CN111830844A - Intelligent equipment control method and device and intelligent household control panel - Google Patents

Abstract

The application discloses an intelligent device control method and device and an intelligent home control panel, and relates to the technical field of intelligent devices. Acquiring the current communication state of at least one intelligent household control panel; comparing the current communication state of at least one intelligent household control panel, and determining that the intelligent household control panel with the best current signal intensity is a main control panel, wherein the main control panel is a first intelligent household control panel, and the other intelligent household control panels are second intelligent household control panels; the first intelligent home control panel sends main control panel identification information to the preset equipment, so that the preset equipment determines the first intelligent home control panel as a target main control panel based on the received main control panel identification information; the second intelligent household control panel and the preset equipment establish a cascade path with the first intelligent household control panel. Therefore, the problem of control instruction transmission failure or delay caused by channel congestion of the router or weak wireless signals can be avoided.

Description

Intelligent equipment control method and device and intelligent household control panel

Technical Field

The application relates to the technical field of intelligent equipment, in particular to an intelligent equipment control method and device and an intelligent household control panel.

Background

The intelligent household devices (such as lighting systems, curtains, air conditioners, security systems, network appliances and the like) can be uniformly controlled through the intelligent control devices (such as an intelligent household control panel). The intelligent home equipment and the intelligent control equipment are usually accessed to the same wireless local area network, on one hand, interconnection can be realized, and on the other hand, communication with equipment of an external network can be realized through a gateway of the wireless local area network. For example, the intelligent control device may receive a control instruction sent by the terminal device of the user, and control the intelligent home device based on the control instruction. However, some coverage areas of the wireless lan may have poor signals or channels jammed, so that the control operation of the user cannot be performed smoothly.

Disclosure of Invention

In view of this, the present application provides a method and an apparatus for controlling an intelligent device, and an intelligent home control panel, so as to improve the above problems.

In a first aspect, an embodiment of the present application provides an intelligent device control method, where the method includes: acquiring the current communication state of at least one intelligent household control panel; comparing the current communication state of at least one intelligent household control panel, and determining that the intelligent household control panel with the best current signal intensity is a main control panel, wherein the main control panel is a first intelligent household control panel, and the rest intelligent household control panels are second intelligent household control panels; the first intelligent home control panel sends main control panel identification information to the preset equipment, so that the preset equipment determines the first intelligent home control panel as a target main control panel based on the received main control panel identification information; the second intelligent household control panel and the preset equipment establish a cascade path with the first intelligent household control panel.

In a second aspect, an embodiment of the present application provides an intelligent device control apparatus, where the apparatus includes: the device comprises a signal acquisition module, a comparison module, a determination module and a cascade module. The signal acquisition module is used for acquiring the current communication state of at least one intelligent household control panel; the comparison module is used for comparing the current communication state of at least one intelligent household control panel, and determining that the intelligent household control panel with the best current signal intensity is a main control panel, wherein the main control panel is a first intelligent household control panel, and the rest intelligent household control panels are second intelligent household control panels; the determining module is used for sending the main control panel identification information to the preset equipment by the first intelligent household control panel, so that the preset equipment determines the first intelligent household control panel as a target main control panel based on the received main control panel identification information; and the cascade module is used for establishing a cascade path between the second intelligent household control panel and the first intelligent household control panel and between the preset equipment and the first intelligent household control panel.

In a fourth aspect, an embodiment of the present application provides an intelligent home control panel, including: one or more processors; a memory; one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the methods described above.

In a fifth aspect, the present application provides a computer-readable storage medium, in which a program code is stored, and the program code can be called by a processor to execute the above method.

Compared with the prior art, in the scheme provided by the application, the current communication state of at least one intelligent household control panel is obtained, the current communication state of at least one intelligent household control panel is compared, the intelligent household control panel with the best current signal intensity is determined to be the main control panel, the main control panel is the first intelligent household control panel, and the rest intelligent household control panels are the second intelligent household control panels; the first intelligent home control panel sends main control panel identification information to the preset equipment, so that the preset equipment determines the first intelligent home control panel as a target main control panel based on the received main control panel identification information; the second intelligent home control panel and the preset device establish a cascade path with the first intelligent home control panel, namely, the intelligent home control panel with the highest current signal intensity accessed into the intelligent gateway is determined to be the main control panel, and other intelligent home control panels and the main control panel are cascaded in a short-distance communication mode, so that control instruction transmission failure or transmission delay caused by channel congestion of a router or unstable wireless local area network signals is avoided, and therefore it is ensured that the control instruction for the intelligent home device can be stably transmitted to the intelligent home control panel, control processing corresponding to the control instruction can be smoothly carried out, and user experience is improved.

