WO2018040741A1 - 一种家电控制方法及装置、系统及存储介质 - Google Patents
一种家电控制方法及装置、系统及存储介质 Download PDFInfo
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- WO2018040741A1 WO2018040741A1 PCT/CN2017/092104 CN2017092104W WO2018040741A1 WO 2018040741 A1 WO2018040741 A1 WO 2018040741A1 CN 2017092104 W CN2017092104 W CN 2017092104W WO 2018040741 A1 WO2018040741 A1 WO 2018040741A1
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- home appliance
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- smart home
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- 238000000034 method Methods 0.000 title claims abstract description 26
- 230000006870 function Effects 0.000 claims description 134
- 238000004891 communication Methods 0.000 claims description 41
- 238000013507 mapping Methods 0.000 claims description 24
- 230000000875 corresponding effect Effects 0.000 claims 14
- 230000001276 controlling effect Effects 0.000 claims 6
- 230000002596 correlated effect Effects 0.000 claims 2
- 238000010586 diagram Methods 0.000 description 9
- 238000004590 computer program Methods 0.000 description 6
- 238000012545 processing Methods 0.000 description 5
- 230000003993 interaction Effects 0.000 description 3
- 230000005540 biological transmission Effects 0.000 description 2
- 238000005516 engineering process Methods 0.000 description 2
- 238000006243 chemical reaction Methods 0.000 description 1
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C17/00—Arrangements for transmitting signals characterised by the use of a wireless electrical link
- G08C17/02—Arrangements for transmitting signals characterised by the use of a wireless electrical link using a radio link
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- G—PHYSICS
- G08—SIGNALLING
- G08C—TRANSMISSION SYSTEMS FOR MEASURED VALUES, CONTROL OR SIMILAR SIGNALS
- G08C23/00—Non-electrical signal transmission systems, e.g. optical systems
- G08C23/04—Non-electrical signal transmission systems, e.g. optical systems using light waves, e.g. infrared
Definitions
- the present disclosure relates to home appliance control technologies, and in particular, to a home appliance control method and apparatus, system, and storage medium.
- the home appliance market has entered an intelligent stage, and the home appliances manufacturers produced by the major appliance manufacturers in recent years are all intelligent, and it is easy to join the smart home appliance system.
- the home appliances are intelligent, and traditional home appliances still occupy a large proportion.
- the current smart home appliances system is aimed at smart home appliances, and there is no control over traditional non-smart home appliances.
- the smart home appliance means that the home appliance itself establishes a communication connection with the gateway, and the gateway can directly connect with the cloud, so that the information of the home appliance can also be transmitted to the cloud, and the user can directly control the home appliance by using the remote application (APP), thereby realizing the smart home appliance. control.
- the smart home itself integrates a zigbee, Bluetooth, wireless fidelity (wifi) and other wireless communication modules that can be directly connected to the gateway. It is easy to establish a network connection between the gateway and the home appliance, thereby obtaining information of the home appliance and realizing the information. Intelligent control of home appliances.
- non-smart home appliances do not contain communication modules.
- home appliances are controlled by traditional infrared remote controls, and these appliances also account for a large proportion. It can be seen how to put traditional non-smart home appliances.
- the inclusion of smart home appliances is an important issue to be studied and solved.
- the embodiments of the present disclosure provide a home appliance control method, device, system, and storage medium, which can implement intelligent control of non-smart home appliances.
- the receiving the control instruction includes:
- the method further includes:
- the button function of the remote controller for controlling the non-smart home appliance is learned, and a mapping relationship between the code value and the function is obtained.
- the function of the button for controlling the remote controller of the non-smart home appliance is learned, and the mapping relationship between the code value and the function is obtained, including:
- the code value is associated with the function of the non-smart home appliance to obtain a mapping relationship between the code value and the function.
- the receiving the control instruction includes:
- the short-range wireless communication includes at least one of the following: wireless fidelity wifi, Bluetooth, and purple bee zigbee.
- the home appliance control device provided by the optional embodiment of the present disclosure includes: a remote control module; wherein
- the remote control module is configured to receive a control command, parse the control command, obtain a function corresponding to the control command, search for a code value corresponding to the function, and emit a control light according to the code value
- the non-smart home appliance controls the non-smart home appliance to perform a function corresponding to the control instruction.
- the remote control module is further configured to receive, by the routing module, a control instruction sent by the terminal through the cloud, where the control instruction is used for a non-smart home appliance Take control.
- the remote control module is further configured to receive a function learning instruction sent by the terminal by the terminal through the cloud; after receiving the function learning instruction, the pair is used to control the non-intelligence The key function of the remote control of the home appliance is learned, and the mapping relationship between the code value and the function is obtained.
- the remote control module is further configured to receive infrared rays emitted by the remote controller, determine a code value corresponding to the infrared rays, and associate the code value with a function of the non-smart home appliance to obtain The mapping between code values and functions.
