CN111031496A - Switching device and lamp device pairing method and system based on SIG MESH network - Google Patents

Abstract

The invention relates to the technical field of MESH networks, and discloses a switching device and lamp device pairing method and system based on a SIG MESH network. Therefore, the binding process of the switch equipment and the lamp equipment can be simplified through the mode, and meanwhile, the production cost can be reduced.

Description

Switching device and lamp device pairing method and system based on SIG MESH network

Technical Field

The invention relates to the technical field of MESH networks, in particular to a switching device and lamp device pairing method and system based on a SIG MESH network.

Background

At present, BLE is also called bluetooth low energy, and is a personal area network technology designed and sold by the bluetooth alliance, and compared with the classic bluetooth, bluetooth low energy aims to significantly reduce power consumption and cost while maintaining the same communication range. Whereas the existing SIG MESH is a BLE-based flooding MESH solution. The SIG MESH well solves the problem that BLE can only be communicated one to one, establishes a many-to-many relationship between wireless devices, and the SIG MESH network can span a very large physical distance, contains a large number of devices, and is a key technology for application of the Internet of things.

However, most of the existing methods for pairing the switching devices and the lamp devices based on the SIG MESH network add a plurality of lamps through the MESH gateway, and then send the MESH addresses of the lamps to the server, and meanwhile, the server communicates with the mobile phone APP, and sends the addresses of the lamps to the mobile phone APP, and determines the lamps correspondingly controlled by the switch through the mobile phone APP, and after the operation is completed, the server sends corresponding paired information to the MESH gateway, and the MESH gateway sends the paired information to the corresponding switch. Therefore, the pairing mode is very complicated, a server needs to be additionally arranged, a mobile phone APP needs to be developed, and the cost is relatively high.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provides a switching device and lamp device pairing method and system based on a SIG MESH network, which can simplify the pairing mode and reduce the development cost.

The purpose of the invention is realized by the following technical scheme:

a switching device and lamp device pairing method based on a SIG MESH network is characterized in that a network address sending module is arranged in the lamp device, and the method comprises the following steps:

s101, receiving a switching equipment MESH network address sent by a MESH gateway;

s102, searching a plurality of data broadcast packets to be matched, which are sent by a plurality of nearby lamp equipment built-in network address sending modules and can be paired;

s103, analyzing and calculating each data broadcast packet to be matched respectively to generate a data broadcast packet capable of being matched;

s104, acquiring the MESH network address to be paired of the matchable data broadcast packet;

s105, binding the MESH network address to be paired with the MESH network address of the switch equipment;

and S106, sending a binding finishing instruction.

In one embodiment, the analyzing and calculating each data broadcast packet to be matched in the step to generate a matchable data broadcast packet specifically includes the following steps:

respectively acquiring the RSSI value of each data broadcast packet to be matched;

comparing the RSSI values of the data broadcast packets to be matched one by one respectively to generate an RSSI value data table;

and generating an RSSI maximum value according to the RSSI value data table, and binding the RSSI maximum value with the corresponding data broadcast packet to be matched to generate a matchable data broadcast packet.

In one embodiment, before the step of receiving the MESH network address of the switching device sent by the MESH gateway, the method further includes the following steps:

enter the pairing mode.

In one embodiment, in the step of searching for a plurality of data broadcast packets to be matched, which are sent by a plurality of nearby lamp device built-in network address sending modules and can be paired, the method further includes the following steps:

obtaining search time, comparing the search time with preset time, and if the search time is greater than the preset time, generating a sleep instruction.

In one embodiment, the preset time is 1 min.

A SIG MESH network based switching device and lamp device pairing system, comprising:

the receiving module is used for receiving the MESH network address of the switching equipment sent by the MESH gateway;

the scanning module is used for searching a plurality of data broadcast packets to be matched, which are sent by the network address sending modules arranged in the plurality of nearby lamp devices and can be paired;

the computing module is used for analyzing and computing each data broadcast packet to be matched to generate a matchable data broadcast packet;

the acquiring module is used for acquiring the MESH network address to be paired of the matchable data broadcast packet;

and the binding module is used for binding the MESH network address to be paired with the MESH network address of the switch equipment, and is also used for sending a binding finishing instruction.