These and other aspects of the present application will be more readily apparent from the following description of the embodiments.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

Fig. 1 is a schematic structural diagram of an intelligent device control system according to an embodiment of the present application.

Fig. 2 shows a flowchart of an intelligent device control method according to an embodiment of the present application.

Fig. 3 is another flow chart of the intelligent device control method in the embodiment shown in fig. 2.

Fig. 4 is another flow chart of the intelligent device control method in the embodiment shown in fig. 2.

Fig. 5 shows a flow diagram of sub-steps of step S420 shown in fig. 4 in an embodiment.

Fig. 6 is another flow chart of the intelligent device control method in the embodiment shown in fig. 2.

Fig. 7 is another flow chart of the intelligent device control method in the embodiment shown in fig. 2.

Fig. 8 is a block diagram of an intelligent device control apparatus according to an embodiment of the present application.

Fig. 9 is a block diagram of a smart home control panel for executing a smart device control method according to an embodiment of the present application.

Fig. 10 is a storage unit for storing or carrying program codes for implementing a path generation method according to an embodiment of the present application.

Detailed Description

In order to make the technical solutions better understood by those skilled in the art, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

In practical application, various household devices (such as an access control system, a lighting system, an air conditioning system, a refrigerator, a curtain and the like) in a family can be connected together through the internet of things technology, and a user can control the household devices through a mobile phone terminal or an intelligent household control panel in a house. The home devices and the smart home control panel are usually connected to corresponding wireless gateways to realize interconnection. However, as the distance between the smart home control panel and the signal source (e.g., the smart gateway) is different, the strength of the wireless lan signal at the location of the smart home control panel is also different. When a wireless local area network signal of the intelligent home control panel at the position is weak or a channel is congested, problems such as control instruction transmission failure or transmission delay and the like may occur, so that control processing corresponding to the control instruction cannot be realized, and inconvenience is brought to a user.

The inventor provides an intelligent device control method, an intelligent device control device and an intelligent home control panel through long-term research, and can realize transmission of a control instruction through a cascade path between a main control panel corresponding to a signal source and the intelligent home control panel under the condition that a wireless local area network signal at the position of the intelligent home control panel is weak or a channel is congested, so that smooth control processing based on the control instruction can be ensured. This is described in detail below.

Referring to fig. 1, fig. 1 is a schematic diagram illustrating an architecture of an intelligent device control system 10 according to an embodiment of the present disclosure. The smart device control system 10 includes a plurality of smart home control panels, a plurality of signal sources, a network 300, and a terminal device 400, such as the smart home control panels 101, 102, 103, 104, 105, and 106 and the signal sources 201 and 202. It is understood that the smart home control panels 101, 102, 103, 104, 105, 106 and the signal sources 201, 202 in fig. 1 are only examples, and there may be more smart home control panels and more signal sources in the smart device control system 10.

The intelligent device control system 10 may correspond to a home network, the signal sources 201 and 202 in the intelligent device control system 10 may generally be intelligent gateways set in the home network, and the intelligent gateways may be understood as remote servers, have not only a data information summarizing function, but also a data analysis and processing capability, and implement unified management of the intelligent home devices by performing centralized analysis on the collected data. The intelligent gateway is not only a data summarizing module, but also a network module, and devices accessing the same intelligent gateway belong to a local area network, and it can be understood that the intelligent home control panels 101, 102, and 103 in fig. 1 all access to the signal source 201, that is, the intelligent home control panels 101, 102, and 103 belong to the same local area network, and the intelligent gateway is a bridge for data interaction between the devices in the local area network and an external network. The intelligent gateway may be a router, a three-layer switch, or an intelligent home control panel with a three-layer switching function, and the terminal device 400 may be a mobile phone, a tablet, a notebook computer, or the like, which is not limited in this embodiment of the present application.

In this embodiment, the smart home control panels 101, 102, and 103 may access the home network through the signal source 201, and similarly, the smart home control panels 104, 105, and 106 may access the home network through the signal source 202. The data transmitted by the terminal device 400 may be transmitted to the smart home control panels 101, 102, and 103 through the signal source 201 via the network 300, or may be transmitted to the smart home control panels 104, 105, and 106 through the signal source 202 via the network 300. Illustratively, the data interaction between the terminal device 400 and the smart gateway may be implemented based on Wi-Fi (wireless fidelity) signals, or may be implemented based on a public network, and similarly, the data interaction between the signal sources 201 and 202 and the smart home control panel may also be implemented based on a plurality of communication modes, such as Wi-Fi signals, ZigBee (ZigBee protocol), bluetooth communication, or the like. In this case, the above-mentioned wireless lan signal may be understood as a plurality of radio frequency signals such as Wi-Fi, ZigBee (ZigBee protocol), or bluetooth.

