CN114745663A - Control method of Internet of things equipment, remote controller, intelligent gateway and storage medium - Google Patents

Abstract

According to the control method of the Internet of things equipment, the remote controller, the intelligent gateway and the storage medium, the data acquisition unit of the remote controller acquires control information input by a user and sends the control information to the control unit, and the control unit sends the control information to the radio frequency unit, so that the radio frequency unit sends the control information to the intelligent gateway through the first connection. And after receiving the control message sent by the remote controller, the intelligent gateway converts the format of the execution instruction in the control message and sends the control message to the target IOT equipment so as to control the target IOT equipment. The intelligent gateway can be connected with the plurality of IOT devices for communication through a plurality of communication protocols, so that one remote controller can control the plurality of IOT devices, the use of a user is facilitated, the communication between the remote controller and the intelligent gateway is connected through a first connection, the safety of the IOT devices is improved, and the control of other remote controllers can be avoided.

Description

Control method of Internet of things equipment, remote controller, intelligent gateway and storage medium

Technical Field

The application relates to the technical field of remote controllers, in particular to a control method of Internet of things equipment, a remote controller, an intelligent gateway and a storage medium.

Background

The remote controller of the smart home is a device for remotely controlling machinery, such as a smart refrigerator, a smart washing machine, a smart clothes hanger and the like, and a user can control the remote controller.

In the prior art, a user controls smart home devices through a remote controller, which is usually in a one-to-one remote control manner, that is, each smart home device corresponds to one remote controller.

However, the remote controllers cannot control all the intelligent devices, so that the number of the remote controllers in the home of the user is increased along with the increase of the intelligent household appliances, the remote controllers are inconvenient for the user to use, and certain device is easily controlled by the remote controllers of other close-range users, and the safety is poor.

Disclosure of Invention

The application provides a control method of Internet of things equipment, a remote controller, an intelligent gateway and a storage medium, which are used for solving the problem that the number of the remote controllers is increased and the use of a user is inconvenient due to a one-to-one remote control mode in the prior art.

In a first aspect, the present application provides a method for controlling an internet of things device, which is applied to a remote controller, and includes:

collecting control information input by a user, wherein the control information comprises an identifier of a target IOT (Internet of things) device to be controlled and an execution instruction of the target IOT device;

and sending the control information to an intelligent gateway through a first connection, wherein the first connection is the connection between the remote controller and the intelligent gateway, and the intelligent gateway is connected and communicated with a plurality of IOT devices through a plurality of communication protocols.

Optionally, before sending the control information to the intelligent gateway through the first connection, the method further includes:

acquiring a first distance between the target IOT equipment and the intelligent gateway;

sending the control information to an intelligent gateway through a first connection, including:

and when the first distance is smaller than or equal to a preset distance, the control information is sent to the intelligent gateway through the first connection.

Optionally, the method further includes:

and when the first distance is greater than the preset distance, sending the control information to the target IOT equipment through a second connection, wherein the second connection is the connection between the remote controller and the target IOT equipment, and the communication protocol used by the second connection is different from that used by the first connection.

Optionally, the first connection is a WIFI connection.

Optionally, after the sending the control information to the intelligent gateway through the first connection, the method further includes:

receiving a connection failure message sent by the intelligent gateway;

and sending the control information to the target IOT equipment through a second connection, wherein the second connection is the connection between the remote controller and the target IOT equipment, and the second connection is different from the first connection in the used communication protocol.

Optionally, the method further includes:

receiving alarm information sent by the intelligent gateway through the first connection, wherein the alarm information is sent to the intelligent gateway when the target IOT equipment is abnormal;

and outputting the alarm information.

Optionally, the collecting control information input by the user includes:

collecting the control information input by a user in a display interface of the remote controller;

or receiving an electric signal input by a user through a key of the remote controller, and generating the control information according to the electric signal;

or collecting voice data input by a user, and generating the control information according to the voice data, wherein the voice data is used for describing the control information.

In a second aspect, the application provides a control method for an internet of things device, which is applied to an intelligent gateway, and the method includes:

receiving control information sent by a remote controller through a first connection, wherein the first connection is the connection between the remote controller and the intelligent gateway, and the control information comprises an identifier of target IOT equipment to be controlled and an execution instruction of the target IOT equipment;

converting the format of the execution instruction into a format corresponding to a communication protocol supported by the target IOT equipment;

and sending the execution instruction after format conversion to the target IOT equipment.

Optionally, before receiving the control information sent by the remote controller through the first connection, the method further includes:

measuring a first distance between the intelligent gateway and the target IOT device;

sending the first distance to the remote control through the first connection.

Optionally, before sending the format-converted execution instruction to the target IOT device, the method further includes:

measuring a first distance between the intelligent gateway and the target IOT device;

the sending the format-converted execution instruction to the target IOT device includes:

and when the first distance is smaller than or equal to a preset threshold value, sending the execution instruction after format conversion to the target IOT equipment.

Optionally, the method further includes:

and when the first distance is greater than the preset threshold value, sending a connection failure message to the remote controller through the first connection.

Optionally, the method further includes:

acquiring alarm information sent when the target IOT equipment is abnormal;

converting the alarm information into a format corresponding to a network protocol used by the first connection;

and sending the alarm information after format conversion to the remote controller through the first connection.