- the remote control module is further configured to receive, by short-range wireless communication, a control instruction sent by the routing module, where the short-range wireless communication includes at least one of the following: wifi, Bluetooth, zigbee .
- the storage medium provided by the optional embodiment of the present disclosure includes a stored program, wherein the program execution method executes the above-described home appliance control method.
- the home appliance control system provided by the optional embodiment of the present disclosure includes: a routing module and a remote control module; wherein
- the routing module is configured to send the control instruction to the remote control module when receiving the control instruction
- the remote control module is configured to parse the control command to obtain a function corresponding to the control command, search for a code value corresponding to the function, and emit control light to the non-smart home appliance according to the code value, Controlling the non-smart home appliance to perform a function corresponding to the control command.
- the routing module is further configured to receive, by using a cloud, a control instruction sent by the terminal, where the control instruction is used to control a non-smart home appliance;
- the control command is sent to the remote control module; wherein the short-range wireless communication includes at least one of the following: wifi, Bluetooth, zigbee.
- the routing module is further configured to send the function learning instruction to the remote control module when receiving a function learning instruction sent by the terminal through the cloud;
- the remote control module is further configured to learn the button function of the remote controller for controlling the non-smart home appliance after receiving the function learning instruction, and obtain a mapping relationship between the code value and the function.
- the remote control module is further configured to receive infrared rays emitted by the remote controller, determine a code value corresponding to the infrared rays, and associate the code value with a function of the non-smart home appliance to obtain The mapping between code values and functions.
- the remote control module is further configured to receive, by short-range wireless communication, a control instruction sent by the routing module; search for a code value corresponding to the function, and emit a control light according to the code value.
- the non-smart home appliance is controlled to perform the function corresponding to the control instruction by controlling the non-smart home appliance.
- the home appliance control system includes: a routing module and a remote control module; and when the routing module receives the control instruction of the cloud, the routing module sends the control command to the remote control module; Parsing the control command to obtain a function corresponding to the control command; searching for a code value corresponding to the function, and transmitting control light to the non-smart home appliance according to the code value to control the non-smart home appliance A function corresponding to the control command is executed.
- non-smart home appliances can be realized by converting control commands into infrared rays that can be responded to by non-smart home appliances, so that non-smart home appliances and smart home appliances can be controlled by remote users as well.
- FIG. 1 is a schematic flow chart of a home appliance control method according to an alternative embodiment of the present disclosure
- FIG. 2 is a schematic structural diagram of an apparatus for controlling a non-smart home appliance according to an alternative embodiment of the present disclosure
- FIG. 3 is a schematic structural diagram of a system for controlling a non-smart home appliance according to an alternative embodiment of the present disclosure
- FIG. 4 is a schematic diagram of a home appliance control frame according to an alternative embodiment of the present disclosure.
- FIG. 1 is a schematic flow chart of a home appliance control method according to an alternative embodiment of the present disclosure.
- the home appliance control method in this example is applied to a home appliance control device, and the device includes: a remote control module.
- the home appliance control method includes the following steps:
- Step 101 Receive a control instruction.
- the remote control module receives a control command sent by the routing module and transmitted by the terminal through the cloud, wherein the control command is used to control the non-smart home appliance.
- the routing module may be implemented by an intelligent router, where the wireless communication sub-module and the short-range wireless communication sub-module are integrated, wherein the wireless communication sub-module is configured to pass through the cloud and the remote end.
- the user performs information interaction; the short-range wireless communication sub-module is configured to perform information interaction with the remote control module through short-range wireless communication.
- Short-range wireless communication includes at least one of the following: wifi, Bluetooth, zigbee. Taking short-range wireless communication as an example of Bluetooth, the short-range wireless communication sub-module can be implemented by a Bluetooth chip.
- a short-range wireless communication sub-module and an infrared transmission sub-module are integrated, wherein the short-range wireless communication sub-module is configured to perform information interaction with the routing module through short-range wireless communication.
- Short-range wireless communication includes at least one of the following: wifi, Bluetooth, zigbee. Taking short-range wireless communication as an example of Bluetooth, the short-range wireless communication sub-module can be implemented by a Bluetooth chip.
- the remote control module receives the control command sent by the routing module and sent by the cloud, including:
- the remote control module receives the control command transmitted by the routing module and sent by the cloud through short-range wireless communication.
- the remote control module receives a control command sent by the routing module and transmitted by the terminal through the cloud, where the control command is used to control the non-smart home appliance.
- the control command may be sent to the routing module through the cloud, where the control command is used to control the non-smart home appliance, for example, switching the channel to the television. Adjust the temperature of the air conditioner, adjust the temperature of the refrigerator, and so on.
- the routing module receives the control instruction of the cloud, the routing module sends the control command to the remote control module.
- the non-smart home appliance is equipped with a remote controller, and the non-smart home appliance can be controlled by the remote controller.