In addition, the smart home control panels 101, 102, and 103 may implement local cascading, where local cascading refers to a connection path between the smart home control panels that does not pass through the signal source 201, and through the connection path, data interaction may be directly performed between the smart home control panels without passing through the signal source. Illustratively, the local cascade may be implemented by a ZigBee (ZigBee protocol) or bluetooth communication manner, in which case, two smart home control panels in a cascade relationship may establish a communication connection through a ZigBee wireless module.

A user can send a control instruction to a signal source through the terminal device 400, and the signal source forwards the control instruction to the corresponding smart home control panels 101, 102, 103, 104, 105, and 106, so as to control the smart home devices.

Referring to fig. 2, fig. 2 is a flowchart illustrating a method for controlling an intelligent device according to an embodiment of the present disclosure, where the method may be applied to any one of the intelligent home control panels, such as 102, in the intelligent device control system 10. The steps involved in the method are explained below.

And step S110, acquiring the current communication state of at least one intelligent household control panel.

In this embodiment, the current communication state may include current signal strength of the smart home control panel, where the current signal strength may be understood as current wireless local area network signal strength of the smart home control panel, and taking the case that the wireless local area network signal is a Wi-Fi signal, the current signal strength may be, for example, a current RSSI (Received signal strength Indication) of the Wi-Fi signal, and the smart home control panels located in the same house may mutually obtain current wireless local area network signal strengths of each other. For example, as shown in fig. 2, for three smart home control panels 101, 102, and 103 accessing a signal source 201, the smart home control panel 101 may obtain the wireless local area network signal strength of the smart home control panels 102 and 103 and the wireless local area network signal strength of the panel 101, the smart home control panel 102 may obtain the wireless local area network signal strength of the smart home control panels 101 and 103 and the wireless local area network signal strength of the panel 102, and the smart home control panel 103 may obtain the wireless local area network signal strength of the smart home control panels 101 and 102 and the wireless local area network signal strength of the panel 103.

Step S120, comparing the current communication state of at least one intelligent household control panel, and determining that the intelligent household control panel with the best current signal intensity is a main control panel, wherein the main control panel is a first intelligent household control panel, and the rest intelligent household control panels are second intelligent household control panels.

The method comprises the steps of comparing current communication states of the acquired intelligent home control panels, namely comparing the current wireless local area network signal strength of the acquired intelligent home control panels, and determining the intelligent home control panel with the maximum current wireless local area network signal strength as a main control panel (namely a first intelligent home control panel).

Exemplarily, as shown in fig. 1, if the smart home control panel 102 is the one with the largest signal intensity of the current wireless local area network in fig. 1, the smart home control panel 102 is determined as a main control panel (a first smart home control panel), and the other smart home control panels 101 and 103 are both second smart home control panels.

Step S130, the first intelligent home control panel sends main control panel identification information to preset equipment, and the preset equipment determines the first intelligent home control panel as a target main control panel based on the received main control panel identification information.

In this embodiment, after receiving the identification information of the main control panel, the preset device and the second smart home panel cascade the corresponding first smart home control panel as a target main control panel according to the received identification information of the main control panel when only one signal source exists; or, the preset device is cascaded with the corresponding second smart home control device, and then the second smart home control device is cascaded with the corresponding first smart home control device as the target main control panel according to the main control panel identification information.

In another embodiment, when there are multiple signal sources, in addition to the main control panel corresponding to the signal source, a main control panel may be further provided as a main control center panel, and the main control center panel may serve as a signal relay center of each first smart home panel to play a role similar to the target main control panel described in S130. The target main control panel may be determined by the plurality of first smart home control panels from the determined first smart home control panels (i.e., main control panels). The target main control panel can be cascaded with the rest first intelligent household control panels.

Step S140, the second smart home control panel and the preset device establish a cascade path with the first smart home control panel.

In this embodiment, the preset device may establish cascade connection with the first smart home control panel when receiving the main control panel identification information sent by the first smart home control panel. In addition, after the first smart home control panel is determined, the second smart home control panel may establish a cascade path with the first smart home control panel.

In another embodiment, the preset device may first establish a cascade path with the second smart home control panel, and then the second smart home control device establishes a cascade path with the corresponding first smart home control device according to the main control panel identification information.

Optionally, the cascade path is a communication path established based on a short-range communication method. The short-range communication mode may be a short-range wireless communication mode such as bluetooth or ZigBee (ZigBee protocol).

Still taking the smart home control panel 102 as the one with the largest wireless local area network signal intensity in fig. 1 as an example, the second smart home control panels 101 and 103 and the preset device establish a cascade path with the first smart home control panel 102. Correspondingly, the second smart home control panels 101 and 103 and the preset device form local cascade connection with the first smart home control panel 102 in a short-distance communication mode, so that control instructions can be directly transmitted between the locally cascaded smart home control panels, and cascade control is realized.

