, and the feedback information acquiring unit 17 is a sound acquiring unit (e.g., a microphone).

For the wireless communication environment shown in fig. 1C and 1D, the wireless signal transmitting unit 13 is an infrared signal transmitting unit, and the feedback information acquiring unit 17 is an infrared signal receiving unit or a sound acquiring unit (e.g., a microphone).

For the wireless communication environments shown in fig. 1E and 1F, the wireless signal transmitting unit 13 and the feedback information acquiring unit 17 are two sub-units of a bluetooth module respectively; alternatively, the wireless signal transmitting unit 13 is a bluetooth module, and the feedback information acquiring unit 17 is a sound acquiring unit (e.g., a microphone).

For the wireless communication environments shown in fig. 1G and fig. 1H, the wireless signal transmitting unit 13 and the feedback information acquiring unit 17 are two sub-units of the wireless communication unit, respectively; alternatively, the wireless signal transmitting unit 13 is a wireless communication unit, and the feedback information acquiring unit 17 is a sound acquiring unit (e.g., a microphone).

It is emphasized that, as those skilled in the art will appreciate, in other embodiments of the present invention, the wireless signal transmitting unit 13 is any other suitable type of wireless signal transmitting unit (e.g., a radio signal transmitting unit), and the feedback information acquiring unit 17 is any other suitable type of feedback information acquiring unit (e.g., a radio signal receiving unit).

The processing unit 10 is configured to invoke and execute the control terminal and controlled terminal pairing system 11, and control the wireless signal transmitting unit 13 to transmit a control code of a preset control type to the controlled terminal 2 without knowing a control code rule prestored in the controlled terminal 2; and controls the feedback information obtaining unit 17 to detect and receive the response information to the control code fed back by the controlled terminal 2, so as to realize the pairing of the control terminal 1 and the controlled terminal 2. The processing unit 10 and the storage unit 15 may be separate units or integrated together to form a controller, which is not described herein again

Fig. 3 is a functional block diagram of a preferred embodiment of the system for pairing the control terminal and the controlled terminal in fig. 2.

It should be emphasized that the functional block diagram shown in fig. 3 is only an exemplary diagram of a preferred embodiment, and those skilled in the art can easily add new functional blocks around the functional block of the control terminal and controlled terminal pairing system 11 shown in fig. 3.

The system 11 for pairing a control terminal with a controlled terminal includes a control code sending module 110 and a pairing control module 112. The functions of the functional modules of the control terminal and controlled terminal pairing system 11 are as follows:

the control code sending module 110 is configured to, when receiving a pairing instruction sent by a user, select a pre-stored control code rule one by one according to a preset time interval (e.g., 0.4 second, 1 second, 1.2 second, and the like) to generate a control code of a preset control type (e.g., controlling power on or controlling power off), send the generated control code to the controlled terminal 2 based on a wireless communication environment (e.g., the wireless communication environment shown in fig. 1A to 1H), and detect and obtain response information fed back by the controlled terminal 2 in the preset time interval (e.g., 0.4 second, 1 second, 1.2 second, and the like) after sending each generated control code to the controlled terminal 2.

The manner of feeding back the response information by the controlled terminal 2 includes: mode one, broadcasting the response information (e.g., sound information); and secondly, responding information (for example, specific information propagated via wireless communication signals such as WIFI signals, infrared signals, bluetooth signals and radio frequency signals) fed back based on the wireless communication environment. The second mode has the advantages that the feedback information is not influenced by environmental noise, is relatively accurate, is hardly influenced by propagation distance, cannot be detected normally, can be diversified in content of response information, and can be used for setting corresponding content of response information for different control codes, so that the pairing is more accurate. Therefore, the second embodiment is preferable.

The selection method for selecting the pre-stored control code rule one by the control code sending module 110 includes: selecting one by one according to the storage time sequence of each pre-stored control code rule; or, selecting one by one according to the priority order of each pre-stored control code rule; or according to any other suitable selection.

The pairing control module 112 is configured to, when the control code sending module 110 detects response information from the controlled terminal 2, lock a pre-stored control code rule mapped by a control code corresponding to the response information, and perform function configuration again according to the locked pre-stored control code rule (for example, redefine functions of each touch area or each key of the control terminal 1; for example, redefine a function of a touch area or a key as a "power on/off" function on the basis of the function), so as to control the controlled terminal 2 based on the locked pre-stored control code rule.