In a third aspect, the present application provides a remote controller, comprising:

the system comprises an acquisition module, a processing module and a control module, wherein the acquisition module is used for acquiring control information input by a user, and the control information comprises an identifier of target IOT equipment to be controlled and an execution instruction of the target IOT equipment;

and the sending module is used for sending the control information to an intelligent gateway through a first connection, the first connection is the connection between the remote controller and the intelligent gateway, and the intelligent gateway is connected and communicated with a plurality of IOT devices through a plurality of communication protocols.

In a fourth aspect, the present application provides an intelligent gateway, comprising:

a receiving module, configured to receive control information sent by a remote controller through a first connection, where the first connection is a connection between the remote controller and the intelligent gateway, and the control information includes an identifier of a target IOT device to be controlled and an execution instruction of the target IOT device;

a protocol conversion module, configured to convert a format of the execution instruction into a format corresponding to a communication protocol supported by the target IOT device;

and the sending module is used for sending the execution instruction after the format conversion to the target IOT equipment.

In a fifth aspect, the present application provides a remote controller, comprising: the radio frequency unit and the data acquisition unit are respectively and electrically connected with the control unit;

the data acquisition unit is used for acquiring control information input by a user and sending the control information to the control unit, wherein the control information comprises an identifier of a target IOT device and an execution instruction of the target IOT device;

the control unit is used for sending the control information to the radio frequency unit;

the radio frequency unit is used for sending the control information to an intelligent gateway through a first connection, the first connection is the connection between the remote controller and the intelligent gateway, which is established by the radio frequency unit, and the intelligent gateway is connected and communicated with a plurality of IOT devices through a plurality of communication protocols.

Optionally, the control unit is further configured to:

acquiring a first distance between the target IOT equipment and the intelligent gateway;

and when the first distance is smaller than or equal to a preset distance, sending the control information to the radio frequency unit, and indicating the radio frequency unit to send the control information through the first connection.

Optionally, the control unit is further configured to:

when the first distance is greater than the preset distance, sending the control information to the radio frequency unit, and instructing the radio frequency unit to send the control information through a second connection, where the second connection is a connection between the remote controller and the target IOT device, and a communication protocol used by the second connection is different from that used by the first connection;

the radio frequency unit is further configured to send the control information to the target IOT device through the second connection.

Optionally, the radio frequency unit is further configured to:

receiving alarm information sent by the intelligent gateway, wherein the alarm information is sent to the intelligent gateway when the target IOT equipment is abnormal;

sending the alarm information to the control unit;

the control unit is also used for sending the alarm information to the data acquisition unit, and the data acquisition unit is also used for outputting the alarm information.

Optionally, the data acquisition unit includes at least two of the following units: the device comprises a display unit, a voice interaction unit and a key control unit;

the display unit is used for collecting control information input by a user in a display interface and sending the control information to the control unit;

the voice interaction unit is used for acquiring voice data input by a user, generating control information according to the voice data and sending the control information to the control unit;

the key control unit is used for receiving an electric signal input by a user through a key, generating control information according to the electric signal and sending the control information to the control unit.

In a sixth aspect, the present application provides an intelligent gateway, comprising: a processor, and a memory communicatively coupled to the processor;

the memory stores computer-executable instructions;

the processor executes computer-executable instructions stored by the memory to implement the method of the second aspect.

In a seventh aspect, the present application provides a computer-readable storage medium, in which computer-executable instructions are stored, and when the computer-executable instructions are executed by a processor, the computer-executable instructions are used to implement the method for controlling an internet of things device according to the first aspect or the second aspect.

The application provides a control method of Internet of things equipment, a remote controller, an intelligent gateway and a storage medium. The data acquisition unit of the remote controller acquires control information input by a user and sends the control information to the control unit, and the control unit sends the control information to the radio frequency unit, so that the radio frequency unit sends the control information to the intelligent gateway through the first connection. And after receiving the control message sent by the remote controller, the intelligent gateway converts the format of the execution instruction in the control message and sends the control message to the target IOT equipment so as to control the target IOT equipment. The intelligent gateway can be connected with the plurality of IOT devices for communication through a plurality of communication protocols, so that one remote controller can control the plurality of IOT devices, the use of a user is facilitated, the communication between the remote controller and the intelligent gateway is connected through a first connection, the safety of the IOT devices is improved, and the control of other remote controllers can be avoided.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the application and, together with the description, serve to explain the principles of the application.

Fig. 1 is a schematic diagram of an application scenario in which the present application is applicable;

fig. 2 is a schematic flowchart of a control method for an internet of things device according to an embodiment of the present application;

fig. 3 is a schematic diagram of a display interface and keys of a remote controller provided in the present application;

FIG. 4 is a schematic diagram of the locations of a remote control, an intelligent gateway, and a target IOT device;

fig. 5 is a schematic flowchart of a control method for an internet of things device according to an embodiment of the present application;

fig. 6 is a signaling flowchart of a control method for an internet of things device according to a third embodiment of the present application;

fig. 7 is a schematic structural diagram of a remote controller according to a fourth embodiment of the present application;

fig. 8 is a schematic structural diagram of another remote controller provided in the fifth embodiment of the present application;

fig. 9 is a schematic structural diagram of an intelligent gateway according to a sixth embodiment of the present application;

fig. 10 is a schematic structural diagram of another intelligent gateway according to a seventh embodiment of the present invention.