- the remote control is a wireless transmitting device that encodes the key information into an infrared code value through digital coding technology, and then emits infrared light through an infrared diode.
- the infrared receiver of the non-smart home appliance converts the received infrared light into an electrical signal and performs decoding and demodulation. After the corresponding instruction is issued, the execution instruction completes the operation. It can be seen that non-smart home appliances intelligently respond to infrared signals. To this end, the routing module is required to send control commands to the remote control module for signal conversion.
- Step 102 Parsing the control instruction to obtain a function corresponding to the control instruction, searching for a code value corresponding to the function, and transmitting control light to the non-smart home appliance according to the code value, to control the The non-smart home appliance performs a function corresponding to the control command.
- the remote control module parses the control command to obtain a function corresponding to the control command; searches for a code value corresponding to the function, and emits control light to the non-smart home appliance according to the code value to control the
- the non-smart home appliance performs a function corresponding to the control command.
- the code value corresponding to the function may be an infrared code value, and accordingly, the control light is infrared.
- the remote control module can parse the control command to obtain a function corresponding to the control command, and the function is to control the function performed by the non-smart home appliance. Then, the remote control module searches for an infrared code value corresponding to the function, and emits infrared rays to the non-smart home appliance according to the infrared code value to control the non-smart home appliance to perform a function corresponding to the control instruction.
- the remote control module needs to first store the mapping relationship between the infrared code value and the function,
- the remote control module receives a function learning instruction sent by the terminal through the cloud by the terminal; after receiving the function learning instruction, the remote control module learns a button function of the remote controller for controlling the non-smart home appliance, and obtains The mapping relationship between infrared code values and functions.
- the function of the button for controlling the remote controller of the non-smart home appliance is learned, and the mapping relationship between the infrared code value and the function is obtained, including:
- the remote control module receives infrared rays emitted by the remote controller, and determines an infrared code value corresponding to the infrared rays;
- the remote control module associates the infrared code value with the function of the non-smart home appliance to obtain a mapping relationship between the infrared code value and the function.
- each non-smart home appliance may correspond to a remote control module.
- the remote control module learns the button function of the remote controller, the remote control module may be placed at a position where the non-smart home appliance is close to the signal receiving module.
- the quality of communication between the remote control module and the non-smart home appliance can be ensured.
- the remote control module can be combined with the routing module.
- the remote control module of each non-smart home appliance can be integrated and set together to form a universal remote control module.
- the routing module has a routing forwarding function, the first end of the routing module communicates with the cloud, and the other end communicates with the remote control module, and the control command sent by the cloud is routed to the corresponding remote control module, thereby passing the remote control module. Control the corresponding non-smart home appliances.
- the user controls the remote control module to learn the button function of the remote controller of the non-smart home appliance through the routing module; after the learning is completed, the remote control module is attached to the infrared receiver of the non-smart home appliance, and the user can pass the routing module to
- the remote control module sends messages via Bluetooth to control non-smart home appliances.
- the routing module integrates a wireless communication module (which may be a software module) that can communicate with the cloud. After leaving the home, the user can also interact with the cloud through the APP of the terminal, and finally the cloud sends a message to the routing module, and the routing module. The message is sent to the remote control module via Bluetooth to achieve the purpose of controlling the non-smart home appliance.
- the information of the non-smart home appliance can also be reported to the cloud in real time.
- FIG. 2 is a schematic structural diagram of an apparatus for controlling a non-smart home appliance according to an alternative embodiment of the present disclosure, As shown in FIG. 2, the device includes: a remote control module 21; wherein
- the remote control module 21 is configured to receive a control command sent by the routing module and sent by the cloud; parse the control command to obtain a function corresponding to the control command; and find a code value corresponding to the function, and Controlling light is emitted to the non-smart home appliance according to the code value to control the non-smart home appliance to perform a function corresponding to the control instruction.
- the remote control module 21 is further configured to receive a control command sent by the routing module through the cloud, where the control command is used to control the non-smart home appliance.
- the remote control module 21 is further configured to receive a function learning instruction sent by the terminal through the cloud, and after receiving the function learning instruction, The key function of the remote controller of the smart home appliance learns to obtain a mapping relationship between the code value and the function.
- the remote control module 21 is further configured to receive infrared rays emitted by the remote controller, determine a code value corresponding to the infrared rays, and associate the code value with a function of a non-smart home appliance, Obtain a mapping relationship between code values and functions.
- the remote control module 21 is further configured to receive, by short-range wireless communication, a control instruction sent by the routing module, where the short-range wireless communication includes at least one of the following: wifi, Bluetooth, Zigbee.
