CN111541750A - Control method and device of intelligent lamp and computer equipment - Google Patents

Abstract

The application provides a control method and device of an intelligent lamp, computer equipment and a computer readable storage medium. Follow-up intelligent lamp can receive the control signal that mobile terminal sent through the wifi channel, and/or receive the control signal that the remote controller sent through the private channel, carries out corresponding control action, wherein, the private channel corresponds with the private agreement, and the wifi channel corresponds with the wifi agreement, and the private agreement is compatible with the wifi agreement, and the private agreement coexists in the wifi module with the wifi agreement. Therefore, the control panel of intelligent lamp need not integrate wifi module and bluetooth module/infrared receiving device simultaneously, effectively reduces the manufacturing cost of control panel.

Description

Control method and device of intelligent lamp and computer equipment

Technical Field

The application relates to the technical field of intelligent home, in particular to a control method and device of an intelligent lamp and computer equipment.

Background

The existing intelligent lamp can be connected with the Internet through a wifi signal, and can be controlled by a mobile phone terminal through the wifi signal; or may be one-to-one controlled by a remote controller through a bluetooth protocol or an infrared protocol. Therefore, under the coexistence circumstances of multiple control mode, the control panel in the intelligent lamp needs integrated wifi module and bluetooth module/infrared receiving device, and manufacturing cost is higher.

Disclosure of Invention

The application mainly aims to provide a control method and device of an intelligent lamp and computer equipment, and aims to solve the defect that an existing intelligent lamp control module is high in production cost.

In order to achieve the above object, the present application provides a control method of an intelligent lamp, including:

acquiring and storing control terminal information and router information through a private protocol;

establishing connection with a router corresponding to the router information;

receiving a control signal through a wifi protocol of the router and/or the private protocol, wherein the private protocol is compatible with the wifi protocol;

and executing corresponding control action according to the control signal.

Further, the step of obtaining and storing the control end information and the router information through the private protocol includes:

entering a distribution network mode according to a first preset rule;

acquiring a first private protocol message through the private protocol;

analyzing the first private protocol message to obtain the control end information and the router information;

and storing the control end information and the router information in a memory.

Further, the step of entering the distribution network mode according to the first preset rule includes:

judging whether the first switching times of the intelligent lamp in a first preset time period reach first preset times or not;

and if the first switching times of the intelligent lamp reach first preset times, entering a distribution network mode, and setting the intelligent lamp to be in a first display state.

Furthermore, the quantity of intelligent lamp is a plurality of, control end information includes first remote controller information, control signal is the network deployment signal, the step of carrying out corresponding control action according to control signal includes:

entering a networking mode according to a second preset rule;

acquiring a second private protocol message through the private protocol;

analyzing the second private protocol message to obtain second remote controller information;

judging whether the second remote controller information is consistent with the first remote controller information;

and if the second remote controller information is consistent with the first remote controller information, storing the second remote controller information in the memories of the intelligent lamps respectively.

Further, the step of entering the networking mode according to a second preset rule includes:

judging whether the second switching times of the intelligent lamp in a second preset time period reach second preset times or not;

and if the second switching times of the intelligent lamp reach second preset times, entering the networking mode and setting the intelligent lamp to be in a second display state.

Further, after the step of establishing a connection with the router corresponding to the router information, the method includes:

acquiring first characteristic information of a first mobile terminal currently connected with the router through the wifi protocol;

storing the first characteristic information in a memory.

Further, before the step of receiving the control signal via the wifi protocol of the router, the method includes:

monitoring whether a second mobile terminal which is connected with the router is currently available or not through the wifi protocol;

if a second mobile terminal which establishes connection with the router is monitored, second characteristic information of the second mobile terminal is obtained;

judging whether the second characteristic information is consistent with the first characteristic information;

and if the second characteristic information is consistent with the first characteristic information, marking the second mobile terminal as a legal control terminal.

The application also provides a controlling means of intelligence lamp, includes:

the first acquisition module is used for acquiring and storing control terminal information and router information through a private protocol;

the connection module is used for establishing connection with the router corresponding to the router information;

the receiving module is used for receiving a control signal through a wifi protocol of the router and/or the private protocol, wherein the first private protocol is compatible with the wifi protocol;

and the execution module is used for executing corresponding control actions according to the control signals.

Further, the first obtaining module includes:

the distribution network unit is used for entering a distribution network mode according to a first preset rule;

a first obtaining unit, configured to obtain a first private protocol packet through the private protocol;

a second parsing unit, configured to parse the first private protocol packet to obtain the control end information and the router information;

and the storage unit is used for storing the control end information and the router information in a memory.

Further, the network distribution unit includes:

the first judging subunit is used for judging whether the first switching frequency of the intelligent lamp in a first preset time period reaches a first preset frequency;

and the first setting subunit is used for entering the distribution network mode and setting the intelligent lamp to be in a first display state if the first switching times of the intelligent lamp reach a first preset time.

Further, the quantity of intelligence lamp is a plurality of, control end information includes first remote controller information, control signal is the network deployment signal, execution module includes:

the networking unit is used for entering a networking mode according to a second preset rule;

a second obtaining unit, configured to obtain a second private protocol packet through the private protocol;

the second analysis unit is used for analyzing the second private protocol message to obtain second remote controller information;

a judging unit, configured to judge whether the second remote controller information is consistent with the first remote controller information;

and the binding unit is used for respectively storing the second remote controller information in the memories of the intelligent lamps if the second remote controller information is consistent with the first remote controller information.