With the above figures, there are shown specific embodiments of the present application, which will be described in more detail below. These drawings and written description are not intended to limit the scope of the inventive concepts in any manner, but rather to illustrate the inventive concepts to those skilled in the art by reference to specific embodiments.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The implementations described in the following exemplary examples do not represent all implementations consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

In the prior art, a user controls smart home devices through a remote controller, which is usually in a one-to-one remote control manner, that is, each smart home device corresponds to one remote controller.

However, because the communication protocols supported by the smart home devices are different, and the communication with the smart home devices needs to use the communication protocols supported by the devices, the control of the smart home devices can be realized. The remote controller only supports the communication protocol of the corresponding intelligent household equipment, so that the control of all intelligent equipment cannot be realized. Then, the one-to-one remote control mode increases the number of remote controllers in the home of the user with the increase of intelligent household appliances, which is inconvenient for the user to use, and easily causes that a certain device is controlled by the remote controllers of other close-range users, thus the security is poor.

Therefore, according to the control method of the internet of things device, the remote controller, the intelligent gateway and the storage medium, the remote controller is connected with the intelligent gateway supporting multiple communication protocols, and the execution instruction can be sent to the IOT devices through the intelligent gateway, so that the IOT devices are controlled, the use of a user is facilitated, the safety of the IOT devices is improved due to the connection between the remote controller and the intelligent gateway, and the control of other remote controllers can be avoided.

Referring to fig. 1, fig. 1 is a schematic view of an application scenario to which the present application is applied, where a remote controller 101 and an intelligent gateway 103 establish a first connection through a router 102, where the connection may be a WIFI (Wireless Fidelity, WIFI for short). Data are transmitted between the remote controller 101 and the intelligent gateway 103 through a first connection, the intelligent gateway 103 sends an execution instruction in the control information to the IOT device 104 through a network protocol supported by the IOT (Internet of Things, IOT for short) device 104, and the IOT device 104 executes the execution instruction after receiving the execution instruction. Illustratively, the network protocol supported by the IOT device 104 may be an Infrared (IR) communication protocol, a Bluetooth (BI) communication protocol, or a zigbee communication protocol.

The remote controller 101 may also directly communicate with the IOT device 104 through a second connection, which may be an IR or BI connection, so as to avoid the situation that the remote controller cannot control the IOT device through the first connection when the distance between the intelligent gateway 103 and the IOT device 104 is relatively long, and also achieve the control of the IOT device 104 through the second connection. It is understood that there may be more IOT devices 104, not shown.

In the scenario shown in fig. 1, the smart gateway 103 is an electronic device independent of the router 102, and may be, for example, a smart speaker, a smart phone, or the like, and the smart speaker or the smart phone is configured with the function of the smart gateway 103. Of course, the intelligent gateway 103 may also be a router, that is, the router not only has the existing functions, but also has the functions of the intelligent gateway 103 in the present invention.

It should be noted that the IOT device 104 may be an intelligent household device such as an air conditioner, a washing machine, a television, or an intelligent fan, the application does not limit the type of the IOT device 104, and the IOT device 104 may be any device supporting a certain communication protocol. Also, the appearance and shape of the remote controller 101 in fig. 1 are merely examples, and the present application does not limit the appearance and shape of the remote controller 101.

The following describes the technical solutions of the present application and how to solve the above technical problems with specific embodiments. The following embodiments may exist independently or in combination, and the same or similar concepts or processes may not be described in detail in some embodiments. Embodiments of the present application will be described below with reference to the accompanying drawings.

Referring to fig. 2, fig. 2 is a schematic flowchart of a method for controlling an internet of things device according to an embodiment of the present disclosure, where the method may be executed by the remote controller in fig. 1, and may also be executed by an electronic device integrated with the remote controller, where the electronic device may be a terminal, and the method is described below by taking the remote controller as an example, and includes the following steps.

S201, collecting control information input by a user, wherein the control information comprises an identifier of a target IOT device to be controlled and an execution instruction of the target IOT device.

When a user needs to control a target IOT device, the remote controller can acquire control information input by the user, the control information comprises an identifier of the target IOT device to be controlled and an execution instruction of the target IOT device, and the identifier can be used for searching the target IOT device.

Optionally, the control information may be input by a user in a display interface of the remote controller, and specifically, after entering an instruction interface corresponding to the target IOT device, the user may select an instruction to be executed by the target IOT device, to generate corresponding control information, where the instruction is selected from a plurality of IOT device icons displayed in the display interface. Illustratively, the display interface may be an interface as displayed in the display screen 301 of the remote controller 30 in fig. 3.

Alternatively, the control information may also be a corresponding electrical signal input by a user through a key of a remote controller, that is, the user selects the target IOT device and a corresponding execution instruction through the key, and the remote controller generates the control information according to the electrical signal, for example, the key may be a key 302 shown in fig. 3.

Or, the remote controller may also collect voice data entered by the user, and then generate control information according to the voice data, where the voice data is used to describe the control information. Specifically, the voice interaction unit of the remote controller may perform processing such as voice recognition on the collected voice data to obtain the control information. The user carries out voice interaction with the remote controller in a short distance, so that accurate control over the target IOT equipment can be achieved in complex environments with high noise and the like.

It should be understood that the execution command is a command that a user needs to control the target IOT device to execute, and may be a basic command such as an on command or an off command, or may be a control command for a function provided in the target IOT device, such as an increase or decrease in the temperature of an air conditioner or an increase or decrease in the humidity of an air purifier.