In one embodiment, the obtaining module is further configured to obtain RSSI values of the data broadcast packets to be matched respectively.

In one embodiment, the data matching device further includes a comparison module, and the comparison module is configured to compare the RSSI values of the to-be-matched data broadcast packets one by one, and generate an RSSI value data table.

In one embodiment, the binding module is further configured to bind the RSSI maximum value with the data broadcast packet to be matched corresponding thereto, so as to generate a matchable data broadcast packet.

In one embodiment, the system further comprises a pairing module, and the pairing module is used for entering a pairing mode.

Compared with the prior art, the invention has the following advantages and beneficial effects:

the invention relates to a switching device and lamp device pairing method and system based on a SIG MESH network. Therefore, the binding process of the switch equipment and the lamp equipment can be simplified through the mode, and meanwhile, the production cost can be reduced.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

Fig. 1 is a flowchart of a method for pairing a switching device and a lamp device based on a SIG MESH network according to an embodiment of the present invention;

fig. 2 is a functional block diagram of a switching device and lamp device pairing system based on a SIG MESH network according to an embodiment of the present invention.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

In one embodiment, a method for pairing a switching device and a lamp device based on a SIG MESH network, where a network address transmission module is built in the lamp device, includes the following steps: receiving a switching equipment MESH network address sent by a MESH gateway; searching a plurality of data broadcast packets to be matched, which are sent by a plurality of network address sending modules arranged in the lamp equipment nearby and can be paired; analyzing and calculating each data broadcast packet to be matched respectively to generate a data broadcast packet capable of being matched; acquiring the MESH network address to be paired of the matchable data broadcast packet; binding the MESH network address to be paired with the MESH network address of the switch equipment; and sending an ending binding instruction. A SIG MESH network based switching device and lamp device pairing system, comprising: the system comprises a receiving module, a scanning module, a calculating module, an obtaining module and a binding module, wherein the receiving module is used for receiving the MESH network address of the switching equipment sent by the MESH gateway; the scanning module is used for searching a plurality of data broadcast packets to be matched which are sent by a plurality of nearby lamp equipment built-in network address sending modules and can be paired; the computing module is used for analyzing and computing each data broadcast packet to be matched to generate a data broadcast packet capable of being matched; the acquisition module is used for acquiring the MESH network address to be paired of the matchable data broadcast packet; the binding module is used for binding the MESH network address to be paired with the MESH network address of the switch equipment, and the binding module is also used for sending a binding ending instruction. Therefore, according to the method and the device, surrounding switch equipment and lamp equipment are searched through an MESH gateway, MESH network addresses are distributed to the switch equipment and the lamp equipment, meanwhile, the switch equipment and the lamp equipment are controlled through keys and are enabled to enter a pairing state, meanwhile, the switch equipment sends a plurality of data broadcast packets to be matched through analyzing the lamp equipment, a matchable data broadcast packet is generated, and the matchable data broadcast packet and the to-be-matched MESH network addresses are bound. Therefore, the binding process of the switch equipment and the lamp equipment can be simplified through the mode, and meanwhile, the production cost can be reduced.

Referring to fig. 1, a method for pairing a switching device and a lamp device based on a SIG MESH network, where a network address transmission module is built in the lamp device, includes the following steps:

and step S101, receiving the MESH network address of the switching equipment sent by the MESH gateway.

It should be noted that the MESH gateway first searches for the surrounding MESH devices, where the MESH devices include a switch device and a lamp device, and further, the MESH gateway obtains data information of the MESH devices, such as UUID and BT address, and determines whether the data information meets a preset standard, where the preset standard is set by a worker. And further, if the switch equipment and the lamp equipment both meet the preset standard, initiating connection to the node, allocating a MESH network address of the switch equipment to the switch equipment, and allocating MESH network addresses of the lamp equipment to the lamp equipment respectively.