Fig. 4 is a hardware block diagram of a preferred embodiment of a controlled terminal applied to the wireless communication environment shown in fig. 1A to 1H. The controlled terminal 2 includes a wireless signal receiving unit 23, a control code response processing unit 21, and a response information feedback unit 20.

The wireless signal receiving unit 23 is configured to receive a control code transmitted by the control terminal 1 based on a wireless communication environment.

The control code response processing unit 21 is configured to analyze whether the control code received by the wireless signal receiving unit 23 is the control code corresponding to the controlled terminal 2, and when the control code received by the wireless signal receiving unit 23 is the control code corresponding to the controlled terminal 2, respond to the control code and execute an operation (for example, power on or power off) corresponding to the control code.

The response information feedback unit 20 is configured to feed back corresponding response information to the control terminal 1 when the control code response processing unit 21 responds to the control code.

For the wireless communication environment shown in fig. 1A and 1B, the wireless signal receiving unit 23 and the response information feedback unit 20 are two sub-units of the WIFI module respectively; alternatively, the wireless signal transmitting unit 23 is a WIFI module, an infrared signal receiving unit, a bluetooth module, or a radio frequency signal receiving unit, and the response information feedback unit 20 is an infrared signal transmitting unit, a bluetooth module, a radio frequency signal transmitting unit, or a sound output unit (e.g., a speaker).

For the wireless communication environment shown in fig. 1C and 1D, the wireless signal receiving unit 23 is an infrared signal receiving unit, and the response information feedback unit 20 is an infrared signal transmitting unit; alternatively, the wireless signal transmitting unit 23 is a WIFI module, a bluetooth module, or a radio frequency signal receiving unit, and the response information feedback unit 20 is a WIFI module, a bluetooth module, a radio frequency signal transmitting unit, or a sound output unit (e.g., a speaker).

For the wireless communication environment shown in fig. 1E and fig. 1F, the wireless signal receiving unit 23 and the response information feedback unit 20 are two sub-units of a bluetooth module, respectively; alternatively, the wireless signal transmitting unit 23 is a WIFI module, an infrared signal receiving unit, or a radio frequency signal receiving unit, and the response information feedback unit 20 is a WIFI module, an infrared signal transmitting unit, a radio frequency signal transmitting unit, or a sound output unit (e.g., a speaker).

For the wireless communication environments shown in fig. 1G and fig. 1H, the wireless signal receiving unit 23 and the response information feedback unit 20 are two sub-units of the wireless communication unit, respectively; alternatively, the wireless signal transmitting unit 23 is a WIFI module, an infrared signal receiving unit, a bluetooth module, or a radio frequency signal receiving unit, and the response information feedback unit 20 is a WIFI module, an infrared signal transmitting unit, a bluetooth module, a radio frequency signal transmitting unit, or a sound output unit (e.g., a speaker).

It is emphasized that, in other embodiments of the present invention, the wireless signal receiving unit 23 is any other suitable type of wireless signal receiving unit (e.g., a radio signal receiving unit), and the response information feedback unit 20 is any other suitable type of information feedback unit (e.g., a radio signal transmitting unit).

Fig. 5 is a flowchart illustrating a first embodiment of a method for pairing a control terminal and a controlled terminal according to the present invention.

In step S10, when receiving the pairing instruction sent by the user, the control code sending module 110 selects the pre-stored control code rule one by one according to a preset time interval (e.g., 0.4 second, 1 second, 1.2 second, etc.) to generate a control code of a preset control type (e.g., controlling power on or controlling power off), and sends the generated control code to the controlled terminal 2 based on a wireless communication environment (e.g., the wireless communication environments shown in fig. 1A to 1H).

In step S11, the control code sending module 110 detects and obtains the response information fed back by the controlled terminal 2 within a preset time interval (e.g., 0.4 second, 1 second, 1.2 seconds, etc.) after sending each generated control code to the controlled terminal 2.

The manner of feeding back the response information by the controlled terminal 2 includes: mode one, broadcasting the response information (e.g., sound information); and secondly, responding information (for example, specific information propagated via wireless communication signals such as WIFI signals, infrared signals, bluetooth signals and radio frequency signals) fed back based on the wireless communication environment. The second mode has the advantages that the feedback information is not influenced by environmental noise, is relatively accurate, is hardly influenced by propagation distance, cannot be detected normally, can be diversified in content of response information, and can be used for setting corresponding content of response information for different control codes, so that the pairing is more accurate. Therefore, the second embodiment is preferable.