- FIG. 3 is a schematic structural diagram of a system for controlling a non-smart home appliance according to an alternative embodiment of the present disclosure, where the system includes: a routing module 31 and a remote control module 32;
- the routing module 31, configured to receive the control command of the cloud, send the control command to the remote control module 32;
- the remote control module 32 is configured to parse the control command to obtain a function corresponding to the control command, search for a code value corresponding to the function, and emit control light to the non-smart home appliance according to the code value. And controlling the non-smart home appliance to perform a function corresponding to the control instruction.
- the routing module 31 is further configured to receive by the cloud. a control command sent by the terminal, wherein the control command is used to control the non-smart home appliance; the control command is sent to the remote control module 32 by short-range wireless communication; wherein the short-range wireless communication includes at least the following One: wifi, bluetooth, zigbee.
- the routing module 31 is further configured to send the function learning instruction to the remote control module 32 when receiving a function learning instruction sent by the terminal through the cloud;
- the remote control module 32 is further configured to learn the function of the button for controlling the remote controller of the non-smart home appliance after receiving the function learning instruction, and obtain a mapping relationship between the code value and the function.
- the remote control module 32 is further configured to receive infrared rays emitted by the remote controller, determine a code value corresponding to the infrared rays, and associate the code value with a function of a non-smart home appliance, Obtain a mapping relationship between code values and functions.
- the remote control module 32 is further configured to receive, by short-range wireless communication, a control instruction sent by the routing module 31; search for a code value corresponding to the function, and according to the code value The control light is emitted to the non-smart home appliance to control the non-smart home appliance to perform a function corresponding to the control instruction.
- the traditional non-smart home appliance is incorporated into the smart home appliance system, and the non-smart home appliance can also be controlled by the remote terminal to realize the real intelligent home appliance.
- FIG. 4 is a schematic diagram of a home appliance control frame according to an alternative embodiment of the present disclosure, as shown in FIG. 4:
- the access control terminal 41 mainly sends the remote control command for the non-smart home appliance to the intelligent router, and receives various report information returned by the intelligent router.
- the intelligent router 42 includes a Bluetooth chip for communicating with the remote control module, and a software module for communicating with the cloud.
- the intelligent router mainly receives the control command of the access control terminal and sends it to the remote control module.
- the remote control module 43 can be learned: the key function of the remote controller of the traditional non-smart home appliance is mainly controlled by the intelligent router. After the learning is completed, the remote control module is attached to the non-smart home appliance. Receiving instructions from the intelligent router to complete control of non-smart home appliances.
- Non-smart home appliance 44 Controlled by the remote control module.
- communication between the intelligent router and the learnable remote control module is not limited to Bluetooth, and other similar short-range wireless communication is possible.
- the process of learning the remote control module firstly, the remote control module is first in the learning state, and entering this state can be triggered by physical buttons or virtual commands.
- the learning state is essentially to make the infrared receiver of the remote control module in the state of receiving signals, then align the traditional remote controller with the emitter of the non-smart home appliance and keep it for a corresponding time and let go, then the traditional remote controller starts to set the function buttons one by one.
- the learning time of each button must ensure that the remote control module obtains the infrared code value to end.
- the instructions can be sent to each other for confirmation.
- the infrared receiver of the remote control module After receiving the infrared code value of the corresponding function, the infrared receiver of the remote control module saves it in the database and corresponds one-to-one with the function to ensure that a certain function of a non-smart home appliance corresponding to an infrared code value does not appear to be controlled. Confusing situation.
- the infrared code values can also be combined to represent a certain function, and the combined button needs to be updated synchronously into the database after being updated.
- a storage medium is also provided in an optional embodiment of the present disclosure.
- the foregoing storage medium may be configured to store program code for performing the following steps:
- the storage medium is further arranged to store program code for performing the following steps:
- the storage medium is further arranged to store program code for performing the following steps:
- the storage medium is further arranged to store program code for performing the following steps:
- embodiments of the present disclosure can be provided as a method, system, or computer program product. Accordingly, the present disclosure may take the form of a hardware embodiment, a software embodiment, or a combination of software and hardware aspects. Moreover, the present disclosure may take the form of a computer program product embodied on one or more computer-usable storage media (including but not limited to disk storage and optical storage, etc.) including computer usable program code.
- the computer program instructions can also be stored in a computer readable memory that can direct a computer or other programmable data processing device to operate in a particular manner, such that the instructions stored in the computer readable memory produce an article of manufacture comprising the instruction device.
- the apparatus implements the functions specified in one or more blocks of a flow or a flow and/or block diagram of the flowchart.
- These computer program instructions can also be loaded onto a computer or other programmable data processing device such that a series of operational steps are performed on a computer or other programmable device to produce computer-implemented processing for execution on a computer or other programmable device. Instructions are provided for implementation The steps of a function specified in a block or blocks of a flow or a flow and/or a block diagram of a flow chart.
- Non-smart home appliance controls the non-smart home appliance to perform a function corresponding to the control instruction.
- Intelligent control of non-smart home appliances can be realized by converting control commands into infrared rays that non-smart home appliances can respond to, so that non-smart home appliances and smart home appliances can also be controlled by remote users.
