CN117641516B - Intelligent interaction control method and system for multimedia equipment - Google Patents

Abstract

The invention provides an intelligent interaction control method and system for multimedia equipment, wherein the multimedia equipment comprises a first equipment, a second equipment and a third equipment, and the intelligent interaction control method comprises the following steps: the first device receives a control request message from a user, analyzes the control request message to obtain the type of the control request message, if the control request message is a first type request message, the first device establishes interactive control connection with the second device based on a first network system, if the control request message is a second type request message, the first device establishes interactive control connection with the third device based on a second network system, and the second device does not establish interactive control connection with the third device. The intelligent interaction control method improves the intelligent control efficiency and effectively improves the user experience by intelligently extracting the control message request and connecting the control message request with the equipment under different network systems.

Description

Intelligent interaction control method and system for multimedia equipment

Technical Field

The invention relates to the field of intelligent control, in particular to an intelligent interaction control method and system for multimedia equipment.

Background

Along with the continuous development of technology, in particular to the continuous enhancement of the application of the internet of things technology in the intelligent control field, the intelligent interaction control mode of the internet of things technology is applied to various scenes in people's life, such as teaching and intelligent home field. In these application scenarios, intelligent interaction control between various devices provides many convenience for daily life in different application scenarios.

The multimedia technology in the intelligent home application scene is developed, so that intelligent interaction control is performed among various different types of intelligent equipment, different use requirements of people are better met, but the multimedia equipment has some technical problems in the application scene, and the problems can be encountered in practical application.

In general, a plurality of WiFi networks are set in a home room or an office scene environment, when a mobile phone is connected to one WiFi network and an interactive television or a projector is connected to another WiFi network, the current common mode is that a user manually performs network switching, although some network switching technical schemes are encountered in the prior art, the network switching is basically implemented based on a location, for example, when leaving a certain network, the user automatically accesses another network, which makes the interactive operation of the intelligent device troublesome.

In addition, in the daily life process, some devices with bluetooth may be in different application scenarios, such as a sound box, a headset and some electronic toys, which do not need to be connected to a WiFi network, generally interact through bluetooth for realizing control, but it is found that when the devices are connected to a certain mobile device, the user is unclear, so that when the devices needed to be connected to the sound box, the headset or some electronic toys are not connected, the bluetooth network needs to be disconnected first, which has two problems, and some devices are not prompted to connect to other devices, and some are connected to which mobile device, but are unclear to which mobile device, which is unclear to close or disconnect the bluetooth network of which device, which also causes a lot of inconvenience to people in the daily smart home application scenario.

Disclosure of Invention

In order to solve the technical problems, the invention provides an intelligent interaction control method and system for multimedia equipment.

In a first aspect, the present invention provides an intelligent interaction control method for a multimedia device, where the multimedia device includes a first device, a second device, and a third device, and the intelligent interaction control method includes the following steps:

The first device receives a control request message from a user, analyzes the control request message to acquire the type of the control request message, if the control request message is a first type request message, the first device establishes interactive control connection with the second device based on a first network system, if the control request message is a second type request message, the first device establishes interactive control connection with the third device based on a second network system, and the second device does not establish interactive control connection with the third device;

the first network system is a WIFI network, and the second network system is a Bluetooth network.

In some embodiments, the first network system includes two or more sub-network systems, wherein the first device establishes a connection configuration procedure with both of the two or more sub-network systems according to the user configuration request at least once, and the second device establishes a connection with any one of the two or more sub-network systems according to the user configuration request.

In some embodiments, after the first device establishes connection with two or more sub-network systems according to the user configuration request, automatically detecting a state of a current sub-network, and searching a sub-network system of the shortest distance in real time according to a current position of the first device; and if the current sub-network state is lower than a preset threshold value, establishing connection with a sub-network system of the shortest distance, wherein the second equipment does not search the sub-network system of the shortest distance after establishing connection with any one sub-network system.

In some embodiments, when the first device receives that the interactive control request message from the user is a first type request message, the first device sends a sub-network type request message to the second device, if a response message based on that the sub-network type of the second device is the same as the sub-network type of the first device is returned, the interactive control connection between the first device and the second device is directly established, if the response message is not the same, the first device automatically switches the network to the sub-network type same as the second device, and then the interactive control connection between the first device and the second device is established.