S102, searching a plurality of data broadcast packets to be matched, which are sent by a plurality of nearby lamp equipment built-in network address sending modules and can be matched;

step S103, analyzing and calculating each data broadcast packet to be matched respectively to generate a data broadcast packet capable of being matched;

specifically, in the steps, each data broadcast packet to be matched is analyzed and calculated respectively, and a matchable data broadcast packet is generated, which specifically includes the following steps:

respectively acquiring RSSI (received signal strength indicator) values of the data broadcast packets to be matched;

comparing the RSSI values of the data broadcast packets to be matched one by one respectively to generate an RSSI value data table;

and generating an RSSI maximum value according to the RSSI value data table, binding the RSSI maximum value with the corresponding data broadcast packet to be matched, and generating a matchable data broadcast packet.

It should be noted that after the switching device receives the switching device MESH network address allocated by the MESH gateway, the switching device needs to be brought as close as possible to the lamp device by the operator, so that the switching device searches for a plurality of data broadcast packets to be matched, which are sent by the network address sending modules built in the plurality of lamp devices nearby and can be paired, and meanwhile, the switching device analyzes the plurality of data broadcast packets to be matched, calculates the RSSI value of each data broadcast packet to be matched, obtains the data broadcast packet to be matched corresponding to the maximum RSSI value through comparison, namely, matches the data broadcast packet, and binds the switching device MESH network address with the lamp device MESH network address capable of matching the data broadcast packet.

Step S104, acquiring a MESH network address to be paired, which can be matched with the data broadcast packet;

step S105, binding the MESH network address to be paired with the MESH network address of the switch equipment;

and step S106, sending a binding finishing instruction.

Further, before the step of receiving the MESH network address of the switching device sent by the MESH gateway, the method further includes the following steps:

enter the pairing mode.

It should be noted that, the staff may control the switch device to enter the pairing mode through the button, and the lamp device is always in the working state after being turned on, that is, the to-be-matched data broadcast packet that can be paired is always broadcast by the network address sending module built in the lamp device.

Furthermore, in the step of searching for a plurality of data broadcast packets to be matched which can be paired and are sent by the network address sending modules built in the plurality of nearby lamp devices, the method further comprises the following steps:

and acquiring search time, comparing the search time with preset time, and generating a sleep instruction if the search time is greater than the preset time.

Still further, the preset time is 1 min.

It should be noted that, when the switching device search time exceeds 1min, the switching device will automatically enter the sleep state, and thus the energy consumption can be reduced.

Therefore, according to the method for pairing the switching device and the lamp device based on the SIG MESH network, the switching device and the lamp device around are searched through the MESH gateway, MESH network addresses are distributed to the switching device and the lamp device, meanwhile, the switching device is controlled by keys to enter a pairing state, the lamp device is in a to-be-paired state after being started, meanwhile, the switching device sends a plurality of to-be-matched data broadcast packets through analyzing the lamp device, the RSSI value of each to-be-matched data broadcast packet is analyzed, a matchable data broadcast packet is generated, and finally, the MESH network address of the switching device and the to-be-paired MESH network address of the matchable data broadcast packet are bound. Therefore, the binding process of the switch equipment and the lamp equipment can be simplified through the mode, and meanwhile, the production cost can be reduced.

Referring to fig. 2, a switching device and lamp device pairing system 10 based on the SIG MESH network includes: a receiving module 100, a scanning module 200, a calculating module 300, an obtaining module 400 and a binding module 500.

Referring to fig. 2, the receiving module 100 is configured to receive a MESH network address of the switching device sent by the MESH gateway; the scanning module 200 is configured to search a plurality of data broadcast packets to be matched, which are sent by a plurality of nearby lamp device built-in network address sending modules and can be paired; the calculation module 300 is configured to analyze and calculate each data broadcast packet to be matched, and generate a matchable data broadcast packet; the obtaining module 400 is configured to obtain a MESH network address to be paired that can match a data broadcast packet; the binding module 500 is configured to bind the MESH network address to be paired with the MESH network address of the switch device, and is further configured to send a binding end instruction.