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Abstract
一种家电控制方法及装置、系统及存储介质,方法包括:接收控制指令(101);对控制指令进行解析,得到控制指令对应的功能;查找与功能相对应的码值,并根据码值发射出控制光线给非智能家电,以控制非智能家电执行与控制指令对应的功能(102)。
Description
本公开涉及家电控制技术,尤其涉及一种家电控制方法及装置、系统及存储介质。
目前,家电市场已经步入智能化,各大家电厂商近几年生产的家电本身都是智能的,很容易加入到智能家电系统中。但是,并非很多家电都是智能化的,传统家电依然占有不少的比例。而目前的智能家电系统都是针对智能家电的,没有对传统的非智能家电进行控制。
智能家电是指:家电本身与网关建立通信连接,网关可以直接与云端连接,从而家电的信息就也可以传到云端,用户使用远端应用(APP)就可以直接控制家电,从而实现对智能家电的控制。智能家电内部本身集成有紫蜂(zigbee)、蓝牙、无线保真(wifi)等可以与网关直接进行连接的无线通信模块,网关和家电之间很容易建立网络连接,从而获取家电的信息,实现对家电的智能控制。
然而,传统的非智能家电并不含有通信模块,对于非智能家电而言,是通过传统的红外遥控器来控制家电,而这些家电也占很大的比例,可见,如何把传统的非智能家电纳入智能家电系统是有待研究并解决的重要问题。
发明内容
为解决上述技术问题,本公开实施例提供了一种家电控制方法及装置、系统及存储介质,能够实现对非智能家电进行智能化的控制。
本公开可选实施例提供的家电控制方法,包括:
接收控制指令;
对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本公开可选实施例中,所述接收控制指令,包括:
接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电进行控制。
本公开可选实施例中,所述方法还包括:
接收功能学习指令;
接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
本公开可选实施例中,所述对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系,包括:
接收所述遥控器发射的红外线,确定出所述红外线对应的码值;
将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
本公开可选实施例中,所述接收控制指令,包括:
通过短距离无线通信接收路由模块发送的由云端传来的控制指令;
其中,所述短距离无线通信至少包括以下之一:无线保真wifi、蓝牙、紫蜂zigbee。
本公开可选实施例提供的家电控制装置,包括:遥控模块;其中,
所述遥控模块,设置为接收控制指令;对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本公开可选实施例中,所述遥控模块,还设置为接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电
进行控制。
本公开可选实施例中,所述遥控模块,还设置为接收所述路由模块发送的由终端通过云端传来的功能学习指令时;接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
本公开可选实施例中,所述遥控模块,还设置为接收所述遥控器发射的红外线,确定出所述红外线对应的码值;将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
本公开可选实施例中,所述遥控模块,还设置为通过短距离无线通信接收所述路由模块发送的控制指令;其中,所述短距离无线通信至少包括以下之一:wifi、蓝牙、zigbee。
本公开可选实施例提供的存储介质,所述存储介质包括存储的程序,其中,所述程序运行时执行上述家电控制方法。
本公开可选实施例提供的家电控制系统,包括:路由模块、遥控模块;其中,
所述路由模块,设置为接收到控制指令时,将所述控制指令发送给所述遥控模块;
所述遥控模块,设置为对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本公开可选实施例中,所述路由模块,还设置为通过云端接收到由终端发送的控制指令,其中,所述控制指令用于对非智能家电进行控制;通过短距离无线通信将所述控制指令发送给所述遥控模块;其中,所述短距离无线通信至少包括以下之一:wifi、蓝牙、zigbee。
本公开可选实施例中,所述路由模块,还设置为通过云端接收到由终端发送的功能学习指令时,将所述功能学习指令发送给所述遥控模块;
所述遥控模块,还设置为接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
本公开可选实施例中,所述遥控模块,还设置为接收所述遥控器发射的红外线,确定出所述红外线对应的码值;将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
本公开实施例中,所述遥控模块,还设置为通过短距离无线通信接收所述路由模块发送的控制指令;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本公开可选实施例的技术方案中,家电控制系统包括:路由模块、遥控模块;所述路由模块接收到云端的控制指令时,将所述控制指令发送给所述遥控模块;所述遥控模块对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。如此,通过将控制指令转换为非智能家电能够响应的红外线来实现对非智能家电的智能化控制,使得非智能家电与智能家电同样可以被远端的用户进行控制。