In some embodiments, when the first device receives that the interactive control request message from the user is a second type request message, a second network system of the first device is automatically started, a connection request based on the second network system is sent to the third device, after the third device returns a response message of connection failure, connection failure reason information is obtained, and connection with the third device is established after the reason information is analyzed.

In some embodiments, the step of establishing a connection with the third device after parsing the cause information further includes parsing the cause information, if the cause is that the third device does not open a second network system, the first device sends a request message for opening the second network system of the third device to a user, after receiving the second network system of the third device to open, the first device establishes a connection with the third device again, if the cause is that the third device has established a connection with a fourth device, and the third device does not have a content interaction relationship with the fourth device, the first device obtains device information of the fourth device to the third device, and sends disconnection information to the fourth device based on the device information, and the first device establishes a connection with the third device after receiving the information of disconnection from the third device sent by the fourth device, where the disconnection information is used to indicate that the fourth device is disconnected from the third device, the fourth device is one or more devices and the fourth device belongs to the same class.

In some embodiments, the intelligent interaction method further includes establishing a communication association degree between the first device and one or more fourth devices, specifically, after the first device completes joining a first network system, receiving a request for joining the first network system by one or more fourth devices, after identifying identity information of the fourth device, joining the fourth device passing through identity information verification into the first network system, and performing data interaction based on the first network system.

In a second aspect, the present invention further provides an intelligent interaction control system for a multimedia device, where the system includes a first device, a second device, and a third device, and the first device includes:

the receiving module is used for receiving a control request message from a user;

The analysis module is used for analyzing the control request message to acquire the type of the control request message;

The processing module is used for processing according to the type of the control request message, if the control request message is a first type request message, the first equipment establishes interactive control connection with the second equipment based on a first network system, and if the control request message is a second type request message, the first equipment establishes interactive control connection with the third equipment based on a second network system;

wherein no interactive control connection is established between the second device and the third device;

The first network system is a WIFI network, and the second network system is a Bluetooth network.

In some embodiments, the processing module further comprises a first processing sub-module and a second processing sub-module, wherein,

The first processing sub-module is used for automatically detecting the state of the current sub-network after connection with two or more sub-network systems is established according to a user configuration request, searching the sub-network system with the shortest distance in real time according to the current position of the first equipment, and establishing connection with the sub-network system with the shortest distance after the current sub-network state is lower than a preset threshold value;

The second processing submodule is used for sending a sub-network type request message to the second equipment when receiving the interaction control request message from the user as a first type request message, if a response message based on the sub-network type of the second equipment is the same as the sub-network type of the first equipment is returned, directly establishing interaction control connection between the first equipment and the second equipment, and if the response message is different from the response message, the first equipment automatically switches the network to the sub-network type which is the same as the second equipment, and then establishes interaction control connection between the first equipment and the second equipment; and when the first equipment receives the interactive control request message from the user as a second type request message, automatically starting a second network system of the first equipment, sending a connection request based on the second network system to the third equipment, acquiring the reason information of connection failure after the third equipment returns a response message of connection failure, and establishing connection with the third equipment after analyzing the reason information.

In some embodiments, the intelligent interaction control system further includes one or more fourth devices, after the first device completes joining the first network system, the intelligent interaction control system receives a request for joining the first network system from one or more fourth devices, after identifying the identity information of the fourth device, joins the fourth device passing the identity information verification into the first network system, and performs data interaction based on the first network system.

According to the intelligent interaction control method and system for the multimedia equipment, through intelligent interaction setting of different equipment in the multimedia application scene, the interaction capability of the intelligent equipment is effectively improved, and the experience of a user is improved under the condition that the intelligent requirement in the intelligent application scene is met.

Drawings

FIG. 1 is a flow chart of an intelligent interaction control method of a multimedia device according to the present invention;

fig. 2 is a frame diagram of an intelligent interaction control system of a multimedia device according to the present invention.

Detailed Description

Embodiments of the present application are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present application and should not be construed as limiting the application.

The application mainly aims at the technical problems that in the prior art, when a mobile device and a household appliance are different in data transmission protocol supported by the same, and the mobile device and a terminal device cannot communicate with each other and cannot realize mutual control due to network connection, the application provides an intelligent interaction control method for the multimedia device.

For ease of understanding, the technical solutions of the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is apparent that the described embodiments are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Fig. 1 is a flow chart of an intelligent interaction control method for a multimedia device according to an embodiment of the present application, as shown in fig. 1, where the multimedia device includes a first device, a second device, and a third device, and the purpose of the present application is to implement intelligent interaction control between the first device, the second device, and the third device, and specifically, the device control method includes the following steps:

Step S101. The first device receives a control request message from a user.