S202, the control information is sent to the intelligent gateway through a first connection, the first connection is the connection between the remote controller and the intelligent gateway, and the intelligent gateway is connected and communicated with the IOT devices through multiple communication protocols.

After the control information of user's input was gathered to the remote controller, give intelligent gateway with this control information through first connection, this intelligent gateway can be connected communication through multiple communication protocol and a plurality of IOT equipment, this first connection is being connected between remote controller and the intelligent gateway, and is optional, and first connection can be the WIFI connection, and this WIFI technique can be the sixth generation wireless network technique WIFI6, can be so that the long-time standby of low-power consumption is realized to the remote controller.

After receiving the control information, the intelligent gateway may send an execution instruction to the target IOT device according to a network protocol supported by the target IOT device, so that the target IOT device executes the instruction to implement control of the target IOT device.

In a possible implementation manner, before the remote controller sends the control information to the intelligent gateway, the remote controller may obtain a first distance between the target IOT device and the intelligent gateway, determine a size of the first distance and a preset distance, when the first distance is smaller than or equal to the preset distance, it is indicated that the distance between the intelligent gateway and the target IOT device is within a communicable range, and after it is determined that the intelligent gateway can communicate with the target IOT device, the remote controller sends the control information to the intelligent gateway, so as to control the target IOT device through the intelligent gateway.

When the first distance is greater than the preset distance, it is indicated that the distance between the intelligent gateway and the target IOT device is not within a communicable range, and the target IOT device cannot be controlled through the intelligent gateway, then the remote controller may send the control information to the target IOT device through the second connection. The second connection is a connection between the remote control and the target IOT device. The second connection is different from the communication protocol used by the first connection, for example, when the first connection is a WIFI connection, the second connection may be an IR connection or a BI connection, and the like, so that the mode of controlling the target IOT device by the remote controller is diversified, and the influence on the communication between the remote controller and the target IOT device when the above distance problem occurs in a single control mode is avoided, thereby influencing the use of the user.

Specifically, the first distance may be calculated by the remote controller according to the measured distance between the remote controller and the intelligent gateway and the distance between the remote controller and the target IOT device, or the first distance may also be measured by the intelligent gateway.

By way of example, the remote controller obtaining the first distance between the target IOT device and the intelligent gateway is described below.

For example, as shown in fig. 4, the remote controller, the intelligent gateway, and the target IOT device are connected in a straight line to form a triangle, and the remote controller may measure a linear distance a between the remote controller and the intelligent gateway, a linear distance b between the remote controller and the target IOT device, and an included angle β between a and b, according to the following cosine theorem formula:

a linear distance c between the intelligent gateway and the target IOT device may be obtained,

in another possible implementation manner, the remote controller does not need to consider the first distance between the intelligent gateway and the target IOT device, and may preferentially control the target IOT device through the first connection, that is, after the control information is sent to the intelligent gateway, when a connection failure message sent by the intelligent gateway is received, it indicates that the remote controller fails to control the target IOT device through the intelligent gateway, and the remote controller may send the control information to the target IOT device through the second connection, so as to implement direct control of the target IOT device.

When the operation of the target IOT equipment is abnormal, the remote controller can also receive alarm information sent by the intelligent gateway through the first connection, and the alarm information is used for describing the abnormal condition of the target IOT equipment. The alarm information is sent to the intelligent gateway through a communication protocol supported by the target IOT device when the target IOT device is abnormal, or the alarm information can also be sent to the remote controller through the second connection by the target IOT device. After the remote controller receives the alarm information, the alarm information can be output to prompt that the target IOT equipment of the user is abnormal, and the user can timely process the target IOT equipment.

In this embodiment, after the control information input by the user is collected by the remote controller, the control information is sent to the intelligent gateway through the first connection, the first connection is the connection between the remote controller and the intelligent gateway, the intelligent gateway can be connected with a plurality of IOT devices through a plurality of communication protocols for communication, so that the intelligent gateway can send the execution instruction in the control information to the target IOT device through the communication protocol supported by the target IOT device, the purpose that one remote controller controls a plurality of IOT devices is achieved, the use of the user is facilitated, and the communication between the remote controller and the intelligent gateway is through the first connection, so that the security of the IOT device is also improved, and the control of other remote controllers can be avoided.

In the first embodiment, a remote controller is used as an execution subject to explain the control method of the internet of things device provided by the application, and in the second embodiment, an intelligent gateway is used as an execution subject to explain the control method of the internet of things device provided by the application.

Referring to fig. 5, fig. 5 is a flowchart illustrating a control method for an internet of things device according to an embodiment of the present application, where the method may be executed by a smart speaker configured with a smart gateway function, and the method includes the following steps.

S501, control information sent by the remote controller through the first connection is received.

After the control information of user's input was gathered to the remote controller, the control information that the remote controller sent can be received through first connection to intelligent audio amplifier, including the sign of the target IOT equipment of treating control and the executive instruction of target IOT equipment in this control information, this sign can be used for intelligent audio amplifier to look for target IOT equipment, this executive instruction is the required instruction of control target IOT equipment execution of user, first connection is the connection between remote controller and the intelligent audio amplifier, for example WIFI connects etc..

As a possible implementation manner, before the smart sound box receives the control information sent by the remote controller, the smart sound box may measure a first distance between the smart sound box and the target IOT device, and for example, the smart sound box may obtain the first distance through infrared measurement. Then the smart sound box sends the first distance to the remote controller through the first connection, so that the remote controller can judge whether the smart sound box can communicate with the target IOT equipment according to the first distance, and when the communication is confirmed, the smart sound box can receive the control information sent by the remote controller to realize the control of the target IOT equipment.