In the embodiment of the present application, the determination manner of the target main control panel is different according to the different determined number of main control panels, and the number of main control panels may be related to the number of signal sources. For convenience of description, the main control panel is hereinafter referred to as a first smart home control panel. Alternatively, the number of the first smart home control panels (i.e., the main control panel) may be determined through the steps shown in fig. 3.

Step S310, detecting the signal intensity and number of the signal sources.

In practical application, because the area of the target house is large, if only one signal source exists in the target house, the wireless local area network may not completely cover the target house, and under this condition, a plurality of signal sources exist in the target house, so the number of signal sources needs to be detected before the current communication state of at least one smart home control panel is obtained, so as to judge the number of signal sources in the target house.

Step S320, when the number of the signal sources is 1, determining that the number of the first smart home control panels is 1.

In this embodiment of the application, if only one signal source is detected, for example, the signal source 201, a corresponding first smart home control panel needs to be determined for the signal source 201, and the number of the first smart home control panels is the same as that of the signal sources, that is, only one signal source is needed.

In this case, since there is only one first smart home control panel, that is, there is only one main control panel in the home, the main control panel can be directly used as a target main control device, that is, a main control center.

Step S330, when the number of the signal sources is larger than 1, determining that the number of the first smart home control panels is the same as the number of the signal sources.

It can be understood that if a plurality of signal sources are detected, a first smart home control panel may be determined for each signal source, in this case, the number of the first smart home control panels existing in the target house is the same as the number of the signal sources, for example, in the case that the target house includes the signal source 201 and the signal source 202, 2 first smart home control panels may be determined to exist in the target house, and the 2 first smart home control panels correspond to the signal source 201 and the signal source 202, respectively.

In an implementation manner of this embodiment, when the number of the signal sources is greater than 1, each of the main control panels may be determined through the steps shown in fig. 4.

Step S410, according to the difference of signal sources, signal source marking is carried out on the current communication state of at least one intelligent home control panel, the current communication state is compared according to the difference of the signal source marks in different times, the intelligent home control panel with the best current communication state and the same signal source marks is determined to be the main control panel, the main control panel is the first intelligent home control panel, and other intelligent home control panels with the same signal source marks are the second intelligent home control panel.

Still taking the example that the signal source 201 and the signal source 202 exist in the target house, specifically, the signal source 201 and the signal source 202 have different signal source marks, and a first smart home control panel corresponding to each signal source needs to be separately determined. For example, if the smart home control panel accessed to the signal source 201 includes the smart home control panels 101, 102, and 103, the signal source 201 may be marked on the smart home control panels 101, 102, and 103, in this case, it may be determined through comparison that the smart home control panels 101, 102, and 103 carry the same signal source mark, then it may be determined from the smart home control panels 101, 102, and 103 that the smart home control panel 102 in the best current communication state is the smart home control panel 102, and then the smart home control panel 102 may be determined as a first smart home control panel corresponding to the signal source 201, and the smart home control panels 101 and 103 are second smart home control panels corresponding to the signal source 201.

Further, the smart home control panels accessed to the signal source 202 include 104, 105, and 106, and then the mark of the signal source 202 may be added to the smart home control panels 104, 105, and 106, and then it may be determined through comparison that the smart home control panels 104, 105, and 106 carry the same signal source mark, so that one of the smart home control panels 104, 105, and 106 with the best current communication state is determined, for example, the smart home control panel 104, and then the smart home control panel 104 may be determined as a first smart home control panel corresponding to the signal source 202, and correspondingly, the smart home control panels 105 and 106 are second smart home control panels corresponding to the signal source 202.

Step S420, the first smart home control panel sends the main control panel identification information to the preset device, so that the preset device determines the first smart home control panel as the main control panel based on the received main control panel identification information.

Still taking the signal source 201 and the signal source 202 existing in the target room as an example, the smart home control panel 102 is a first smart home control panel corresponding to the signal source 201, and the smart home control panel 104 is a first smart home control panel corresponding to the signal source 202. After the smart home control panel 102 is determined as a main control panel, the device identifier and a main control identifier of the panel may be combined into main control panel identifier information corresponding to the panel. The master id may be any identifier capable of representing a master, and may be, for example, "master", "control", or the like. In this way, the preset device may determine the smart home control panel 102 as the main control panel according to the main control panel identification information sent by the smart home control panel 102.

Similarly, the smart home control panel 104 may send the main control panel identification information including the device identifier of the panel and a main control identifier to the preset device. The preset device may be pre-specified based on a specific communication protocol, for example, any one of the smart home control panels 101, 102, 103, 104, 105, and 106, or other devices in a house, such as the signal source 201. Thus, the preset device may determine the smart home control panel 104 as a main control panel.