Step S102, analyzing the control request message to obtain the type of the control request message, if the control request message is the first type request message, the first device establishes the interactive control connection with the second device based on the first network system, and if the control request message is the second type request message, the first device establishes the interactive control connection with the third device based on the second network system.

In this embodiment, the execution body is a first device, and the first device may be a mobile communication device in a multimedia application scenario, such as a mobile phone, a pad, or a notebook computer.

In this embodiment, the second device and the third device are devices that the user needs to actually control, for example, the second device may be an intelligent device such as a television to be controlled, a projection device, and the third device is an intelligent device such as an earphone, a sound box, and the like.

In this embodiment, when the user needs to perform intelligent control on the second device or the third device, the control request message may be input by operating a control panel of the first device, such as a screen or a pad of a mobile phone, where the first device parses the input control request message to determine the type of the input control message, in fact, the first device and the second device may be connected through a first network system or a second network system, where intelligent interaction control is to be performed between the first device and the third device, and only the second network system is implemented, where connection may be established between the first device and the third device based on the first network system, but only an information interaction process is performed, and a control process is not performed. For example, when the third device is an earphone, the first device and the third device are in the first network system, and only used for the first device to refer to the related information of the third device, such as the electric quantity and the device state information. And when the communication is based on the second network system, the first device is used for intelligently controlling the third device, for example, judging whether the third device has a connection relation with other devices, if so, sending a control instruction to realize connection relation disconnection between the third device and the other devices in a non-working state.

In this embodiment, the first network system is defined as a WiFi network, the second network system is defined as a bluetooth network, and in practice, the second network system may also be a short-distance transmission protocol of infrared transmission or Zigbee transmission, so as to achieve a short-distance connection relationship between the first device and the third device.

In this embodiment, the connection relationship between the first device and the second device or the third device is realized, that is, when the user needs to realize intelligent interaction control of the multimedia device, intelligent interaction control of the second device or the third device can be realized through the first device, and after the first device performs control analysis according to the user needs, the corresponding connection relationship with the second device or the third device is established, so as to realize intelligent interaction control. In this process, no interactive control connection is established between the second device and the third device.

For the purpose of clarity and clarity of the present invention, the following specifically describes the interaction control procedure between the first device and the second device, and between the first device and the third device.

As set forth above, when the first device receives the control request message sent by the user, it needs to analyze the device type that needs to be interactively controlled, if it is the second device, it performs communication connection based on the first network system, and if it is the third device, it performs connection based on the second network system.

In this embodiment, if only one WiFi network exists, communication can be directly performed between the first device and the second device, and if multiple WiFi sub-network systems exist in the first network system, the present invention is also a technical problem that needs to be actually solved by the present invention, in this scenario, multiple WiFi sub-networks are often involved, when the first device and the second device need to communicate, and when only one network system exists, communication between the first device and the second device is directly performed through the first network system, and if multiple sub-network systems exist in the first network system, interaction control can be established only when the first device and the second device belong to the same sub-network system, so, in order to solve one of the technical problems of the present invention, it is set to implement by directly and automatically establishing the same sub-network system between the first device and the second device in the same sub-network system, and performing interaction control in the same sub-network system.

It should be noted that, the first device and the second device are used as the working devices belonging to the first network system, and network debugging is required before working, if only one network system exists, namely, the first network system, the first device and the second device are configured to communicate in the first network system, if a plurality of sub-network systems exist in the first network system, the user is required to establish connection between the first device and all the sub-network systems, and because the first device is actually a mobile device, the connection between the first device and all the sub-network systems is established, so that the mobile device is in an uninterrupted network connection process. The second device only needs to be configured to establish connection with any one of the plurality of sub-network systems.

In order to achieve the purpose of the invention, a first device is required to perform position detection and update, the states of the first device and a current sub-network are automatically detected, and a sub-network system of the shortest distance is searched in real time according to the current position of the first device; and if the current sub-network state is lower than a preset threshold value, establishing connection with a sub-network system of the shortest distance, wherein the second equipment does not search the sub-network system of the shortest distance after establishing connection with any one sub-network system.