S502, converting the format of the execution instruction into a format corresponding to a communication protocol supported by the target IOT equipment.

After receiving the control information, the smart sound box may search for the target IOT device and the communication protocol supported by the target IOT device according to the identifier of the target IOT device in the control information, and then convert the format of the execution instruction in the control information into a format corresponding to the communication protocol supported by the target IOT device, so as to send the execution instruction to the target IOT device.

It is to be appreciated that when the communication protocol supported by the target IOT device is the same as the communication protocol used by the first connection, no conversion of the protocol format may be performed.

S503, sending the execution instruction after format conversion to the target IOT equipment.

After the protocol format conversion is performed on the smart sound box, the smart sound box may send the execution instruction after the format conversion to the target IOT device through a network protocol supported by the target IOT device, so that the target IOT device may execute corresponding operations, such as turning on or turning off, according to the execution instruction. The network protocol supported by the target IOT device may be a communication protocol such as IR, BI, WIFI, or zigbee.

In another possible implementation, the smart speaker may measure a first distance between the smart speaker and the target IOT device before sending the format-converted execution instruction to the target IOT device. Then, after receiving the control information, the smart speaker may determine a size of the first distance and a preset distance, and when the first distance is smaller than or equal to a preset threshold, the smart speaker is considered to be able to communicate with the target IOT device, and then the smart speaker may send the execution instruction after format conversion to the target IOT device, so as to implement control of the target IOT device.

When the first distance is greater than the preset threshold value, it is indicated that the smart sound box is far away from the target IOT device and cannot achieve communication, and the smart sound box can send the connection failure message to the remote controller, so that the remote controller can achieve direct control over the target IOT device through the second connection.

When the operation of target IOT equipment appears unusually, the alarm information that target IOT equipment sent can also be received to intelligent audio amplifier, and after intelligent audio amplifier can convert alarm information into the format that the network protocol that first connection was used corresponds, send the alarm information after the format conversion for the remote controller through first connection to remind user target IOT equipment to take place unusually. Or, the intelligent sound box has a voice function, and the intelligent sound box can also output alarm information through the voice function, so that a user can know the abnormal condition of the target IOT equipment in time.

In this embodiment, the smart sound box may receive control information sent by the remote controller through the first connection, convert a format of an execution instruction in the control information into a format corresponding to a communication protocol supported by the target IOT device, and send the execution instruction after the format conversion to the target IOT device, so that the target IOT device may execute a corresponding operation according to the execution instruction, so as to implement control over the target IOT device. And the intelligence audio amplifier can be connected communication through multiple communication protocol and a plurality of IOT equipment for a plurality of IOT equipment of remote controller control have made things convenient for user's use, and the communication between remote controller and the intelligence audio amplifier is through first connection, also makes the security of IOT equipment obtain improving, can avoid the control of other remote controllers.

The interaction between the devices is described in the third embodiment, and the smart speaker configured with the smart gateway function is taken as an example for description.

Referring to fig. 6 and fig. 6 are signaling flow charts of a control method for an internet of things device according to a third embodiment of the present application, in this embodiment, on the basis of the first embodiment and the second embodiment, a remote controller is used to measure a first distance between an intelligent sound box and a target IOT device, and whether control information is sent to the intelligent sound box is determined according to the first distance, for example, to describe an interaction process between devices in detail.

S601, the remote controller collects control information input by a user.

The control information includes an identifier of a target internet of things IOT device to be controlled and an execution instruction of the target IOT device.

S602, the remote controller measures a first distance between the intelligent sound box and the target IOT device.

S603, the remote controller judges whether the first distance is smaller than or equal to a preset threshold value.

When the first distance is less than or equal to the preset threshold, step S604 is executed, and when the first distance is greater than the preset threshold, step S607 is executed.

And S604, the remote controller sends the control information to the intelligent sound box through the first connection.

First connection is the connection between remote controller and the smart sound box, for example the WIFI connection.

And S605, the intelligent sound box converts the execution instruction into a format corresponding to a network protocol supported by the target IOT equipment.

And S606, the intelligent sound box sends the execution instruction after format conversion to the target IOT equipment.

And S607, the remote controller sends the control information to the target IOT equipment through the second connection.

The second connection is a connection between the remote control and the target IOT device, and the second connection uses a different communication protocol than the first connection.

S608, the target IOT device executes the execution instruction.

And S609, the target IOT equipment sends alarm information to the intelligent sound box.

S610, the intelligent sound box converts the alarm information into a format corresponding to a network protocol used for the first connection.

S611, the intelligent sound box sends the alarm information after format conversion to the remote controller through the first connection.

And S612, outputting alarm information by the remote controller.

In this embodiment, the remote controller collects control information input by a user, measures a first distance between the smart sound box and the target IOT device, and sends the control information to the smart sound box through the first connection when the first distance is smaller than or equal to a preset threshold. The intelligent sound box converts the execution instruction in the received control message into a format corresponding to a network protocol supported by the target IOT equipment, and then sends the execution instruction after format conversion to the target IOT equipment, so that the control of the target IOT equipment is realized. This intelligence audio amplifier can be connected the communication with a plurality of IOT equipment through a plurality of communication protocol for a plurality of IOT equipment can be controlled to a remote controller, has made things convenient for user's use, and communication between remote controller and the intelligent audio amplifier is through first being connected, also makes the security of IOT equipment obtain improving, can avoid the control of other remote controllers. Or, when the first distance is greater than the preset distance threshold, the remote controller may control the target IOT device through the second connection, and avoid that a single control mode affects communication between the remote controller and the target IOT device when the distance problem occurs, thereby affecting user use.