Further, the networking unit includes:

the second judging subunit is used for judging whether the second switching frequency of the intelligent lamp in a second preset time period reaches a second preset frequency;

and the second setting subunit is used for entering the networking mode and setting the intelligent lamp to be in a second display state if the second switching frequency of the intelligent lamp reaches a second preset frequency.

Further, the control device further includes:

the second acquisition module is used for acquiring first characteristic information of a first mobile terminal which is currently connected with the router through the wifi protocol;

and the storage module is used for storing the first characteristic information in a memory.

Further, the control device further includes:

the monitoring module is used for monitoring whether a second mobile terminal which is connected with the router is currently available or not through the wifi protocol;

a third obtaining module, configured to obtain second feature information of a second mobile terminal if it is monitored that the second mobile terminal currently establishes connection with the router;

the judging module is used for judging whether the second characteristic information is consistent with the first characteristic information;

and the marking module is used for marking the second mobile terminal as a legal control terminal if the second characteristic information is consistent with the first characteristic information.

The present application further provides a computer device comprising a memory and a processor, wherein the memory stores a computer program, and the processor implements the steps of any one of the above methods when executing the computer program.

The present application also provides a computer-readable storage medium having stored thereon a computer program which, when executed by a processor, carries out the steps of the method of any of the above.

According to the control method and device for the intelligent lamp and the computer equipment, the intelligent lamp obtains and stores the control end information and the router information through a private protocol, and establishes connection with the router corresponding to the router information. Follow-up intelligent lamp can receive the control signal that mobile terminal sent through the wifi channel, and/or receive the control signal that the remote controller sent through the private channel, carries out corresponding control action, wherein, the private channel corresponds with the private agreement, and the wifi channel corresponds with the wifi agreement, and the private agreement is compatible with the wifi agreement, and the private agreement coexists in the wifi module with the wifi agreement. Therefore, the control panel of intelligent lamp need not integrate wifi module and bluetooth module/infrared receiving device simultaneously, effectively reduces the manufacturing cost of control panel.

Drawings

FIG. 1 is a schematic diagram illustrating steps of a method for controlling an intelligent lamp according to an embodiment of the present application;

fig. 2 is a block diagram of an overall structure of a control device of an intelligent lamp according to an embodiment of the present application;

fig. 3 is a block diagram schematically illustrating a structure of a computer device according to an embodiment of the present application.

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

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

Referring to fig. 1, an embodiment of the present application provides a control method of an intelligent lamp, including:

s1, obtaining and storing control end information and router information through a private protocol;

s2, establishing connection with the router corresponding to the router information;

s3, receiving a control signal through a wifi protocol of the router and/or the private protocol, wherein the private protocol is compatible with the wifi protocol;

and S4, executing corresponding control action according to the control signal.

In this embodiment, the integrated wifi module that has in the control panel of intelligence lamp, the control end of intelligence lamp include remote controller and mobile terminal. The remote controller is connected with the router through a wifi protocol and is connected with the intelligent lamp through a private protocol, wherein the private protocol is an SSV-NOW private protocol, the SSV-NOW private protocol is compatible with the wifi protocol and is a customizable private protocol compatible with an IEEE 802.11 protocol, a specific Broadcast packet is sent, the specific Broadcast packet received by the equipment is filtered to respond, and Broadcast/Multicast Frame, Management Frame transmission and Data Frame transmission of different Data rates are supported. Before the remote controller is used, the remote controller is required to be distributed with a network, so that the remote controller can acquire router information and mobile terminal information, and subsequent binding of the intelligent lamp with the router and the mobile terminal is facilitated. Specifically, a user connects a mobile terminal with a router, if the mobile terminal can be successfully connected with the router, it is indicated that router information input in advance in the mobile terminal is matched with the current router, and the user enters a distribution network mode by clicking a corresponding APP in the mobile terminal. And, the user presses the distribution network key of the remote controller for a long time, and controls the remote controller to enter an AP (Wireless Access Point) mode, so as to generate an AP hotspot. And for the mobile terminal which has accessed the AP hotspot, monitoring the message sent by the mobile terminal. The mobile terminal sends out a message with information related to the router, such as SSID, password, APP user name, server domain name, port number and the like. After receiving the message sent by the mobile terminal, the remote controller analyzes the message to obtain information such as SSID, password, server domain name, port number and the like of the router and information such as APP user name of the mobile terminal, and stores the router information and the mobile terminal information in a memory of the remote controller, such as flash, for subsequent calling. After the mobile terminal completes the network distribution with the remote controller, the intelligent lamp needs to acquire router information through a first private channel between the intelligent lamp and the remote controller, and completes the network distribution with the router, so that the intelligent lamp is connected to a server corresponding to an APP on the mobile terminal, wherein the first private channel corresponds to an SSV-NOW private protocol.