According to the above, on the one hand, the first device needs to automatically perform location update, so that when the user is located relatively close to the second device, the user is automatically connected to the same network system as the second device, so that the first device and the second device belong to the same sub-network system, but in reality, the user is not necessarily close to the second device, which requires judgment and analysis. When the first device receives a request message of a first type from a user, the request message of a sub-network type is sent to the second device, if a response message based on the sub-network type of the second device and the sub-network type of the first device are the same, the interaction control connection between the first device and the second device is directly established, if the response message is different, the first device automatically switches the network to the sub-network type which is the same as the sub-network type of the second device, and then the interaction control connection between the first device and the second device is established. That is, the first device may interact with the third device by information, and in the present invention, it may be considered that if the first device and the second device may communicate, the description belongs to the same sub-network system, that is, if the first device sends a request message to the second device, the first device can receive a feedback acknowledgement message, the first device may be considered to belong to the same sub-network system, and if a feedback message that cannot be acknowledged or a message that fails to send the request message is received, the first device may not be considered to belong to the same sub-network system.

For example, when a user needs to screen video content of a mobile phone, a pad or a notebook computer onto a television or a projector, connection control needs to be performed under the same network system, when the user selects a certain video content, a screen-projection message request is performed, when connection is directly established and screen projection is successful, the user is already in the same network, when a message of failed screen projection is returned, the first device automatically performs switching of a plurality of sub-network systems, and after a message of successful screen projection is returned, the user is notified to establish the same network connection process. The method is only illustrated, and also includes that under other application scenarios, when communication connection is established between the first device and the second device, judgment of network system is needed, and intelligent interaction control of the same sub-network system is realized based on automatic switching.

In this embodiment, when the first device receives that the interactive control request message from the user is a second type request message, the second network system of the first device is automatically started, a connection request based on the second network system is sent to the third device, after the third device returns a response message of connection failure, the reason information of the connection failure is obtained, and after the reason information is analyzed, connection with the third device is established. As described above, the third device may be an intelligent device such as bluetooth or a sound box, and the first device communicates with the third device according to the second network system to implement intelligent interaction control. The technical problem to be solved by the present invention also includes the problem that when a communication is established between the first device and the third device, the third device has already established a connection with other devices, while at the same time the connection is an idle connection, i.e. only a connection, but no control procedure is actually generated, which results in a connection failure when the first device establishes a connection with the third device. Of course, the connection failure may also be due to the fact that the third device itself does not open the second network-based procedure. Therefore, the first device needs to acquire the reason of the connection failure, and then can establish the connection with the third device after parsing.

In this embodiment, the multimedia device may actually further include one or more fourth devices, and in the present invention, the first device may actually be considered as a master device, and when other devices need to establish a connection with the first network in the current application scenario, the master device needs to establish a connection after identity verification. In fact, in an application scenario, if a plurality of users can acquire a password or a key connected to the first network system, the users can be directly connected, at this time, the fourth device can directly establish communication connection with the first network, and if the related password or key is not acquired, at this time, the connection is established, the first device needs to be accessed, so as to determine whether the connection is performed according to a feedback message after an authentication result of the first device. This section describes a fourth device present in the multimedia device, and in fact it is necessary to say that in a daily application scenario, it is often encountered that the fourth device establishes an idle connection with the third device, whereas the first device does not establish a connection when it is required to establish a connection with the third device. This is the problem that the present invention needs to solve.

In this embodiment, after analyzing the reason information of the connection failure, if the reason is that the third device does not open the second network system, the first device sends a request message for opening the second network system of the third device to the user, after receiving the request message for opening the second network system of the third device, the first device establishes connection with the third device again, if the reason is that the third device has established connection with the fourth device and the third device does not generate a content interaction relationship with the fourth device, the first device obtains device information of the fourth device from the third device, sends disconnection information to the fourth device based on the device information, and establishes connection with the third device after receiving the information of disconnection from the third device sent by the fourth device, where the disconnection information is used to indicate that the fourth device is disconnected from the third device, the number of the fourth device is one or more, and the fourth device and the first device belong to the same device class.