Step S430, the second smart home control panel and the preset device carrying the same signal source mark both establish a cascade path with the first smart home control panel.

In this embodiment, for any signal source, the second smart home control panel carrying the signal source mark may establish a cascade path with the first smart home control panel carrying the signal source mark. In addition, the preset device can establish a cascade path with all the first smart home control panels.

Illustratively, the present embodiment includes two different signal sources, and correspondingly, the second smart home control panels 101 and 103 carrying the mark of the signal source 201 and the preset device establish a cascade path with the corresponding first smart home control panel 102; the second smart home control panels 105 and 106 carrying the signal source 202 mark and the preset device establish a cascade path with the corresponding first smart home control panel 104.

Taking a short-distance communication mode ZigBee communication mode as an example, the second smart home control panels 101 and 103 carrying the signal source 201 mark and the preset device and the corresponding first smart home control panel 102 may be in communication connection through ZigBee to establish a local cascade path between the second smart home control panel carrying the same signal source 201 mark and the preset device and the first smart home control panel.

In this embodiment, each second smart home control panel corresponding to each signal source may be connected to the first smart home control panel in a hierarchical cascade manner. For example, the second smart home control panels corresponding to the signal source may be grouped according to the distance from the first smart home control panel corresponding to the signal source, for example, the distance from the first smart home control panel is smaller than or equal to a threshold value and is divided into a first group, and the distance from the first smart home control panel is greater than the threshold value and is divided into a second group, where the second smart home control panel in the first group is directly cascaded with the first smart home control panel, and the second smart home control panel in the second group may be cascaded with the second smart home control panel in the first group.

For another example, some second smart home control panels may be far from the signal source, which may cause the strength of short-distance communication signals (e.g., ZigBee signals) of the second smart home control panels far from the signal source to be weak, and for this case, the smart home control panels whose ZigBee signal strength is not lower than the preset threshold in the second smart home control panel may be grouped according to the strength of the ZigBee signals of the second smart home control panel, and the smart home control panels whose ZigBee signal strength is not lower than the preset threshold in the second smart home control panel are divided into a first group, and the smart home control panels lower than the preset threshold are divided into a second group. The second intelligent household control panel in the first group can be directly cascaded with the first intelligent household control panel, and the second intelligent household control panel in the second group can be cascaded with the second intelligent household control panel in the first group.

For another example, the second smart home control panels corresponding to each signal source may be randomly divided into a plurality of groups, and for the ith (i is greater than or equal to 1, and i is an integer) group, the number of the second smart home control panels included in the ith group may be 2ⁱAnd the second intelligent household control panels in the 1 st (i ═ 1) group are directly cascaded with the first intelligent household control panel, and every two second intelligent household control panels in the (i + 1) th group are respectively correspondingly cascaded with one second intelligent household control panel in the ith group.

Through the design, the second intelligent household control panel corresponding to the signal source and the first intelligent household control panel corresponding to the signal source can be cascaded in a grading mode.

It is determined through the flow shown in fig. 4 that the number of the main control panels is greater than 1, and in this case, the target main control panel as the total control center may be determined through the steps shown in fig. 5, that is, step S420 may include the steps shown in fig. 5.

Step S421, if the preset device receives the main control panel identification information sent by the plurality of first smart home control panels, respectively obtaining the current signal strength of the first smart home control panels corresponding to the preset device and the main control panel identification information according to the main control panel identification information, and comparing the current signal strength.

Step S422, according to the signal intensity comparison result, the first intelligent home control panel with the best signal intensity is used as a target main control panel.

In an implementation process, the preset device may receive the identification information of the main control panel sent by the plurality of first smart home control panels, and for each received identification information of the main control panel, may obtain a current signal strength of the first smart home control panel corresponding to the identification information of the main control panel (that is, the first smart home control panel sending the identification information of the main control panel). The smart home control panel indicated by the device identifier in the main control panel identifier information may be determined as the first smart home control panel corresponding to the main control panel identifier information under the condition that the main control panel identifier information includes the device identifier and the main control identifier.

After the first smart home control panel corresponding to each received main control panel identification information is determined, the determined current signal strength of each first smart home control panel can be obtained, the obtained current signal strengths are compared, a first smart home control panel with the maximum current signal strength is determined, and the first smart home control panel with the maximum current signal strength is determined as a target main control panel, namely a main control center of a family.

In this embodiment, the target main control panel may be cascaded with other first smart home control panels.