Specifically, a user selects a networking instruction on the remote controller, the intelligent lamp automatically enters a network distribution mode after receiving the network distribution instruction sent by the remote controller, and the intelligent lamp starts to monitor a first private protocol message broadcasted by the remote controller through a first private channel. The intelligent lamp analyzes the first private protocol message to obtain control end information, wherein the control end information comprises first remote controller information, such as remote controller ID and MAC address, and mobile terminal information, such as APP user name; and router information such as SSID, password, server domain name, port number, etc. of the router. The intelligent lamp stores the control end information and the router information in a memory of the intelligent lamp, and the networking of the intelligent lamp and the router and the binding of the control end are completed. The intelligent lamp logs in the router through the router information, completes networking with the router, establishes a wifi channel between the two, and completes equipment binding with a server corresponding to an APP on the mobile terminal, wherein the wifi channel corresponds to a wifi protocol. After the intelligent lamp is connected with the router, the first private channel can be correspondingly changed according to the wifi channel and is switched to the second private channel, and the second private channel also corresponds to the SSV-NOW private protocol. For example, before the intelligent lamp is connected with the router, the first private channel between the intelligent lamp and the remote controller is 7 channels, and the channel of the router is 1-channel operation. When the router is connected, the working channel of the router becomes 1 channel, and the intelligent lamp must synchronize the SSV-NOW channel in order to continue receiving the SSV-NOW control packet, so that the 7 channel is switched to 1 channel, namely the second private channel. Because the intelligent lamp is connected with the remote controller and the router, the intelligent lamp can receive a control signal sent by a user through the APP on the mobile terminal through a wifi protocol of the router; and/or receive control signals sent by a user through a remote control via a proprietary protocol. After the intelligent lamp receives the control signal, the validity of the control signal needs to be verified. Specifically, if the control signal is received through a wifi protocol, the intelligent lamp needs to compare the mobile terminal information and the router information carried by the control signal with the mobile terminal information and the router information stored in the memory of the intelligent lamp one by one, and if the mobile terminal information and the router information carried by the control signal are consistent with the mobile terminal information and the router information stored in the memory of the intelligent lamp, the control signal of the wifi channel is judged to be legal. If the control signal is received through a private protocol, the remote controller information carried by the control signal needs to be compared with the remote controller information in the memory of the control signal. And if the remote controller information carried by the control signal is consistent with the remote controller information in the memory of the user, judging that the control signal of the second private channel is legal. After the control signal is judged to be legal, the intelligent lamp executes corresponding control actions according to the control signal, such as turning on and turning off the lamp, adjusting the brightness of the lamp and the like.

Further, the step of obtaining and storing the control end information and the router information through the private protocol includes:

s101, entering a distribution network mode according to a first preset rule;

s102, acquiring a first private protocol message through the private protocol;

s103, analyzing the first private protocol message to obtain the control end information and the router information;

and S104, storing the control end information and the router information in a memory.

In this embodiment, the wifi module in the intelligent lamp control panel supports the SSV-NOW private protocol, and corresponds to the remote controller. The user switches the lamps according to the first preset frequency until the switching times of the intelligent lamps reach the first preset times, the intelligent lamps set the display states of the intelligent lamps to be flashing states, and therefore the intelligent lamps are controlled to enter a distribution network mode. Then, the intelligent lamp receives a first private protocol message sent by the remote controller through a private protocol, and then performs corresponding analysis on the first private protocol message, so as to obtain control end information, such as an ID of the remote controller, an APP user name of the mobile terminal, and the like, and router information, such as an SSID, a password, a server domain name, and the like of the router. The intelligent lamp stores the control end information and the router information in a memory of the intelligent lamp, completes information binding with the control end, and then performs networking according to the router information.

Further, the step of entering the distribution network mode according to the first preset rule includes:

s1011, judging whether the first switching frequency of the intelligent lamp in a first preset time period reaches a first preset frequency;

and S1012, entering a distribution network mode if the first switching times of the intelligent lamp reach first preset times, and setting the intelligent lamp to be in a first display state.

In this embodiment, a user rapidly switches the intelligent lamp according to a first preset frequency, and during the switching process, the intelligent lamp monitors the first switching times of the intelligent lamp in real time, and whether the first switching times reach the first preset times within a first preset time period. After the intelligent lamp is continuously switched on and off for three times, namely the first switching frequency reaches a first preset frequency, the intelligent lamp integrally enters a distribution network mode. And, the intelligent lamp sets itself to be the first display state, for example sets the intelligent lamp to be the scintillation state to the user in time knows that the intelligent lamp has got into the distribution network mode, is waiting to receive the corresponding information that the remote controller sent through the private agreement.

Furthermore, the number of the intelligent lamps is a plurality, the control end information comprises first remote controller information, and the step of executing the corresponding control action according to the control signal comprises:

s401, entering a networking mode according to a second preset rule;

s402, acquiring a second private protocol message through the private protocol;

s403, analyzing the second private protocol message to obtain second remote controller information;

s404, judging whether the second remote controller information is consistent with the first remote controller information;

s405, if the second remote controller information is consistent with the first remote controller information, the second remote controller information is stored in the memories of the intelligent lamps respectively.

In this embodiment, the remote controller transmits the control instruction to the intelligent lamp through the SSV-NOW private protocol, and the SSV-NOW private protocol is compatible with the wifi protocol, so that one-to-many signal transmission can be realized. Therefore, the remote controller can simultaneously control a plurality of intelligent lamps through the SSV-NOW private protocol, and the convenience and the efficiency of control are effectively improved. Specifically, the number of the intelligent lamps may be several, and the control end information acquired by the intelligent lamps through the first private channel includes first remote controller information. And the user performs corresponding manual operation on the intelligent lamps needing networking according to a second preset rule, so that each intelligent lamp needing networking enters a networking mode, and the group instruction receiving function of each intelligent lamp is started. And each intelligent lamp receives a second private protocol message broadcasted by the remote controller through a second private channel corresponding to the private protocol, and then correspondingly analyzes the second private protocol message, so as to obtain second remote controller information in the message, such as the ID, the MAC address and the like of the remote controller. The intelligent lamp compares the second remote controller information with the first remote controller information stored in the memory of the intelligent lamp, and judges whether the second remote controller information is consistent with the first remote controller information. If the second remote controller information is consistent with the first remote controller information, the second remote controller information is judged to be legal, each intelligent lamp binds the second remote controller information in the storage period of the intelligent lamp, so that group operation between the remote controller and each intelligent lamp is completed, and a subsequent user can control a plurality of intelligent lamps through the remote controller.