For example, in the same application scenario, a first device of the mobile phone a, a third device of the bluetooth headset, and a fourth device of the mobile phone B are provided, in an initial state, the bluetooth headset is already connected to the mobile phone B in a bluetooth mode, and in fact, there is no actual control relationship between the two devices, at this time, the mobile phone a needs to be connected to the bluetooth headset, however, two connection failures occur, one is that bluetooth of the bluetooth headset is not opened, and the other is that the bluetooth headset is already connected to the mobile phone B in a bluetooth mode, but in general, the user can recognize that bluetooth is not opened, but cannot be clear, or that the bluetooth headset is already connected to the mobile phone B, or even if the connection is known, does not know which device is connected, at this time, on the one hand, the user opens bluetooth, if the connection is still unable to be established, the mobile phone a sends a request message to the bluetooth headset to obtain the type of the mobile phone B, at this time, the user can directly find out the connection with the bluetooth headset, and then the mobile phone a can establish a connection relationship with the bluetooth headset. In technical implementation, when the bluetooth headset and the mobile phone B are connected, although the user does not know specific information of the mobile phone B, the bluetooth device itself has a bluetooth identifier which can be searched, and the bluetooth headset itself can acquire information of the connected bluetooth device identifier, so that the information can be sent to the mobile phone a.

In order to achieve the object of the present invention, as shown in fig. 2, the present invention further proposes a multimedia device intelligent interaction control system 20, the system including a first device 21, a second device 22, and a third device 23, wherein the first device 21 includes:

A receiving module 211, configured to receive a control request message from a user;

a parsing module 212, configured to parse the control request message to obtain a type of the control request message;

A processing module 213, configured to process according to the type of the control request message, if the control request message is a first type request message, the first device establishes an interactive control connection with the second device based on a first network system, and if the control request message is a second type request message, the first device establishes an interactive control connection with the third device based on a second network system;

Wherein no interactive control connection is established between the second device 21 and the third device 23;

The first network system is a WIFI network, and the second network system is a Bluetooth network.

In some embodiments, the processing module 213 further includes a first processing sub-module 2131 and a second processing sub-module 2132, wherein,

The first processing sub-module 2131 is configured to automatically detect a state of a current sub-network after connection is established with two or more sub-network systems according to a user configuration request, search a shortest-distance sub-network system according to a current position of the first device in real time, and establish connection with the shortest-distance sub-network system if the current sub-network state is lower than a preset threshold;

The second processing submodule 2132 is configured to send a request message of a sub-network system to the second device when receiving a request message of an interaction control from a user as a first type of request message, if a response message based on that the sub-network system of the second device is the same as the sub-network system of the first device is returned, directly establish interaction control connection between the first device and the second device, if the response message is different from the response message, the first device automatically switches the network to the sub-network system same as the second device, and then establishes interaction control connection between the first device and the second device; and when the first equipment receives the interactive control request message from the user as a second type request message, automatically starting a second network system of the first equipment, sending a connection request based on the second network system to the third equipment, acquiring the reason information of connection failure after the third equipment returns a response message of connection failure, and establishing connection with the third equipment after analyzing the reason information.

In some embodiments, the intelligent interaction control system further includes one or more fourth devices 24, after the first device 21 completes joining a first network system, receives a request for joining the first network system from one or more fourth devices 24, recognizes identity information of the fourth devices 24, joins the fourth devices 24 that pass the identity information verification into the first network system, and performs data interaction based on the first network system.

The apparatus embodiments described above are merely illustrative, wherein the elements illustrated as separate elements may or may not be physically separate, and the elements shown as elements may or may not be physical elements, may be located in one place, or may be distributed over a plurality of network elements. Some or all of the modules may be selected according to actual needs to achieve the purpose of the solution of this embodiment. Those of ordinary skill in the art will understand and implement the present invention without undue burden.

From the above description of the embodiments, it will be apparent to those skilled in the art that the embodiments may be implemented by means of software plus necessary general hardware platforms, or of course may be implemented by means of hardware. Based on this understanding, the foregoing technical solution may be embodied essentially or in a part contributing to the prior art in the form of a software product, which may be stored in a computer readable storage medium, such as ROM/RAM, a magnetic disk, an optical disk, etc., including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method described in the respective embodiments or some parts of the embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (5)

1. The intelligent interaction control method for the multimedia equipment is characterized by comprising a first equipment, a second equipment and a third equipment, and comprises the following steps:

The first device receives a control request message from a user, analyzes the control request message to acquire the type of the control request message, if the control request message is a first type request message, the first device establishes interactive control connection with the second device based on a first network system, if the control request message is a second type request message, the first device establishes interactive control connection with the third device based on a second network system, and the second device does not establish interactive control connection with the third device;