Still taking the signal source 201 and the signal source 202 existing in the target room as an example, the smart home control panel 102 is a first smart home control panel corresponding to the signal source 201, and the smart home control panel 104 is a first smart home control panel corresponding to the signal source 202. The preset device receives the main control panel identification information sent by the first smart home control panel 102 corresponding to the signal source 201 and the main control panel identification information sent by the first smart home control panel 104 corresponding to the signal source 202. The preset device respectively obtains the current wireless local area network signal strength of the first smart home control panel 102 and the current wireless local area network signal strength of the first smart home control panel 104 according to the received identification information of the two main control panels, and compares the current wireless local area network signal strengths of the two main control panels.

The current wireless local area network signal strength of the first smart home control panel 102 and the first smart home control panel 104 is the largest and is taken as a target main control panel, for example, the current wireless local area network signal strength of the first smart home control panel 102 is the largest, and then the first smart home control panel 102 may be taken as the target main control panel.

In some scenarios, a situation that a communication state of the smart home control panel changes may occur, and based on this, the smart device control method provided in the embodiment of the present application may further include the steps shown in fig. 6:

step S610, continuously detecting the communication state of the first intelligent household control panel and the second intelligent household control panel.

Step S620, when the communication state of the second intelligent household control panel is better than that of the first intelligent household control panel, the first intelligent household control panel is determined again.

In practical application, the communication state of the smart home control panel may change due to hardware problems of the smart home control panel or due to some external damages and other problems, that is, the current wireless local area network signal strength of the smart home control panel changes. In addition, the situation that the user changes the position of the intelligent gateway, which causes the communication state of the intelligent home control panel to change, may also occur. Correspondingly, in order to continuously ensure the stability of the transmission control instruction, in this embodiment of the present application, the determined current wireless local area network signal strengths of the first smart home control panel and the second smart home control panel may be continuously detected, and if it is detected that the current wireless local area network signal strength of the second smart home control panel is greater than the current wireless local area network signal strength of the first smart home control panel, the first smart home control panel may be re-determined according to the smart device control method provided in this embodiment of the present application (corresponding steps shown in fig. 2 to fig. 5), and a new cascade path may be established.

Correspondingly, the embodiment of the present application may further include the steps shown in fig. 7.

Step S710, continuously detecting the number of the signal sources and the signal strength.

Step S720, when the number of the signal sources and the signal intensity change, the first smart home control panel and the second smart home control panel are determined again.

In this embodiment, the change of the signal strength of the wireless lan of the smart home control panel is also affected by the corresponding signal source, and therefore, the number of signal sources and the signal strength in the target house need to be continuously detected. In practical applications, a signal source may be damaged or a signal source terminal may be caused by poor contact, and when the number of signal sources or the signal intensity of the wireless local area network is detected to change, the first smart home control panel and the second smart home control panel may be determined again according to corresponding steps shown in fig. 2 to fig. 5, and a new cascade path is established.

The intelligent device control method provided by the application can stably transmit the control instruction sent by the terminal device 400, and effectively avoids the problems of control instruction transmission failure or transmission delay and the like caused by weak wireless local area network signals.

Illustratively, the target main control panel receives the control instruction sent by the terminal device 400, and the control instruction can be directly sent to the corresponding destination panel in a local cascade mode, the signal strength of the wireless local area network has no influence on the transmission of the control instruction between the intelligent home control panels which have formed the local cascade, and the control instruction is transmitted in a short-distance communication mode, so that the problems of control instruction transmission failure or transmission delay and the like caused by the weak current wireless local area network signal strength or channel congestion of the intelligent home control panels can be effectively avoided.

Optionally, for a first smart home control panel determined as a target main control panel, when receiving the second control instruction and determining a corresponding destination panel based on a destination address of the second control instruction, the cascade path between the panel and the destination panel may be determined as follows:

the present panel is determined as the start path node.

And aiming at the current path node on the cascade path, determining an intelligent household control panel which is closest to the current path node and is different from the current path node from a plurality of second intelligent household control panels cascaded with the panel as the next path node of the current path node.

And when the determined next path node is the destination panel, determining a path formed by sequentially connecting the determined path nodes according to a determined sequence as the cascade path.

Specifically, the first smart home control panel serving as the target main control panel may sequentially determine each path node on the cascade path. The newly determined path node may be understood as the current path node described above, and the path node further determined based on the newly determined path node may be understood as the next path node described above. Through the method, the cascade path between the first intelligent household control panel serving as the target main control panel and the target panel of the second control instruction can be dynamically determined, so that the second control instruction is sent along the cascade path.

Referring to fig. 8, a block diagram of a smart device control apparatus 800 according to an embodiment of the present disclosure is shown, which can be applied to the smart home control panel 101 shown in fig. 1. The apparatus 800 may include: signal acquisition module 810, comparison module 820, determination module 830, and cascade module 840.

The signal obtaining module 810 is configured to obtain a current communication state of at least one smart home control panel.