此处所说明的附图用来提供对本公开的进一步理解,构成本公开的一部分,本公开的示意性实施例及其说明用于解释本公开,并不构成对本公开的不当限定。在附图中:
图1为本公开可选实施例一的家电控制方法的流程示意图;
图2为本公开可选实施例的非智能家电控制的装置的结构组成示意图;
图3为本公开可选实施例的非智能家电控制的系统的结构组成示意图;
图4为本公开可选实施例的家电控制框架示意图。
为了能够更加详尽地了解本公开实施例的特点与技术内容,下面结合附图对本公开可选实施例的实现进行详细阐述,所附附图仅供参考说明之用,并非用来限定本公开可选实施例。
图1为本公开可选实施例一的家电控制方法的流程示意图,本示例中的家电控制方法应用于家电控制装置中,所述装置包括:遥控模块。如图1所示,所述家电控制方法包括以下步骤:
步骤101:接收控制指令。
遥控模块接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电进行控制。
本公开可选实施例中,路由模块可以通过智能路由器来实现,在智能路由器中,集成有无线通信子模块和短距离无线通信子模块,其中,无线通信子模块设置为通过云端与远端的用户进行信息交互;短距离无线通信子模块设置为通过短距离无线通信与遥控模块进行信息交互。短距离无线通信至少包括以下之一:wifi、蓝牙、zigbee。以短距离无线通信为蓝牙为例,短距离无线通信子模块可以通过蓝牙芯片来实现。
本公开可选实施例中,在遥控模块中,集成有短距离无线通信子模块和红外发射子模块,其中,短距离无线通信子模块设置为通过短距离无线通信与路由模块进行信息交互。短距离无线通信至少包括以下之一:wifi、蓝牙、zigbee。以短距离无线通信为蓝牙为例,短距离无线通信子模块可以通过蓝牙芯片来实现。
可见,所述遥控模块接收路由模块发送的由云端传来的控制指令,包括:
所述遥控模块通过短距离无线通信接收路由模块发送的由云端传来的控制指令。
本公开可选实施例中,所述遥控模块接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电进行控制。
可选地,当用户通过终端上的APP对非智能家电进行控制时,可以通过云端向路由模块发送控制指令,这个控制指令用于对非智能家电进行控制,例如对电视机进行切换频道的操作、对空调的温度进行调节、对冰箱的温度进行调节等等。对应地,路由模块接收到云端的控制指令时,将所述控制指令发送给所述遥控模块。
这里,非智能家电智中没有无线通信模块,因而无法直接对控制指令进行响应,一般,非智能家电都配备有一个遥控器,通过遥控器能够对非智能家电进行控制。
遥控器是一种无线发射装置,通过数字编码技术将按键信息编码成红外码值,然后通过红外线二极管发射红外线,非智能家电的红外线接收器将收到的红外线转变成电信号并进行解码解调出相应的指令后,执行指令完成操作。可见,非智能家电智智能响应红外线这种信号。为此,需要路由模块将控制指令发送给遥控模块进行信号的转换。
步骤102:对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
所述遥控模块对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本公开可选实施例中,所述功能相对应的码值可以是红外码值,相应地,控制光线为红外线。
本公开可选实施例中,遥控模块能够对控制指令进行解析,得到控制指令对应的功能,这个功能即为控制非智能家电所执行的功能。然后,遥控模块查找与所述功能相对应的红外码值,并根据所述红外码值发射出红外线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
可见,遥控模块需要首先存储红外码值与功能之间的映射关系,所述
遥控模块接收所述路由模块发送的由终端通过云端传来的功能学习指令;所述遥控模块接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到红外码值与功能之间的映射关系。
所述对用于控制非智能家电的遥控器的按键功能进行学习,得到红外码值与功能之间的映射关系,包括:
所述遥控模块接收所述遥控器发射的红外线,确定出所述红外线对应的红外码值;
所述遥控模块将所述红外码值与非智能家电的功能进行关联,得到红外码值与功能之间的映射关系。
本公开可选实施例中,每个非智能家电都可以对应一个遥控模块,当遥控模块对遥控器的按键功能进行学习后,可以将遥控模块贴置在非智能家电靠近信号接收模块的位置处,从而可以确保遥控模块与非智能家电之间的通信质量。当然,如果遥控模块的发射信号足够强,也可以将遥控模块与路由模块合并设置,这种情况下,每个非智能家电的遥控模块可以集成设置在一起,形成万能的遥控模块。
本公开可选实施例中,路由模块具有路由转发功能,路由模块的第一端与云端互通,另一端与遥控模块互通,将云端发来的控制指令路由到对应的遥控模块,从而通过遥控模块控制对应的非智能家电。
本公开可选实施例中,用户通过路由模块控制遥控模块学习非智能家电的遥控器的按键功能;学习完成之后,将遥控模块贴到非智能家电的红外接收器附近用户就可以通过路由模块给遥控模块通过蓝牙发送消息,实现对非智能家电的控制。路由模块中集成有可与云端进行通信的无线通信模块(可以是软件类模块),用户在离家之后,也可以通过终端的APP与云端进行交互,最终由云端发送消息给路由模块,路由模块通过蓝牙发送消息给遥控模块,达到控制非智能家电的目的,这里,非智能家电的信息也可以实时上报给云端。
图2为本公开可选实施例的非智能家电控制的装置的结构组成示意图,
如图2所示,所述装置包括:遥控模块21;其中,