The first network system is a WIFI network and comprises two or more sub-network systems, and the second network system is a Bluetooth network; the first equipment establishes a connection configuration process with two or more sub-network systems at least once according to a user configuration request, and the second equipment establishes a connection with any one of the two or more sub-network systems according to the user configuration request;

After the first device establishes connection with two or more sub-network systems according to a user configuration request, automatically detecting the state of the current sub-network, and searching the sub-network system of the shortest distance in real time according to the current position of the first device; if the current sub-network state is lower than a preset threshold value, establishing connection with a sub-network system of the shortest distance, wherein the second equipment does not search the sub-network system of the shortest distance after establishing connection with any one sub-network system;

When the first equipment receives an interaction control request message from a user as a second type request message, automatically starting a second network system of the first equipment, sending a connection request based on the second network system to the third equipment, acquiring reason information of connection failure after the third equipment returns a response message of connection failure, and establishing connection with the third equipment after analyzing the reason information;

The step of establishing connection with the third device after analyzing the reason information further includes analyzing the reason information, if the reason is that the third device does not open a second network system, the first device sends a request message for opening the second network system of the third device to a user, after receiving the second network system of the third device to open, the first device establishes connection with the third device again, if the reason is that the third device has established connection with a fourth device, the third device does not generate a content interaction relationship with the fourth device, the first device obtains device information of the fourth device to the third device, and sends disconnection information to the fourth device based on the device information, and the first device establishes connection with the third device after receiving the information of disconnection with the third device sent by the fourth device, wherein the disconnection information is used for indicating that the fourth device is disconnected with the third device, the fourth device is one or more, and the fourth device and the first device belong to the same category.

2. The intelligent interactive control method according to claim 1, wherein when the first device receives that the interactive control request message from the user is a first type request message, a sub-network type request message is sent to the second device, if a response message based on that the sub-network type of the second device is the same as that of the first device is returned, the interactive control connection between the first device and the second device is directly established, if the response message is not the same, the first device automatically switches the network to the same sub-network type as that of the second device, and then the interactive control connection between the first device and the second device is established.

3. The intelligent interaction control method according to claim 2, further comprising establishing a communication association degree between the first device and one or more fourth devices, specifically, after the first device completes joining a first network system, receiving a request for joining the first network system by one or more fourth devices, after identifying identity information of the fourth device, joining the fourth device passing identity information verification into the first network system, and performing data interaction based on the first network system.

4. An intelligent interaction control system for a multimedia device, wherein the system comprises a first device, a second device and a third device, and the first device comprises:

the receiving module is used for receiving a control request message from a user;

The analysis module is used for analyzing the control request message to acquire the type of the control request message;

The processing module is used for processing according to the type of the control request message, if the control request message is a first type request message, the first equipment establishes interactive control connection with the second equipment based on a first network system, and if the control request message is a second type request message, the first equipment establishes interactive control connection with the third equipment based on a second network system;

The processing module further comprises a first processing sub-module and a second processing sub-module, wherein,

The first processing sub-module is used for automatically detecting the state of the current sub-network after connection with two or more sub-network systems is established according to a user configuration request, searching the sub-network system with the shortest distance in real time according to the current position of the first equipment, and establishing connection with the sub-network system with the shortest distance after the current sub-network state is lower than a preset threshold value;

The second processing submodule is used for sending a sub-network type request message to the second equipment when receiving the interaction control request message from the user as a first type request message, if a response message based on the sub-network type of the second equipment is the same as the sub-network type of the first equipment is returned, directly establishing interaction control connection between the first equipment and the second equipment, and if the response message is different from the response message, the first equipment automatically switches the network to the sub-network type which is the same as the second equipment, and then establishes interaction control connection between the first equipment and the second equipment; when the first device receives a second type request message from a user, the second network system of the first device is automatically started, a connection request based on the second network system is sent to the third device, after the third device returns a response message of connection failure, the reason information of the connection failure is acquired, and after the reason information is analyzed, the connection with the third device is established;

wherein no interactive control connection is established between the second device and the third device;

The first network system is a WIFI network, and the second network system is a Bluetooth network.

5. The intelligent interactive control system according to claim 4, further comprising one or more fourth devices, wherein after the first device completes joining a first network system, the intelligent interactive control system receives a request for joining the first network system from the one or more fourth devices, recognizes identity information of the fourth devices, joins the fourth device passing the identity information verification into the first network system, and performs data interaction based on the first network system.