The comparison module 820 is configured to compare the current communication state of at least one smart home control panel, and determine that the smart home control panel with the best current signal strength is a main control panel, where the main control panel is a first smart home control panel, and the rest smart home control panels are second smart home control panels.

The determining module 830 is configured to send, by the first smart home control panel, main control panel identification information to a preset device, so that the preset device determines the first smart home control panel as a target main control panel based on the received main control panel identification information.

The cascade module 840 is configured to establish a cascade path between the second smart home control panel and the first smart home control panel, where the second smart home control panel and the preset device are both connected to the first smart home control panel.

Optionally, the signal obtaining module 810 may be further configured to detect signal strength and number of signal sources, determine that the number of the first smart home control panels is 1 when the number of the signal sources is 1, and determine that the number of the first smart home control panels is the same as the number of the signal sources when the number of the signal sources is greater than 1.

Optionally, the signal obtaining module 810 may be further configured to continuously detect a communication state of the first smart home control panel and the second smart home control panel.

Optionally, the signal acquisition module 810 may also be used to continuously detect the number of signal sources and the signal strength.

Optionally, the comparing module 820 may be further configured to, if the preset device receives master control panel identification information sent by a plurality of first smart home control panels, respectively obtain current signal strengths of the first smart home control panels corresponding to the preset device and the master control panel information according to the master control panel information, compare the current signal strengths, and use the first smart home control panel with the best signal strength as a target master control panel according to a signal strength comparison result.

Optionally, the determining module 830 may be further configured to mark, according to a difference of signal sources, a signal source of a current communication state of at least one of the smart home control panels, compare the current communication state according to different signal source marks, determine that the smart home control panel with a best current communication state carrying the same signal source mark is the main control panel, the main control panel is the first smart home control panel, and other smart home control panels carrying the same signal source mark are the second smart home control panel, where the first smart home control panel sends main control panel identification information to the preset device, so that the preset device determines the first smart home control panel as the main control panel based on the received main control panel identification information.

Referring to fig. 9, a block diagram of a structure of an intelligent home control panel 900 according to an embodiment of the present disclosure is shown, where the intelligent device control method according to the embodiment of the present disclosure may be executed by the intelligent home control panel 900.

The smart home control panel 900 in the embodiment of the present application may include one or more of the following components: a processor 901, storage 902, and one or more applications, wherein the one or more applications may be stored in the storage 902 and configured to be executed by the one or more processors 901, the one or more programs configured to perform a method as described in the aforementioned method embodiments.

Processor 901 may include one or more processing cores. The processor 901 connects various parts within the entire smart home control panel 900 using various interfaces and lines, and performs various functions of the smart home control panel 900 and processes data by executing or executing instructions, programs, code sets, or instruction sets stored in the memory 902 and calling data stored in the memory 902. Alternatively, the processor 901 may be implemented in at least one hardware form of Digital Signal Processing (DSP), Field-Programmable Gate Array (FPGA), and Programmable Logic Array (PLA). The processor 901 may integrate one or a combination of a Central Processing Unit (CPU), a Graphics Processing Unit (GPU), a modem, and the like. Wherein, the CPU mainly processes an operating system, a user interface, an application program and the like; the GPU is used for rendering and drawing display content; the modem is used to handle wireless communications. It is understood that the modem may not be integrated into the processor 901, but may be implemented by a communication chip.

The Memory 902 may include a Random Access Memory (RAM) or a Read-Only Memory (Read-Only Memory). The memory 902 may be used to store instructions, programs, code, sets of codes, or sets of instructions. The memory 902 may include a stored program area and a stored data area, wherein the stored program area may store instructions for implementing an operating system, instructions for implementing at least one function (such as a touch function, a sound playing function, an image playing function, etc.), instructions for implementing various method embodiments described below, and the like. The storage data area may also store data (such as the various corresponding relationships described above) created by the smart home control panel 900 during use, and the like.

It can be clearly understood by those skilled in the art that, for convenience and brevity of description, the specific working processes of the above-described apparatuses and modules may refer to the corresponding processes in the foregoing method embodiments, and are not described herein again.

In the several embodiments provided in the present application, the coupling or direct coupling or communication connection between the modules shown or discussed may be through some interfaces, and the indirect coupling or communication connection between the devices or modules may be in an electrical, mechanical or other form.

In addition, functional modules in the embodiments of the present application may be integrated into one processing module, or each of the modules may exist alone physically, or two or more modules are integrated into one module. The integrated module can be realized in a hardware mode, and can also be realized in a software functional module mode.

Referring to fig. 10, a block diagram of a computer-readable storage medium according to an embodiment of the present application is shown. The computer-readable medium 1000 has stored therein program code that can be called by a processor to execute the method described in the above-described method embodiments.