所述遥控模块21,设置为接收路由模块发送的由云端传来的控制指令;对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本公开可选实施例中,所述遥控模块21,还设置为接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电进行控制。
本公开可选实施例中,所述遥控模块21,还设置为接收所述路由模块发送的由终端通过云端传来的功能学习指令时;接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
本公开可选实施例中,所述遥控模块21,还设置为接收所述遥控器发射的红外线,确定出所述红外线对应的码值;将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
本公开可选实施例中,所述遥控模块21,还设置为通过短距离无线通信接收所述路由模块发送的控制指令;其中,所述短距离无线通信至少包括以下之一:wifi、蓝牙、zigbee。
图3为本公开可选实施例的非智能家电控制的系统的结构组成示意图,所述系统包括:路由模块31、遥控模块32;其中,
所述路由模块31,设置为接收到云端的控制指令时,将所述控制指令发送给所述遥控模块32;
所述遥控模块32,设置为对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本公开可选实施例中,所述路由模块31,还设置为通过云端接收到由
终端发送的控制指令,其中,所述控制指令用于对非智能家电进行控制;通过短距离无线通信将所述控制指令发送给所述遥控模块32;其中,所述短距离无线通信至少包括以下之一:wifi、蓝牙、zigbee。
本公开可选实施例中,所述路由模块31,还设置为通过云端接收到由终端发送的功能学习指令时,将所述功能学习指令发送给所述遥控模块32;
所述遥控模块32,还设置为接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
本公开可选实施例中,所述遥控模块32,还设置为接收所述遥控器发射的红外线,确定出所述红外线对应的码值;将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
本公开可选实施例中,所述遥控模块32,还设置为通过短距离无线通信接收所述路由模块31发送的控制指令;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
本领域技术人员应当理解,图3所示的家电控制系统中的各模块的实现功能可参照前述家电控制方法的相关描述而理解。
本公开可选实施例的技术方案中,将传统的非智能家电纳入智能家电系统中,非智能家电也可以被远端的终端进行控制,实现真正的家电智能化。
图4为本公开可选实施例的家电控制框架示意图,如图4所示:
访问控制端41:主要是将远端对非智能家电的控制指令发给智能路由器,同时接收智能路由器返回的各种上报信息。
智能路由器42:包含蓝牙芯片用来与遥控模块进行通信,还集成有与云端进行通信的软件模块。智能路由器主要接收访问控制端的控制指令并发送给遥控模块。
可学习的遥控模块43:主要由智能路由器控制学习传统的非智能家电的遥控器的按键功能,学习完成后,将该遥控模块贴到非智能家电上。接收智能路由器的指令从而完成对非智能家电的控制。
非智能家电44:受遥控模块的控制。
本公开可选实例中,智能路由器与可学习的遥控模块之间的通信不仅限于蓝牙,其他类似的短距离无线通信都可以。
遥控模块学习的过程:首先使遥控模块先处于学习状态,进入这个状态可以通过物理按键或者虚拟指令来触发。学习状态本质上就是使遥控模块的红外接收器处于接收信号的状态,然后将传统的遥控器和非智能家电的发射头对准且保持相应时间并放开,然后传统遥控器开始逐个设置功能按键,每个按键的学习的时间必须保证遥控模块获取到红外码值才结束,这里,可以相互发送指令进行确认。遥控模块的红外接收器收到对应功能的红外码值后,将其保存在数据库中并与功能一一对应上,保证一个红外码值对应的一个非智能家电的某个功能,不会出现控制混乱的情况。此外,在按键冲突的情况下,红外码值也可以组合来表示某个功能,组合按键更新后需要同步更新到数据库中。
本公开可选实施例中还提供了一种存储介质,可选地,在本实施例中,上述存储介质可以被设置为存储用于执行以下步骤的程序代码:
S1,接收控制指令;
S2,对控制指令进行解析,得到控制指令对应的功能;查找与功能相对应的码值,并根据码值发射出控制光线给非智能家电,以控制非智能家电执行与控制指令对应的功能。
可选地,存储介质还被设置为存储用于执行以下步骤的程序代码:
S1,接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电进行控制。
可选地,存储介质还被设置为存储用于执行以下步骤的程序代码:
S1,接收功能学习指令;
S2,接收到功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
可选地,存储介质还被设置为存储用于执行以下步骤的程序代码:
S1,接收遥控器发射的红外线,确定出红外线对应的码值;
S2,将码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
本领域内的技术人员应明白,本公开的实施例可提供为方法、系统、或计算机程序产品。因此,本公开可采用硬件实施例、软件实施例、或结合软件和硬件方面的实施例的形式。而且,本公开可采用在一个或多个其中包含有计算机可用程序代码的计算机可用存储介质(包括但不限于磁盘存储器和光学存储器等)上实施的计算机程序产品的形式。