Further, the step of entering the networking mode according to a second preset rule includes:

s4011, judging whether the second switching frequency of the intelligent lamp in a second preset time period reaches a second preset frequency;

s4012, if the second switching times of the intelligent lamp reach second preset times, the networking mode is entered, and the intelligent lamp is set to be in a second display state.

In this embodiment, each intelligent lamp that the user manual operation needs to be organized the net according to the second intelligence lamp of presetting frequency fast switch in proper order. In the switching process, the intelligent lamp monitors the second switching times of the intelligent lamp in real time, and whether the second switching times reach a second preset time within a second preset time period. The second preset time period may be the same as or different from the first preset time period; the first preset times and the second preset times are different, and specific numerical values are set by developers. After four times of continuous switching, namely the second switching times reaches the second preset times, the intelligent lamps all enter the networking mode and set the intelligent lamps to be in the second display state, for example, the intelligent lamps are displayed in the breathing state. The breathing state of the lamp is similar to the display state of the breathing lamp on the mobile phone, the intelligent lamp can be slowly turned on and then slowly turned off, and therefore the user is reminded that the current intelligent lamps enter the networking mode and wait for the subsequent messages sent by the remote controller through the second private channel.

Further, after the step of establishing a connection with the router corresponding to the router information, the method includes:

s5, acquiring first characteristic information of a first mobile terminal currently connected with the router through the wifi protocol;

and S6, storing the first characteristic information in a memory.

In this embodiment, after the connection between the intelligent lamp and the router is established, the first characteristic information of the first mobile terminal currently connected with the router can be monitored and obtained from the router through a wifi channel corresponding to a wifi protocol. When the first mobile terminal establishes connection with the router, first feature information of the first mobile terminal, such as a mobile phone ID, is recorded in the router. And the internal authority of the router is rewritten, and a corresponding interface is arranged, so that the intelligent lamp has enough authority, first characteristic information is obtained from the router through the corresponding interface, and then the first characteristic information is stored in a memory of the intelligent lamp and is used as reference information of a legal control end.

Further, before the step of receiving the control signal via the wifi protocol, the method includes:

s7, monitoring whether a second mobile terminal connected with the router exists currently or not through the wifi protocol;

s8, if a second mobile terminal establishing connection with the router is monitored, acquiring second characteristic information of the second mobile terminal;

s9, judging whether the second characteristic information is consistent with the first characteristic information;

and S10, if the second characteristic information is consistent with the first characteristic information, marking the second mobile terminal as a legal control terminal.

In this embodiment, after the connection between the smart lamp and the router is established, whether a second mobile terminal connected to the router is currently available is monitored in real time through a channel corresponding to a wifi protocol, for example, whether a mobile phone ID is currently recorded in the router is monitored. If the intelligent lamp monitors that the mobile phone ID is recorded in the router at present, the fact that a second mobile terminal connected with the router is located at present can be judged. And the intelligent lamp acquires second characteristic information of a second mobile terminal which is connected with the router at present through an interface which is preset in the router. Then, the intelligent lamp compares the second characteristic information with the first characteristic information, and judges whether the second characteristic information and the first characteristic information are consistent. If the second characteristic information is consistent with the first characteristic information, the second mobile terminal is proved to be legal before being checked, and therefore the second mobile terminal is directly marked as a legal control terminal. During the current connection period of the second mobile terminal and the router, the control instruction sent by the second mobile terminal can be directly executed without verifying the validity again, and the operation efficiency is effectively improved.

In the control method of the intelligent lamp provided by this embodiment, the intelligent lamp obtains and stores the control end information and the router information through the private protocol, and establishes connection with the router corresponding to the router information. Follow-up intelligent lamp can receive the control signal that mobile terminal sent through the wifi channel, and/or receive the control signal that the remote controller sent through the private channel, carries out corresponding control action, wherein, the private channel corresponds with the private agreement, and the wifi channel corresponds with the wifi agreement, and the private agreement is compatible with the wifi agreement, and the private agreement coexists in the wifi module with the wifi agreement. Therefore, the control panel of the intelligent lamp does not need to integrate the wifi module and the Bluetooth module/infrared receiving device at the same time, and the production cost is effectively reduced. And, the control end can realize simultaneous control, the simple operation to a plurality of intelligent lamps through wifi protocol and/or private agreement.

Referring to fig. 2, an embodiment of the present application further provides a control device for an intelligent lamp, including:

the first acquisition module 1 is used for acquiring and storing control end information and router information through a private protocol;

the connection module 2 is used for establishing connection with the router corresponding to the router information;

the receiving module 3 is configured to receive a control signal through a wifi protocol of the router and/or the private protocol, where the first private protocol is compatible with the wifi protocol;

and the execution module 4 is used for executing corresponding control actions according to the control signals.