The structure of the remote controller will be explained in the fourth embodiment.

Referring to fig. 7, fig. 7 is a schematic structural diagram of a remote controller according to a fourth embodiment of the present application. The remote controller 70 includes: the radio frequency unit 701, the control unit 702 and the data acquisition unit 703, wherein, the radio frequency unit 701, the data acquisition unit 703 are connected with the control unit 702 electricity respectively to realize the transmission of data, and the radio frequency unit 701 is the radio frequency unit that unifies more in addition, supports multiple communication protocol, can compatible different communication protocol's IOT equipment and intelligent gateway.

The data collecting unit 703 is configured to collect control information input by a user, and send the control information to the control unit 702, where the control information includes an identifier of a target IOT device and an execution instruction of the target IOT device.

A control unit 702, configured to send control information to the radio frequency unit 801.

And the radio frequency unit 701 is used for sending the control information to the intelligent gateway through a first connection, the first connection is the connection between the remote controller established by the radio frequency unit and the intelligent gateway, and the intelligent gateway is connected and communicated with the plurality of IOT devices through a plurality of communication protocols.

Optionally, the data acquisition unit 703 may include at least two of the following units: the device comprises a display unit, a voice interaction unit and a key control unit.

The display unit may be configured to collect control information input by a user in the display interface and send the control information to the control unit 702.

The voice interaction unit may be configured to collect voice data input by a user, generate control information according to the voice data, and send the control information to the control unit 702.

The key control unit may be configured to receive an electrical signal input by a user through a key, generate control information according to the electrical signal, and send the control information to the control unit 702.

Optionally, the control unit 702 is further configured to: a first distance between a target IOT device and an intelligent gateway is obtained.

When the first distance is less than or equal to the preset distance, the control information is sent to the radio frequency unit, and the radio frequency unit 701 is instructed to send the control information through the first connection.

Optionally, the control unit 702 is further configured to: and when the first distance is greater than the preset distance, sending the control information to the radio frequency unit, and instructing the radio frequency unit 701 to send the control information through a second connection, where the second connection is a connection between the remote controller and the target IOT device, and a communication protocol used by the second connection is different from that used by the first connection.

Optionally, the radio frequency unit 701 is further configured to: and sending the control information to the target IOT equipment through the second connection.

Optionally, the radio frequency unit 701 is further configured to:

and receiving alarm information sent by the intelligent gateway, wherein the alarm information is sent to the intelligent gateway when the target IOT equipment is abnormal.

The alarm information is sent to the control unit 702.

The control unit 702 is further configured to send the alarm information to the data acquisition unit 703, and the data acquisition unit 703 is further configured to output the alarm information, specifically, the data acquisition unit 703 may display the alarm information through the display unit, and/or output the alarm information through the voice interaction unit, so that the user may know the abnormal condition of the target IOT device in time.

In this embodiment, the remote controller includes a radio frequency unit 701, a control unit 702, and a data acquisition unit 703, the data acquisition unit 703 may send acquired control information to the control unit 702, the control unit 702 sends the control information to the radio frequency unit 701, so that the radio frequency unit 701 may send the control information to the intelligent gateway through the first connection, so that the intelligent gateway may send an execution instruction in the control information to the target IOT device through a communication protocol supported by the target IOT device, thereby achieving the purpose of controlling multiple IOT devices by one remote controller, facilitating the use of a user, and the communication between the remote controller and the intelligent gateway is through the first connection, thereby also improving the security of the IOT device, and avoiding the control of other remote controllers.

Referring to fig. 8, fig. 8 is a schematic structural diagram of another remote controller provided in the fifth embodiment of the present application. The remote controller 80 includes: an acquisition module 801 and a transmission module 802.

The acquisition module 801 is configured to acquire control information input by a user, where the control information includes an identifier of a target internet of things IOT device to be controlled and an execution instruction of the target internet of things IOT device.

The sending module 802 is configured to send the control information to the intelligent gateway through a first connection, where the first connection is a connection between the remote controller and the intelligent gateway, and the intelligent gateway is connected and communicated with the plurality of IOT devices through a plurality of communication protocols.

Optionally, the acquisition module 801 is specifically configured to:

and collecting control information input by a user in a display interface of the remote controller.

Or receiving an electric signal input by a user through a key of the remote controller, and generating control information according to the electric signal.

Or collecting voice data input by a user, and generating control information according to the voice data, wherein the voice data is used for describing the control information.

Optionally, before sending the control information to the intelligent gateway through the first connection, the method further includes:

a first distance between a target IOT device and an intelligent gateway is obtained.

The sending module 802 is specifically configured to: and when the first distance is smaller than or equal to the preset distance, the control information is sent to the intelligent gateway through the first connection.

Optionally, the method further includes: and when the first distance is greater than the preset distance, sending the control information to the target IOT equipment through a second connection, wherein the second connection is the connection between the remote controller and the target IOT equipment, and the communication protocol used by the second connection is different from that used by the first connection.

Optionally, the first connection is a WIFI connection.

Optionally, after the sending the control information to the intelligent gateway through the first connection, the method further includes:

and receiving a connection failure message sent by the intelligent gateway.