本公开是参照根据本公开可选实施例的方法、设备(系统)、和计算机程序产品的流程图和/或方框图来描述的。应理解可由计算机程序指令实现流程图和/或方框图中的每一流程和/或方框、以及流程图和/或方框图中的流程和/或方框的结合。可提供这些计算机程序指令到通用计算机、专用计算机、嵌入式处理机或其他可编程数据处理设备的处理器以产生一个机器,使得通过计算机或其他可编程数据处理设备的处理器执行的指令产生用于实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的装置。
这些计算机程序指令也可存储在能引导计算机或其他可编程数据处理设备以特定方式工作的计算机可读存储器中,使得存储在该计算机可读存储器中的指令产生包括指令装置的制造品,该指令装置实现在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能。
这些计算机程序指令也可装载到计算机或其他可编程数据处理设备上,使得在计算机或其他可编程设备上执行一系列操作步骤以产生计算机实现的处理,从而在计算机或其他可编程设备上执行的指令提供用于实现
在流程图一个流程或多个流程和/或方框图一个方框或多个方框中指定的功能的步骤。
以上所述,仅为本公开的较佳实施例而已,并非用于限定本公开的保护范围。
通过本公开的技术方案,接收控制指令;对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。通过将控制指令转换为非智能家电能够响应的红外线来实现对非智能家电的智能化控制,使得非智能家电与智能家电同样可以被远端的用户进行控制。
Claims (16)
- 一种家电控制方法,所述方法包括:接收控制指令;对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
- 根据权利要求1所述的家电控制方法,其中,所述接收控制指令,包括:接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电进行控制。
- 根据权利要求1所述的家电控制方法,其中,所述方法还包括:接收功能学习指令;接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
- 根据权利要求3所述的家电控制方法,其中,所述对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系,包括:接收所述遥控器发射的红外线,确定出所述红外线对应的码值;将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
- 根据权利要求1至4任一项所述的家电控制方法,其中,所述接收控制指令,包括:通过短距离无线通信接收路由模块发送的由云端传来的控制指令;其中,所述短距离无线通信至少包括以下之一:无线保真wifi、蓝牙、紫蜂zigbee。
- 一种家电控制装置,所述装置包括:遥控模块;其中,所述遥控模块,设置为接收控制指令;对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
- 根据权利要求6所述的家电控制装置,其中,所述遥控模块,还设置为接收路由模块发送的由终端通过云端传来的控制指令,其中,所述控制指令用于对非智能家电进行控制。
- 根据权利要求6所述的家电控制装置,其中,所述遥控模块,还设置为接收所述路由模块发送的由终端通过云端传来的功能学习指令时;接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
- 根据权利要求8所述的家电控制装置,其中,所述遥控模块,还设置为接收所述遥控器发射的红外线,确定出所述红外线对应的码值;将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
- 根据权利要求6至9任一项所述的家电控制装置,其中,所述遥控模块,还设置为通过短距离无线通信接收所述路由模块发送的控制指令;其中,所述短距离无线通信至少包括以下之一:无线保真wifi、蓝牙、紫蜂zigbee。
- 一种家电控制系统,所述系统包括:路由模块、遥控模块;其中,所述路由模块,设置为接收到控制指令时,将所述控制指令发送给所述遥控模块;所述遥控模块,设置为对所述控制指令进行解析,得到所述控制指令对应的功能;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
- 根据权利要求11所述的家电控制系统,其中,所述路由模块,还设置为通过云端接收到由终端发送的控制指令,其中,所述控制指令用于对非智能家电进行控制;通过短距离无线通信将所述控制指令发送给所述遥控模块;其中,所述短距离无线通信至少包括以下之一:wifi、蓝牙、zigbee。
- 根据权利要求11所述的家电控制系统,其中,所述路由模块,还设置为通过云端接收到由终端发送的功能学习指令时,将所述功能学习指令发送给所述遥控模块;所述遥控模块,还设置为接收到所述功能学习指令后,对用于控制非智能家电的遥控器的按键功能进行学习,得到码值与功能之间的映射关系。
- 根据权利要求13所述的家电控制系统,其中,所述遥控模块,还设置为接收所述遥控器发射的红外线,确定出所述红外线对应的码值;将所述码值与非智能家电的功能进行关联,得到码值与功能之间的映射关系。
- 根据权利要求11至14任一项所述的家电控制系统,其中, 所述遥控模块,还设置为通过短距离无线通信接收所述路由模块发送的控制指令;查找与所述功能相对应的码值,并根据所述码值发射出控制光线给非智能家电,以控制所述非智能家电执行与所述控制指令对应的功能。
- 一种存储介质,所述存储介质包括存储的程序,其中,所述程序运行时执行上述权利要求1至5任一项中所述的方法。
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