In this embodiment, the integrated wifi module that has in the control panel of intelligence lamp, the control end of intelligence lamp include remote controller and mobile terminal. The remote controller is connected with the router through a wifi protocol and is connected with the intelligent lamp through a private protocol, wherein the private protocol is an SSV-NOW private protocol, the SSV-NOW private protocol is compatible with the wifi protocol and is a customizable private protocol compatible with an IEEE 802.11 protocol, a specific Broadcast packet is sent, the specific Broadcast packet received by the equipment is filtered to respond, and Broadcast/Multicast Frame, Management Frame transmission and Data Frame transmission of different Data rates are supported. Before the remote controller is used, the remote controller is required to be distributed with a network, so that the remote controller can acquire router information and mobile terminal information, and subsequent binding of the intelligent lamp with the router and the mobile terminal is facilitated. Specifically, a user connects a mobile terminal with a router, if the mobile terminal can be successfully connected with the router, it is indicated that router information input in advance in the mobile terminal is matched with the current router, and the user enters a distribution network mode by clicking a corresponding APP in the mobile terminal. And, the user presses the distribution network key of the remote controller for a long time, and controls the remote controller to enter an AP (Wireless Access Point) mode, so as to generate an AP hotspot. And for the mobile terminal which has accessed the AP hot spot, the remote controller listens to the message sent by the mobile terminal. The mobile terminal sends out a message with information related to the router, such as SSID, password, APP user name, server domain name, port number and the like. After receiving the message sent by the mobile terminal, the remote controller analyzes the message to obtain information such as SSID, password, server domain name, port number and the like of the router and information such as APP user name of the mobile terminal, and stores the router information and the mobile terminal information in a memory of the remote controller, such as flash, for subsequent calling. After the mobile terminal completes the network distribution with the remote controller, the intelligent lamp needs to acquire router information through a first private channel between the intelligent lamp and the remote controller, and completes the network distribution with the router, so that the intelligent lamp is connected to a server corresponding to an APP on the mobile terminal, wherein the first private channel corresponds to an SSV-NOW private protocol.

Specifically, a user selects a networking instruction on the remote controller, the intelligent lamp automatically enters a network distribution mode after receiving the network distribution instruction sent by the remote controller, and the intelligent lamp starts to monitor a first private protocol message broadcasted by the remote controller through a first private channel. The intelligent lamp analyzes the first private protocol message to obtain control end information, wherein the control end information comprises first remote controller information, such as remote controller ID and MAC address, and mobile terminal information, such as APP user name; and router information such as SSID, password, server domain name, port number, etc. of the router. The intelligent lamp stores the control end information and the router information in a memory of the intelligent lamp, and the networking of the intelligent lamp and the router and the binding of the control end are completed. The intelligent lamp logs in the router through the router information, completes networking with the router, establishes a wifi channel between the two, and completes equipment binding with a server corresponding to an APP on the mobile terminal, wherein the wifi channel corresponds to a wifi protocol. After the intelligent lamp is connected with the router, the first private channel can be correspondingly changed according to the wifi channel and is switched to the second private channel, and the second private channel also corresponds to the SSV-NOW private protocol. For example, before the intelligent lamp is connected with the router, the first private channel between the intelligent lamp and the remote controller is 7 channels, and the channel of the router is 1-channel operation. When the router is connected, the working channel of the router becomes 1 channel, and the intelligent lamp must synchronize the SSV-NOW channel in order to continue receiving the SSV-NOW control packet, so that the 7 channel is switched to 1 channel, namely the second private channel. Because the intelligent lamp is connected with the remote controller and the router, the intelligent lamp can receive a control signal sent by a user through the APP on the mobile terminal through a wifi protocol of the router; and/or receive control signals sent by a user through a remote control via a proprietary protocol. After the intelligent lamp receives the control signal, the validity of the control signal needs to be verified. Specifically, if the control signal is received through a wifi protocol, the intelligent lamp needs to compare the mobile terminal information and the router information carried by the control signal with the mobile terminal information and the router information stored in the memory of the intelligent lamp one by one, and if the mobile terminal information and the router information carried by the control signal are consistent with the mobile terminal information and the router information stored in the memory of the intelligent lamp, the control signal of the wifi channel is judged to be legal. If the control signal is received through a private protocol, the remote controller information carried by the control signal needs to be compared with the remote controller information in the memory of the control signal. And if the remote controller information carried by the control signal is consistent with the remote controller information in the memory of the user, judging that the control signal of the second private channel is legal. After the control signal is judged to be legal, the intelligent lamp executes corresponding control actions according to the control signal, such as turning on and turning off the lamp, adjusting the brightness of the lamp and the like.

Further, the first obtaining module 1 includes:

the distribution network unit is used for entering a distribution network mode according to a first preset rule;

a first obtaining unit, configured to obtain a first private protocol packet through the private protocol;

a second parsing unit, configured to parse the first private protocol packet to obtain the control end information and the router information;

and the storage unit is used for storing the control end information and the router information in a memory.

In this embodiment, the wifi module in the intelligent lamp control panel supports the SSV-NOW private protocol, and corresponds to the remote controller. The user switches the lamps according to the first preset frequency until the switching times of the intelligent lamps reach the first preset times, the intelligent lamps set the display states of the intelligent lamps to be flashing states, and therefore the intelligent lamps are controlled to enter a distribution network mode. Then, the intelligent lamp receives a first private protocol message sent by the remote controller through a private protocol, and then performs corresponding analysis on the first private protocol message, so as to obtain control end information, such as an ID of the remote controller, an APP user name of the mobile terminal, and the like, and router information, such as an SSID, a password, a server domain name, and the like of the router. The intelligent lamp stores the control end information and the router information in a memory of the intelligent lamp, completes information binding with the control end, and then performs networking according to the router information.

Further, the network distribution unit includes:

the first judging subunit is used for judging whether the first switching frequency of the intelligent lamp reaches a first preset frequency within a first preset time period;

and the first setting subunit is used for entering the distribution network mode and setting the intelligent lamp to be in a first display state if the first switching times of the intelligent lamp reach a first preset time.