And sending the control information to the target IOT equipment through a second connection, wherein the second connection is the connection between the remote controller and the target IOT equipment, and the communication protocol used by the second connection is different from that used by the first connection.

Optionally, the method further includes:

and receiving alarm information sent by the intelligent gateway through the first connection, wherein the alarm information is sent to the intelligent gateway when the target IOT equipment is abnormal.

And outputting alarm information.

The remote controller of this embodiment may be configured to execute the steps of the method for controlling the internet of things device in the first embodiment, and a specific implementation manner and a technical effect are similar and will not be described herein again.

Referring to fig. 9, fig. 9 is a schematic structural diagram of an intelligent gateway according to a sixth embodiment of the present application. This intelligent gateway 90 includes: a receiving module 901, a protocol conversion module 902 and a sending module 903.

A receiving module 901, configured to receive control information sent by a remote controller through a first connection, where the first connection is a connection between the remote controller and an intelligent gateway, and the control information includes an identifier of a target IOT device to be controlled and an execution instruction of the target IOT device.

A protocol conversion module 902, configured to convert a format of the execution instruction into a format corresponding to a communication protocol supported by the target IOT device.

A sending module 903, configured to send the format-converted execution instruction to the target IOT device.

Optionally, before receiving the control information sent by the remote controller through the first connection, the method further includes:

a first distance between the intelligent gateway and the target IOT device is measured.

The first distance is sent to the remote control via the first connection.

Optionally, before sending the format-converted execution instruction to the target IOT device, the method further includes:

a first distance between the intelligent gateway and the target IOT device is measured.

The sending module 903 is specifically configured to: and when the first distance is smaller than or equal to a preset threshold value, sending the execution instruction after format conversion to the target IOT equipment.

Optionally, the method further includes:

and when the first distance is greater than the preset threshold value, sending a connection failure message to the remote controller through the first connection.

Optionally, the method further includes:

and acquiring alarm information sent when the target IOT equipment is abnormal.

And converting the alarm information into a format corresponding to a network protocol used by the first connection.

And sending the alarm information after format conversion to a remote controller through a first connection.

The intelligent gateway of this embodiment may be configured to execute the steps of the method for controlling the internet of things device in the second embodiment, and a specific implementation manner and a technical effect are similar and will not be described herein again.

Fig. 10 is a schematic structural diagram of another intelligent gateway according to a seventh embodiment of the present invention, and as shown in fig. 10, the intelligent gateway 100 includes: the processor 1001, the memory 1002, the transceiver 1003, and the memory 1002 are configured to store instructions, the transceiver 1003 is configured to communicate with other devices, and the processor 1001 is configured to execute the instructions stored in the memory, so that the intelligent gateway 100 executes the steps of the method for controlling the internet of things device in the second embodiment.

An eighth embodiment of the present invention provides a computer-readable storage medium, where a computer program is stored in the computer-readable storage medium, and the computer program is used, when executed by a processor, to implement the steps of the method for controlling an internet of things device in the first embodiment or the second embodiment, where a specific implementation manner and technical effects are similar, and are not described herein again.

An embodiment ninth of the present invention provides a computer program product, which includes a computer program, and when the computer program is executed by a processor, the steps of the method for controlling an internet of things device according to the first embodiment or the second embodiment are implemented, and the specific implementation manner and the technical effect are similar, and are not described herein again.

Other embodiments of the present application will be apparent to those skilled in the art from consideration of the specification and practice of the invention disclosed herein. This application is intended to cover any variations, uses, or adaptations of the invention following, in general, the principles of the application and including such departures from the present disclosure as come within known or customary practice within the art to which the invention pertains. It is intended that the specification and examples be considered as exemplary only, with a true scope and spirit of the application being indicated by the following claims.

It will be understood that the present application is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the application is limited only by the appended claims.

Claims (21)

1. A control method of Internet of things equipment is applied to a remote controller, and is characterized by comprising the following steps:

collecting control information input by a user, wherein the control information comprises an identifier of a target IOT (Internet of things) device to be controlled and an execution instruction of the target IOT device;

and sending the control information to an intelligent gateway through a first connection, wherein the first connection is the connection between the remote controller and the intelligent gateway, and the intelligent gateway is connected and communicated with a plurality of IOT devices through a plurality of communication protocols.

2. The method of claim 1, wherein before sending the control information to the smart gateway over the first connection, further comprising:

acquiring a first distance between the target IOT equipment and the intelligent gateway;

sending the control information to an intelligent gateway through a first connection, including:

and when the first distance is smaller than or equal to a preset distance, the control information is sent to the intelligent gateway through the first connection.

3. The method of claim 2, further comprising:

and when the first distance is greater than the preset distance, sending the control information to the target IOT equipment through a second connection, wherein the second connection is the connection between the remote controller and the target IOT equipment, and the communication protocol used by the second connection is different from that used by the first connection.

4. The method of any of claims 1-3, wherein the first connection is a WIFI connection.

5. The method of claim 1, wherein after sending the control information to the smart gateway over the first connection, further comprising:

receiving a connection failure message sent by the intelligent gateway;

and sending the control information to the target IOT equipment through a second connection, wherein the second connection is the connection between the remote controller and the target IOT equipment, and the second connection and the first connection use different communication protocols.