The computer-readable storage medium 1000 may be an electronic memory such as a flash memory, an EEPROM (electrically erasable programmable read only memory), an EPROM, a hard disk, or a ROM. Alternatively, the computer-readable storage medium 1000 includes a non-transitory computer-readable storage medium. The computer readable storage medium 1000 has storage space for program code 1010 for performing any of the method steps of the method described above. The program code can be read from or written to one or more computer program products. The program code 1010 may be compressed, for example, in a suitable form.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solutions of the present application, and not to limit the same; although the present application 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 solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not necessarily depart from the spirit and scope of the corresponding technical solutions in the embodiments of the present application.

Claims (10)

1. An intelligent device control method, characterized in that the method comprises:

acquiring the current communication state of at least one intelligent household control panel;

comparing the current communication state of at least one intelligent household control panel, and determining that the intelligent household control panel with the best current signal intensity is a main control panel, wherein the main control panel is a first intelligent household control panel, and the rest intelligent household control panels are second intelligent household control panels;

the first intelligent home control panel sends main control panel identification information to the preset equipment, so that the preset equipment determines the first intelligent home control panel as a target main control panel based on the received main control panel identification information;

the second intelligent household control panel and the preset equipment establish a cascade path with the first intelligent household control panel.

2. The method according to claim 1, wherein before obtaining the current communication status of the at least one smart home control panel, the method further comprises:

detecting the signal intensity and the number of signal sources;

when the number of the signal sources is 1, determining that the number of the first intelligent household control panels is 1;

when the number of the signal sources is larger than 1, determining that the number of the first smart home control panels is the same as the number of the signal sources.

3. The method according to claim 2, wherein after determining that the number of the first smart home control panels is the same as the number of the signal sources when the number of the signal sources is greater than 1, the method further comprises:

according to the difference of signal sources, signal source marking is carried out on the current communication state of at least one intelligent home control panel, the current communication state is compared according to different signal source marks in different times, the intelligent home control panel with the best current communication state and the same signal source mark is determined to be the main control panel, the main control panel is the first intelligent home control panel, and other intelligent home control panels with the same signal source mark are the second intelligent home control panel;

the first intelligent home control panel sends main control panel identification information to the preset equipment, so that the preset equipment determines the first intelligent home control panel as a main control panel based on the received main control panel identification information;

the second intelligent household control panel and the preset equipment carrying the same signal source mark establish a cascade path with the first intelligent household control panel.

4. The method according to claim 3, wherein the first smart home control panel sending the main control panel identification information to the preset device, so that the preset device determines the first smart home control panel as the main control panel based on the received main control panel identification information, comprising:

if the preset equipment receives main control panel identification information sent by a plurality of first intelligent home control panels, respectively acquiring the current signal intensity of the first intelligent home control panels corresponding to the preset equipment and the main control panel identification information according to the main control panel identification information, and comparing the current signal intensity;

and according to the signal intensity comparison result, taking the first intelligent home control panel with the best signal intensity as a target main control panel.

5. The method according to any one of claims 1-4, further comprising:

continuously detecting the communication state of the first intelligent household control panel and the second intelligent household control panel;

and when the communication state of the second intelligent household control panel is superior to that of the first intelligent household control panel, re-determining the first intelligent household control panel.

6. The method according to any one of claims 2-4, further comprising:

continuously detecting the number and the signal intensity of the signal sources;

and when the number of the signal sources and the signal intensity are changed, re-determining the first intelligent household control panel and the second intelligent household control panel.

7. The method according to any one of claims 1-3, further comprising:

the cascade path is a communication path established based on a short-distance communication mode.

8. An intelligent device control apparatus, the apparatus comprising:

the signal acquisition module is used for acquiring the current communication state of at least one intelligent household control panel;

the comparison module is used for comparing the current communication state of at least one intelligent household control panel, and determining that the intelligent household control panel with the best current signal intensity is a main control panel, wherein the main control panel is a first intelligent household control panel, and the rest intelligent household control panels are second intelligent household control panels;

the determining module is used for sending the main control panel identification information to the preset equipment by the first intelligent household control panel, so that the preset equipment determines the first intelligent household control panel as a target main control panel based on the received main control panel identification information;

and the cascade module is used for establishing a cascade path between the second intelligent household control panel and the first intelligent household control panel and between the preset equipment and the first intelligent household control panel.

9. The utility model provides an intelligence house control panel which characterized in that includes:

one or more processors;

a memory;

one or more programs, wherein the one or more programs are stored in the memory and configured to be executed by the one or more processors, the one or more programs configured to perform the method of any of claims 1-7.

10. A computer-readable storage medium, characterized in that a program code is stored in the computer-readable storage medium, which program code can be called by a processor to perform the method according to any of claims 1-7.

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