In this embodiment, a user rapidly switches the intelligent lamp according to a first preset frequency, and during the switching process, the intelligent lamp monitors the first switching times of the intelligent lamp in real time, and whether the first switching times reach the first preset times within a first preset time period. After the intelligent lamp is continuously switched on and off for three times, namely the first switching frequency reaches a first preset frequency, the intelligent lamp integrally enters a distribution network mode. And, the intelligent lamp sets itself to be the first display state, for example sets the intelligent lamp to be the scintillation state to the user in time knows that the intelligent lamp has got into the distribution network mode, is waiting to receive the corresponding information that the remote controller sent through the private agreement.

Further, the quantity of intelligence lamp is a plurality of, control end information includes first remote controller information, control signal is the network deployment signal, execution module 4 includes:

the networking unit is used for entering a networking mode according to a second preset rule;

a second obtaining unit, configured to obtain a second private protocol packet through the private protocol;

the second analysis unit is used for analyzing the second private protocol message to obtain second remote controller information;

a judging unit, configured to judge whether the second remote controller information is consistent with the first remote controller information;

and the binding unit is used for respectively storing the second remote controller information in the memories of the intelligent lamps if the second remote controller information is consistent with the first remote controller information.

In this embodiment, the remote controller transmits the control instruction to the intelligent lamp through the SSV-NOW private protocol, and the SSV-NOW private protocol is compatible with the wifi protocol, so that one-to-many signal transmission can be realized. Therefore, the remote controller can simultaneously control a plurality of intelligent lamps through the SSV-NOW private protocol, and the convenience and the efficiency of control are effectively improved. Specifically, the number of the intelligent lamps is a plurality, and the control end information acquired by the intelligent lamps through the first private channel comprises first remote controller information. And the user performs corresponding manual operation on the intelligent lamps needing networking according to a second preset rule, so that each intelligent lamp needing networking enters a networking mode, and the group instruction receiving function of each intelligent lamp is started. And each intelligent lamp receives a second private protocol message broadcasted by the remote controller through a second private channel corresponding to the private protocol, and then correspondingly analyzes the second private protocol message, so as to obtain second remote controller information in the message, such as the ID, the MAC address and the like of the remote controller. The intelligent lamp compares the second remote controller information with the first remote controller information stored in the memory of the intelligent lamp, and judges whether the second remote controller information is consistent with the first remote controller information. If the second remote controller information is consistent with the first remote controller information, the second remote controller information is judged to be legal, each intelligent lamp binds the second remote controller information in the storage period of the intelligent lamp, so that group operation between the remote controller and each intelligent lamp is completed, and a subsequent user can control a plurality of intelligent lamps through the remote controller.

Further, the networking unit includes:

the second judging subunit is used for judging whether the second switching frequency of the intelligent lamp in a second preset time period reaches a second preset frequency;

and the second setting subunit is used for entering the networking mode and setting the intelligent lamp to be in a second display state if the second switching frequency of the intelligent lamp reaches a second preset frequency.

In this embodiment, each intelligent lamp that the user manual operation needs to be organized the net according to the second intelligence lamp of presetting frequency fast switch in proper order. In the switching process, the intelligent lamp monitors the second switching times of the intelligent lamp in real time, and whether the second switching times reach a second preset time within a second preset time period. Wherein, the second preset time period may be the same as or different from the first preset time period; the first preset times and the second preset times are different, and specific numerical values are set by developers. After the intelligent lamps are continuously switched on and off for four times, namely the second switching frequency reaches a second preset frequency, each intelligent lamp enters a networking mode and is set to be in a second display state, for example, the intelligent lamps are displayed in a breathing state. The breathing state of the lamp is similar to the display state of the breathing lamp on the mobile phone, the intelligent lamp can be slowly turned on and then slowly turned off, and therefore the user is reminded that the current intelligent lamps enter the networking mode and wait for the subsequent messages sent by the remote controller through the second private channel.

Further, the control device further includes:

the second obtaining module 5 is configured to obtain, through the wifi protocol, first feature information of a first mobile terminal currently connected to the router;

and the storage module 6 is used for storing the first characteristic information in a memory.

In this embodiment, after the connection between the intelligent lamp and the router is established, the first characteristic information of the first mobile terminal currently connected with the router can be monitored and obtained from the router through a wifi channel corresponding to a wifi protocol. When the first mobile terminal establishes connection with the router, first feature information of the first mobile terminal, such as a mobile phone ID, is recorded in the router. And the internal authority of the router is rewritten, and a corresponding interface is arranged, so that the intelligent lamp has enough authority, first characteristic information is obtained from the router through the corresponding interface, and then the first characteristic information is stored in a memory of the intelligent lamp and is used as reference information of a legal control end.

Further, the control device further includes:

the monitoring module 7 is used for monitoring whether a second mobile terminal which is connected with the router is currently available or not through the wifi protocol;

a third obtaining module 8, configured to obtain second feature information of a second mobile terminal if it is monitored that the second mobile terminal currently establishes connection with the router;

a judging module 9, configured to judge whether the second feature information is consistent with the first feature information;

and a marking module 10, configured to mark the second mobile terminal as a legal control terminal if the second feature information is consistent with the first feature information.