6. The method of any one of claims 1-3 or 5, further comprising:

receiving alarm information sent by the intelligent gateway through the first connection, wherein the alarm information is sent to the intelligent gateway when the target IOT equipment is abnormal;

and outputting the alarm information.

7. The method of claim 6, wherein the collecting control information input by a user comprises:

collecting the control information input by a user in a display interface of the remote controller;

or receiving an electric signal input by a user through a key of the remote controller, and generating the control information according to the electric signal;

or collecting voice data input by a user, and generating the control information according to the voice data, wherein the voice data is used for describing the control information.

8. A control method of Internet of things equipment is applied to an intelligent gateway, and is characterized by comprising the following steps:

receiving control information sent by a remote controller through a first connection, wherein the first connection is the connection between the remote controller and the intelligent gateway, and the control information comprises an identifier of target IOT equipment to be controlled and an execution instruction of the target IOT equipment;

converting the format of the execution instruction into a format corresponding to a communication protocol supported by the target IOT equipment;

and sending the execution instruction after format conversion to the target IOT equipment.

9. The method of claim 8, wherein before receiving the control information transmitted by the remote controller via the first connection, the method further comprises:

measuring a first distance between the intelligent gateway and the target IOT device;

sending the first distance to the remote control through the first connection.

10. The method of claim 8, wherein before sending the format-converted execution instruction to the target IOT device, further comprising:

measuring a first distance between the intelligent gateway and the target IOT device;

the sending the format-converted execution instruction to the target IOT device includes:

and when the first distance is smaller than or equal to a preset threshold value, sending the execution instruction after format conversion to the target IOT equipment.

11. The method of claim 10, further comprising:

and when the first distance is greater than the preset threshold value, sending a connection failure message to the remote controller through the first connection.

12. The method according to any one of claims 8-11, further comprising:

acquiring alarm information sent when the target IOT equipment is abnormal;

converting the alarm information into a format corresponding to a network protocol used by the first connection;

and sending the alarm information after format conversion to the remote controller through the first connection.

13. A remote control, comprising:

the system comprises an acquisition module, a processing module and a control module, wherein the acquisition module is used for acquiring control information input by a user, and the control information comprises an identifier of target IOT equipment to be controlled and an execution instruction of the target IOT equipment;

and the sending module is used for sending the control information to an intelligent gateway through a first connection, the first connection is the connection between the remote controller and the intelligent gateway, and the intelligent gateway is connected and communicated with a plurality of IOT devices through a plurality of communication protocols.

14. An intelligent gateway, comprising:

a receiving module, configured to receive control information sent by a remote controller through a first connection, where the first connection is a connection between the remote controller and the intelligent gateway, and the control information includes an identifier of a target IOT device to be controlled and an execution instruction of the target IOT device;

a protocol conversion module, configured to convert a format of the execution instruction into a format corresponding to a communication protocol supported by the target IOT device;

and the sending module is used for sending the execution instruction after the format conversion to the target IOT equipment.

15. A remote control, comprising: the radio frequency unit and the data acquisition unit are respectively and electrically connected with the control unit;

the data acquisition unit is used for acquiring control information input by a user and sending the control information to the control unit, wherein the control information comprises an identifier of a target IOT device and an execution instruction of the target IOT device;

the control unit is used for sending the control information to the radio frequency unit;

the radio frequency unit is used for sending the control information to the intelligent gateway through a first connection, the first connection is established by the radio frequency unit, the remote controller is connected with the intelligent gateway, and the intelligent gateway is connected and communicated with the IOT equipment through multiple communication protocols.

16. The remote control of claim 15, wherein the control unit is further configured to:

acquiring a first distance between the target IOT equipment and the intelligent gateway;

and when the first distance is smaller than or equal to a preset distance, sending the control information to the radio frequency unit, and indicating the radio frequency unit to send the control information through the first connection.

17. The remote control of claim 16, wherein the control unit is further configured to:

when the first distance is greater than the preset distance, sending the control information to the radio frequency unit, and instructing the radio frequency unit to send the control information through a second connection, where the second connection is a connection between the remote controller and the target IOT device, and a communication protocol used by the second connection is different from that used by the first connection;

the radio frequency unit is further configured to send the control information to the target IOT device through the second connection.

18. The remote control of any of claims 15-17, wherein the radio frequency unit is further configured to:

receiving alarm information sent by the intelligent gateway, wherein the alarm information is sent to the intelligent gateway when the target IOT equipment is abnormal;

sending the alarm information to the control unit;

the control unit is also used for sending the alarm information to the data acquisition unit, and the data acquisition unit is also used for outputting the alarm information.

19. The remote control of claim 18, wherein the data acquisition unit comprises at least two of: the device comprises a display unit, a voice interaction unit and a key control unit;

the display unit is used for collecting control information input by a user in a display interface and sending the control information to the control unit;

the voice interaction unit is used for acquiring voice data input by a user, generating control information according to the voice data and sending the control information to the control unit;

the key control unit is used for receiving an electric signal input by a user through a key, generating control information according to the electric signal and sending the control information to the control unit.

20. An intelligent gateway, comprising: a processor, and a memory communicatively coupled to the processor;

the memory stores computer-executable instructions;

the processor executes computer-executable instructions stored by the memory to implement the method of any of claims 6 to 8.

21. A computer-readable storage medium, wherein computer-executable instructions are stored in the computer-readable storage medium, and when executed by a processor, the computer-executable instructions are used for implementing the method for controlling the internet of things device according to any one of claims 1 to 12.

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