Further, in an embodiment, the obtaining module 400 is further configured to obtain RSSI values of the data broadcast packets to be matched respectively.

Further, in an embodiment, the switching device and lamp device pairing system 10 based on the SIG MESH network further includes a comparison module, and the comparison module is configured to compare RSSI values of each to-be-matched data broadcast packet one by one, and generate an RSSI value data table.

Further, in an embodiment, the binding module 500 is further configured to bind the maximum RSSI value with the corresponding to-be-matched data broadcast packet, so as to generate a matchable data broadcast packet.

Further, in an embodiment, the SIG MESH network based switching device and lamp device pairing system 10 further includes a pairing module configured to enter a pairing mode.

Therefore, according to the switching device and lamp device pairing system 10 based on the SIG MESH network, surrounding switching devices and lamp devices are searched through an MESH gateway, MESH network addresses are distributed to the switching devices and the lamp devices, meanwhile, the switching devices are controlled through keys to enter a pairing state, the lamp devices are in a to-be-paired state after being started, meanwhile, the switching devices send a plurality of to-be-matched data broadcast packets through analyzing the lamp devices, the RSSI values of the to-be-matched data broadcast packets are analyzed, a matchable data broadcast packet is generated, and finally, the MESH network addresses of the switching devices and the to-be-paired MESH network addresses of the matchable data broadcast packets are bound. Therefore, the binding process of the switch equipment and the lamp equipment can be simplified through the mode, and meanwhile, the production cost can be reduced.

It can be understood that when the switching device at the present stage receives the switching device MESH network address assigned by the MESH gateway, the switching device MESH network address may have an incorrect format, which may result in that binding cannot be performed during subsequent binding with the lamp device, and meanwhile, it is inevitable that a hacker or other program maliciously imitates the switching device MESH network address to control the lamp device. For example, before the step of receiving the MESH network address of the switching device sent by the MESH gateway, the method further includes the following steps: s101a, comparing the MESH network address of the switch equipment with a format table of a preset MESH network address of the switch equipment, if the MESH network address of the switch equipment is not matched with the format table of the MESH network address of the preset switch equipment, generating an alarm instruction back, and sending the alarm instruction to the MESH gateway. It should be noted that, through the above design, it can be avoided that hackers or other programs maliciously control the lamp device by simulating the MESH network address of the switch device, so that the data of the switch device and the lamp device are safer, and meanwhile, the switch device and the lamp device can be smoothly bound.

Further, when the switch device is bound with the lamp device, the switch device and the lamp device are disconnected due to signal reasons or other problems, and the switch device cannot control the lamp device. However, after the existing stage of the switch device and the lamp device are disconnected, the MESH network address of the switch device and the MESH network address of the lamp device usually need to be allocated again by the MESH gateway, and then the switch device and the lamp device are re-paired, so the re-pairing process is quite complex and takes a long time, and the work process is inevitably affected. For example, the step of receiving the MESH network address of the switching device sent by the MESH gateway further includes the following steps: s101b, analyzing the MESH network address of the switch equipment, decomposing the MESH network address of the switch equipment, and generating a plurality of MESH network address units of the switch equipment; s101c, respectively storing MESH network address units of each switch device; and S101d, generating a disconnection reconnection instruction, calling the MESH network address units of the switch equipment respectively, and combining the MESH network address units of the switch equipment to generate the MESH network address of the switch equipment to be paired. It should be noted that, when the switching device receives the switching device MESH network address sent by the MESH gateway, the switching device MESH network address is analyzed and decomposed, the purpose of the decomposition is to reduce energy consumption during storage, further, when the switching device detects that abnormal disconnection occurs with the lamp device, a disconnection reconnection instruction is immediately generated, and each switching device MESH network address unit combination is called to generate a to-be-paired switching device MESH network address to reconnect with the lamp device. Therefore, the procedure that the switch equipment is disconnected from the lamp equipment at the present stage and needs to be reconnected is simplified, and the reconnection time is shortened.