In this embodiment, after the connection between the smart lamp and the router is established, whether a second mobile terminal connected to the router is currently available is monitored in real time through a channel corresponding to a wifi protocol, for example, whether a mobile phone ID is currently recorded in the router is monitored. If the intelligent lamp monitors that the mobile phone ID is recorded in the router at present, the fact that a second mobile terminal connected with the router is located at present can be judged. And the intelligent lamp acquires second characteristic information of a second mobile terminal which is connected with the router at present through an interface which is preset in the router. Then, the intelligent lamp compares the second characteristic information with the first characteristic information, and judges whether the second characteristic information and the first characteristic information are consistent. If the second characteristic information is consistent with the first characteristic information, the second mobile terminal is proved to be legal before being checked, and therefore the second mobile terminal is directly marked as a legal control terminal. During the current connection period of the second mobile terminal and the router, the control instruction sent by the second mobile terminal can be directly executed without verifying the validity again, and the operation efficiency is effectively improved.

In the control device of an intelligent lamp provided by this embodiment, the intelligent lamp obtains and stores control end information and router information through a private protocol, and establishes connection with a router corresponding to the router information. Follow-up intelligent lamp can receive the control signal that mobile terminal sent through the wifi channel, and/or receive the control signal that the remote controller sent through the private channel, carries out corresponding control action, wherein, the private channel corresponds with the private agreement, and the wifi channel corresponds with the wifi agreement, and the private agreement is compatible with the wifi agreement, and the private agreement coexists in the wifi module with the wifi agreement. Therefore, the control panel of the intelligent lamp does not need to integrate the wifi module and the Bluetooth module/infrared receiving device at the same time, and the production cost is effectively reduced. And, the control end can realize simultaneous control, the simple operation to a plurality of intelligent lamps through wifi protocol and/or private agreement.

Referring to fig. 3, a computer device, which may be a server and whose internal structure may be as shown in fig. 3, is also provided in the embodiment of the present application. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the computer designed processor is used to provide computational and control capabilities. The memory of the computer device comprises a nonvolatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, a computer program, and a database. The internal memory provides an environment for the operation of an operating system and computer programs in the non-volatile storage medium. The database of the computer equipment is used for storing data such as control terminal information. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a method of controlling a smart lamp.

The processor executes the steps of the control method of the intelligent lamp:

s1, obtaining and storing control end information and router information through a private protocol;

s2, establishing connection with the router corresponding to the router information;

s3, receiving a control signal through a wifi protocol of the router and/or the private protocol, wherein the private protocol is compatible with the wifi protocol;

and S4, executing corresponding control action according to the control signal.

Further, the step of obtaining and storing the control end information and the router information through the private protocol includes:

s101, entering a distribution network mode according to a first preset rule;

s102, acquiring a first private protocol message through the private protocol;

s103, analyzing the first private protocol message to obtain the control end information and the router information;

and S104, storing the control end information and the router information in a memory.

Further, the step of entering the distribution network mode according to the first preset rule includes:

s1011, judging whether the first switching frequency of the intelligent lamp in a first preset time period reaches a first preset frequency;

and S1012, entering a distribution network mode if the first switching times of the intelligent lamp reach first preset times, and setting the intelligent lamp to be in a first display state.

Furthermore, the number of the intelligent lamps is a plurality, the control end information comprises first remote controller information, and the step of executing the corresponding control action according to the control signal comprises:

s401, entering a networking mode according to a second preset rule;

s402, acquiring a second private protocol message through the private protocol;

s403, analyzing the second private protocol message to obtain second remote controller information;

s404, judging whether the second remote controller information is consistent with the first remote controller information;

s405, if the second remote controller information is consistent with the first remote controller information, the second remote controller information is stored in the memories of the intelligent lamps respectively.

Further, the step of entering the networking mode according to a second preset rule includes:

s4011, judging whether the second switching frequency of the intelligent lamp in a second preset time period reaches a second preset frequency;

s4012, if the second switching frequency of the intelligent lamp reaches a second preset frequency, entering the networking mode, and setting the intelligent lamp to be in a second display state.

Further, after the step of establishing a connection with the router corresponding to the router information, the method includes:

s5, acquiring first characteristic information of a first mobile terminal currently connected with the router through the wifi protocol;

and S6, storing the first characteristic information in a memory.

Further, before the step of receiving the control signal via the wifi protocol, the method includes:

s7, monitoring whether a second mobile terminal connected with the router exists currently or not through the wifi protocol;

s8, if a second mobile terminal establishing connection with the router is monitored, acquiring second characteristic information of the second mobile terminal;

s9, judging whether the second characteristic information is consistent with the first characteristic information;

and S10, if the second characteristic information is consistent with the first characteristic information, marking the second mobile terminal as a legal control terminal.

An embodiment of the present application further provides a computer-readable storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the method for controlling an intelligent lamp is implemented, specifically:

s1, obtaining and storing control end information and router information through a private protocol;

s2, establishing connection with the router corresponding to the router information;

s3, receiving a control signal through a wifi protocol of the router and/or the private protocol, wherein the private protocol is compatible with the wifi protocol;

and S4, executing corresponding control action according to the control signal.

Further, the step of obtaining and storing the control end information and the router information through the private protocol includes:

s101, entering a distribution network mode according to a first preset rule;

s102, acquiring a first private protocol message through the private protocol;

s103, analyzing the first private protocol message to obtain the control end information and the router information;

and S104, storing the control end information and the router information in a memory.

Further, the step of entering the distribution network mode according to the first preset rule includes:

s1011, judging whether the first switching frequency of the intelligent lamp in a first preset time period reaches a first preset frequency;

and S1012, entering a distribution network mode if the first switching times of the intelligent lamp reach first preset times, and setting the intelligent lamp to be in a first display state.