The selection method for selecting the pre-stored control code rule one by the control code sending module 110 includes: selecting one by one according to the storage time sequence of each pre-stored control code rule; or, selecting one by one according to the priority order of each pre-stored control code rule; or according to any other suitable selection.

In step S12, when the control code sending module 110 detects a response message from the controlled terminal 2, the pairing control module 112 locks the pre-stored control code rule mapped by the control code corresponding to the response message.

In step S13, the pairing control module 112 re-configures functions according to the locked pre-stored control code rule (e.g., re-defines functions of each touch area or each key of the control terminal 1; on this basis, re-defines a function of a touch area or a key as an "on/off" function, for example) to control the controlled terminal 2 based on the locked pre-stored control code rule.

Fig. 6 is a flowchart illustrating a second embodiment of a method for pairing a control terminal and a controlled terminal according to the present invention.

In step S100, when receiving a pairing instruction sent by a user, the control code sending module 110 selects a pre-stored control code rule to generate a control code of a preset control type (for example, controlling power on or controlling power off), and sends the generated control code to the controlled terminal 2 based on a wireless communication environment (for example, the wireless communication environments shown in fig. 1A to 1H).

Step S101, the control code sending module 110 detects and obtains response information fed back by the controlled terminal 2 within a preset time interval (for example, 0.4 second, 1 second, 1.2 seconds, etc.) after sending the generated control code to the controlled terminal 2; the pairing control module 112 determines whether the control code sending module 110 detects response information fed back by the controlled terminal 2 at a preset time interval after the control code sending module 110 sends the generated control code to the controlled terminal 2.

The manner of feeding back the response information by the controlled terminal 2 includes: mode one, broadcasting the response information (e.g., sound information); and secondly, responding information (for example, specific information propagated via wireless communication signals such as WIFI signals, infrared signals, bluetooth signals and radio frequency signals) fed back based on the wireless communication environment. The second mode has the advantages that the feedback information is not influenced by environmental noise, is relatively accurate, is hardly influenced by propagation distance, cannot be detected normally, can be diversified in content of response information, and can be used for setting corresponding content of response information for different control codes, so that the pairing is more accurate. Therefore, the second embodiment is preferable.

When response information fed back by the controlled terminal 2 is detected within a preset time interval, the following steps S106 and S107 are executed; or, when the response information fed back by the controlled terminal 2 is not detected within a preset time interval, the following step S102 is executed.

In step S102, the control code sending module 110 selects another unselected pre-stored control code rule to generate another control code of the preset control type, and sends the generated another control code to the controlled terminal 2 based on the wireless communication environment.

Step S103, the control code sending module 110 detects and obtains response information fed back by the controlled terminal 2 within a preset time interval after sending the generated another control code to the controlled terminal 2; the pairing control module 112 determines whether the control code sending module 110 detects response information fed back by the controlled terminal 2 at a preset time interval after the control code sending module 110 sends the generated another control code to the controlled terminal 2.

When response information fed back by the controlled terminal 2 is detected within a preset time interval, the following steps S106 and S107 are executed; or, when the response information fed back by the controlled terminal 2 is not detected within a preset time interval, the following step S105 is executed.

In step S105, the pairing control module 112 analyzes whether all the pre-stored control code rules have been selected.

When all the pre-stored control code rules are selected, the process is ended; alternatively, when the pre-stored control code rule is not selected, the process proceeds to step S102.

In step S106, the pairing control module 112 locks the control code corresponding to the detected response information, and the mapped pre-stored control code rule.

In step S107, the pairing control module 112 re-configures functions according to the locked pre-stored control code rule (e.g., re-defines functions of each touch area or each key of the control terminal 1; on this basis, for example, re-defines a function of a touch area or a key as a "power on/off" function), so as to control the controlled terminal 2 based on the locked pre-stored control code rule.

The above description is only a preferred embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. A method for pairing a control terminal and a controlled terminal is characterized by comprising the following steps:

when receiving a pairing instruction sent by a user, the control terminal selects a rule of prestored control codes one by one according to a preset time interval to generate control codes of a preset control type, and sends the generated control codes to the controlled terminal based on a wireless communication environment;

the control terminal detects and acquires response information fed back by the controlled terminal within a preset time interval after each generated control code is sent to the controlled terminal;

and when the control terminal detects response information from the controlled terminal, locking the control code corresponding to the detected response information, mapping the pre-stored control code rule, and reconfiguring functions according to the locked pre-stored control code rule so as to control the controlled terminal based on the locked pre-stored control code rule.