Compared with the prior art, the invention has the following advantages:

according to the method and the system for pairing the switching equipment and the lamp equipment based on the SIG MESH network, the switching equipment and the lamp equipment around are searched through the MESH gateway, MESH network addresses are distributed to the switching equipment and the lamp equipment, meanwhile, the switching equipment is controlled by keys to be in a pairing state, the lamp equipment is in a to-be-paired state after being started, meanwhile, the switching equipment sends a plurality of to-be-matched data broadcast packets through analyzing the lamp equipment, the RSSI value of each to-be-matched data broadcast packet is analyzed, a matchable data broadcast packet is generated, and finally, the MESH network address of the switching equipment and the to-be-paired MESH network address of the matchable data broadcast packet are bound. Therefore, the binding process of the switch equipment and the lamp equipment can be simplified through the mode, and meanwhile, the production cost can be reduced.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. A switching device and lamp device pairing method based on a SIG MESH network is characterized in that a network address sending module is arranged in the lamp device, and the method comprises the following steps:

receiving a switching equipment MESH network address sent by a MESH gateway;

searching a plurality of data broadcast packets to be matched, which are sent by a plurality of network address sending modules arranged in the lamp equipment nearby and can be paired;

analyzing and calculating each data broadcast packet to be matched respectively to generate a data broadcast packet capable of being matched;

acquiring the MESH network address to be paired of the matchable data broadcast packet;

binding the MESH network address to be paired with the MESH network address of the switch equipment;

and sending an ending binding instruction.

2. The SIG MESH network-based switching device and lamp device pairing method of claim 1, wherein in the step of analyzing and calculating each of the data broadcast packets to be matched, respectively, and generating a matchable data broadcast packet, the method specifically comprises the steps of:

respectively acquiring the RSSI value of each data broadcast packet to be matched;

comparing the RSSI values of the data broadcast packets to be matched one by one respectively to generate an RSSI value data table;

and generating an RSSI maximum value according to the RSSI value data table, and binding the RSSI maximum value with the corresponding data broadcast packet to be matched to generate a matchable data broadcast packet.

3. The SIG MESH network-based switching device and lamp device pairing method of claim 1, further comprising, prior to said step of receiving a switching device MESH network address from a MESH gateway, the steps of:

enter the pairing mode.

4. The SIG MESH network based switching device and lamp device pairing method of claim 1, wherein in the step of searching for a plurality of data broadcast packets to be matched that can be paired and are sent by a plurality of network address sending modules built in the lamp devices nearby, the method further comprises the steps of:

obtaining search time, comparing the search time with preset time, and if the search time is greater than the preset time, generating a sleep instruction.

5. The SIG MESH network-based switching device and lamp device pairing method of claim 4, wherein the preset time is 1 min.

6. A system for pairing a switching device and a lamp device based on a SIG MESH network, comprising:

the receiving module is used for receiving the MESH network address of the switching equipment sent by the MESH gateway;

the scanning module is used for searching a plurality of data broadcast packets to be matched, which are sent by the network address sending modules arranged in the plurality of nearby lamp devices and can be paired;

the computing module is used for analyzing and computing each data broadcast packet to be matched to generate a matchable data broadcast packet;

the acquiring module is used for acquiring the MESH network address to be paired of the matchable data broadcast packet;

and the binding module is used for binding the MESH network address to be paired with the MESH network address of the switch equipment, and is also used for sending a binding finishing instruction.

7. The SIG MESH network-based switching device and lamp device pairing system of claim 6, wherein the obtaining module is further configured to obtain the RSSI values of the data broadcast packets to be matched, respectively.

8. The SIG MESH network-based switching device and lamp device pairing system of claim 6, further comprising a comparison module, wherein the comparison module is configured to compare RSSI values of each data broadcast packet to be matched one by one, and generate an RSSI value data table.

9. The SIG MESH network-based switching device and lamp device pairing system of claim 6, wherein the binding module is further configured to bind the RSSI maximum value with the corresponding data broadcast packet to be matched, and generate a matchable data broadcast packet.

10. The SIG MESH network-based switching device and lamp device pairing system of claim 6, further comprising a pairing module configured to enter a pairing mode.

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