Furthermore, the number of the intelligent lamps is a plurality, the control end information comprises first remote controller information, and the step of executing the corresponding control action according to the control signal comprises:

s401, entering a networking mode according to a second preset rule;

s402, acquiring a second private protocol message through the private protocol;

s403, analyzing the second private protocol message to obtain second remote controller information;

s404, judging whether the second remote controller information is consistent with the first remote controller information;

s405, if the second remote controller information is consistent with the first remote controller information, the second remote controller information is stored in the memories of the intelligent lamps respectively.

Further, the step of entering the networking mode according to a second preset rule includes:

s4011, judging whether the second switching frequency of the intelligent lamp in a second preset time period reaches a second preset frequency;

s4012, if the second switching frequency of the intelligent lamp reaches a second preset frequency, entering the networking mode, and setting the intelligent lamp to be in a second display state.

Further, after the step of establishing a connection with the router corresponding to the router information, the method includes:

s5, acquiring first characteristic information of a first mobile terminal currently connected with the router through the wifi protocol;

and S6, storing the first characteristic information in a memory.

Further, before the step of receiving the control signal via the wifi protocol, the method includes:

s7, monitoring whether a second mobile terminal connected with the router exists currently or not through the wifi protocol;

s8, if a second mobile terminal establishing connection with the router is monitored, acquiring second characteristic information of the second mobile terminal;

s9, judging whether the second characteristic information is consistent with the first characteristic information;

and S10, if the second characteristic information is consistent with the first characteristic information, marking the second mobile terminal as a legal control terminal.

It will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by hardware associated with instructions of a computer program, which may be stored on a non-volatile computer-readable storage medium, and when executed, may include processes of the above embodiments of the methods. Any reference to memory, storage, database, or other medium provided herein and used in the examples may include non-volatile and/or volatile memory. Non-volatile memory can include read-only memory (ROM), Programmable ROM (PROM), Electrically Programmable ROM (EPROM), Electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), double-rate SDRAM (SSRSDRAM), Enhanced SDRAM (ESDRAM), synchronous link (Synchlink) DRAM (SLDRAM), Rambus Direct RAM (RDRAM), direct bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM).

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other like elements in a process, apparatus, article, or method that includes the element.

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

Claims (10)

1. A control method of an intelligent lamp is characterized by comprising the following steps:

acquiring and storing control terminal information and router information through a private protocol;

establishing connection with a router corresponding to the router information;

receiving a control signal through a wifi protocol of the router and/or the private protocol, wherein the private protocol is compatible with the wifi protocol;

and executing corresponding control action according to the control signal.

2. The method for controlling intelligent lamps according to claim 1, wherein the step of obtaining and storing control end information and router information via a proprietary protocol comprises:

entering a distribution network mode according to a first preset rule;

acquiring a first private protocol message through the private protocol;

analyzing the first private protocol message to obtain the control end information and the router information;

and storing the control end information and the router information in a memory.

3. The method for controlling intelligent lamps according to claim 2, wherein the step of entering the distribution network mode according to the first preset rule comprises:

judging whether the first switching times of the intelligent lamp in a first preset time period reach first preset times or not;

and if the first switching times of the intelligent lamp reach first preset times, entering a distribution network mode, and setting the intelligent lamp to be in a first display state.

4. The method according to claim 1, wherein the number of the intelligent lamps is several, the control end information includes first remote controller information, the control signal is a networking signal, and the step of executing the corresponding control action according to the control signal includes:

entering a networking mode according to a second preset rule;

acquiring a second private protocol message through the private protocol;

analyzing the second private protocol message to obtain second remote controller information;

judging whether the second remote controller information is consistent with the first remote controller information;

and if the second remote controller information is consistent with the first remote controller information, storing the second remote controller information in the memories of the intelligent lamps respectively.

5. The method for controlling an intelligent lamp according to claim 4, wherein the step of entering the networking mode according to the second preset rule comprises:

judging whether the second switching times of the intelligent lamp in a second preset time period reach second preset times or not;

and if the second switching times of the intelligent lamp reach second preset times, entering the networking mode and setting the intelligent lamp to be in a second display state.

6. The method for controlling an intelligent lamp according to claim 1, wherein the step of establishing a connection with the router corresponding to the router information is followed by:

acquiring first characteristic information of a first mobile terminal currently connected with the router through the wifi protocol;

storing the first characteristic information in a memory.

7. The method of claim 6, wherein the step of receiving the control signal via the wifi protocol of the router is preceded by:

monitoring whether a second mobile terminal which is connected with the router is currently available or not through the wifi protocol;

if a second mobile terminal which establishes connection with the router is monitored, second characteristic information of the second mobile terminal is obtained;

judging whether the second characteristic information is consistent with the first characteristic information;

and if the second characteristic information is consistent with the first characteristic information, marking the second mobile terminal as a legal control terminal.

8. A control device of an intelligent lamp, comprising:

the acquisition module is used for acquiring and storing control terminal information and router information through a private protocol;

the connection module is used for establishing connection with the router corresponding to the router information;

the receiving module is used for receiving a control signal through a wifi protocol of the router and/or the private protocol, wherein the first private protocol is compatible with the wifi protocol;

and the execution module is used for executing corresponding control actions according to the control signals.

9. A computer device comprising a memory and a processor, the memory having stored therein a computer program, characterized in that the processor, when executing the computer program, implements the steps of the method according to any one of claims 1 to 7.

10. A computer-readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 7.

Images