2. The method as claimed in claim 1, wherein the step of the control terminal detecting and acquiring the response information fed back by the controlled terminal comprises:

detecting and acquiring response information broadcasted by the controlled terminal; or,

and detecting and acquiring response information fed back by the controlled terminal based on the wireless communication environment.

3. The method for pairing a control terminal with a controlled terminal according to claim 1, wherein the step of the control terminal selecting the pre-stored control code rule one by one to generate the control code of the preset control type comprises:

selecting the rules of the prestored control codes one by one according to the storage time sequence of the rules of the prestored control codes to generate the control codes of the preset control types; or

And selecting the pre-stored control code rules one by one according to the priority sequence of each pre-stored control code rule to generate the control codes of the preset control type.

4. The method for pairing a control terminal with a controlled terminal according to claim 1, wherein the wireless communication environment is: and directly establishing wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals between the control terminal and the controlled terminal.

5. The method for pairing a control terminal with a controlled terminal according to claim 1, wherein the wireless communication environment is: the control terminal is in communication connection with the controlled terminal through a local area network gateway, and wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals is established between the control terminal and the local area network gateway; and establishing wired communication connection between the local area network gateway and the controlled terminal, or establishing wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals.

6. The method for pairing a control terminal with a controlled terminal according to claim 1, wherein the wireless communication environment is: the control terminal is in communication connection with the controlled terminal through a network server, and wireless communication connection based on a wireless communication network is established between the control terminal and the network server; and establishing network communication connection based on the Internet between the network server and the controlled terminal.

7. The method for pairing a control terminal with a controlled terminal according to claim 1, wherein the wireless communication environment is: the control terminal is in communication connection with the controlled terminal through a network server and a local area network gateway, and wireless communication connection based on a wireless communication network is established between the control terminal and the network server; establishing an internet-based network communication connection between the network server and the local area network gateway; and establishing wired communication connection between the local area network gateway and the controlled terminal, or establishing wireless communication connection based on WIFI signals, infrared signals or Bluetooth signals.

8. A method for pairing a control terminal and a controlled terminal is characterized by comprising the following steps:

A. when receiving a pairing instruction sent by a user, the control terminal selects a pre-stored control code rule to generate a control code of a preset control type, and sends the generated control code to the controlled terminal based on a wireless communication environment;

B. the control terminal detects and acquires response information fed back by the controlled terminal within a preset time interval after the generated control code is sent to the controlled terminal;

C. after the control terminal sends the generated control code to the controlled terminal, whether response information fed back by the controlled terminal is detected in a preset time interval or not is judged, the following step D is executed when the response information fed back by the controlled terminal is not detected in the preset time interval, and the following steps H and I are executed when the response information fed back by the controlled terminal is detected in the preset time interval;

D. the control terminal selects another unselected pre-stored control code rule to generate another control code of a preset control type, and sends the generated another control code to the controlled terminal based on a wireless communication environment;

E. the control terminal detects and acquires response information fed back by the controlled terminal within a preset time interval after the generated another control code is sent to the controlled terminal;

F. after sending the generated another control code to the controlled terminal, the control terminal judges whether response information fed back by the controlled terminal is detected in a preset time interval, if the response information fed back by the controlled terminal is not detected in the preset time interval, the control terminal shifts to execute the following step G, and if the response information fed back by the controlled terminal is detected in the preset time interval, the control terminal shifts to execute the following steps H and I;

G. the control terminal analyzes whether all the pre-stored control code rules are selected completely, and the steps D, E and F are repeatedly executed when the pre-stored control code rules are not selected;

H. the control terminal locks a control code corresponding to the detected response information, and the mapped control code rules are prestored;

I. and the control terminal reconfigures functions according to the locked prestored control code rule so as to control the controlled terminal based on the locked prestored control code rule.

9. A system for pairing a control terminal with a controlled terminal, which is operated in the control terminal in the method according to any one of claims 1 to 8, wherein the system for pairing a control terminal with a controlled terminal comprises a module for executing the corresponding steps of the control terminal in the method according to any one of claims 1 to 8.

10. A control terminal matched with a controlled terminal, which is characterized by comprising the control terminal and controlled terminal matching system as claimed in claim 9, and a wireless signal sending unit, wherein the wireless signal sending unit is a WIFI module, an infrared signal sending unit, a Bluetooth module or a wireless signal transmitter with a transmitting antenna.

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