CN110830967A - LoRa communication equipment with one-key networking function and networking method - Google Patents
LoRa communication equipment with one-key networking function and networking method Download PDFInfo
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- CN110830967A CN110830967A CN201911132385.6A CN201911132385A CN110830967A CN 110830967 A CN110830967 A CN 110830967A CN 201911132385 A CN201911132385 A CN 201911132385A CN 110830967 A CN110830967 A CN 110830967A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W4/00—Services specially adapted for wireless communication networks; Facilities therefor
- H04W4/70—Services for machine-to-machine communication [M2M] or machine type communication [MTC]
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W24/00—Supervisory, monitoring or testing arrangements
- H04W24/02—Arrangements for optimising operational condition
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04W—WIRELESS COMMUNICATION NETWORKS
- H04W84/00—Network topologies
- H04W84/18—Self-organising networks, e.g. ad-hoc networks or sensor networks
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02D—CLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
- Y02D30/00—Reducing energy consumption in communication networks
- Y02D30/70—Reducing energy consumption in communication networks in wireless communication networks
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Abstract
The invention relates to LoRa communication equipment with a one-key networking function and a networking method, wherein the networking method comprises the following steps: the LoRa gateway automatically searches unoccupied LoRa channels, scans and monitors LoRa networking information, allocates addresses for the LoRa acquisition module, sends networking verification information and performs networking; a plurality of decentralized loRa collection module, loRa collection module sends the network deployment request message, scans and monitors the network deployment verification information that the loRa gateway sent, according to verification information, sets up loRa collection module operating frequency and is the working channel of the communication antenna of loRa gateway, and this method easy operation realizes easily, and loRa ad hoc network flexibility that erects through this method is high, and application scope is wide, has improved the safe and reliable degree of network information to can the availability factor higher, manufacturing cost is lower, is favorable to promoting and using.
Description
Technical Field
The invention relates to a network construction method, in particular to LoRa communication equipment with a one-key networking function and a networking method.
Background
The LoRa has obvious advantages as a long-distance communication technology of a low-power wide area network. In addition, in the traditional low-voltage electrical industry, the traditional LoRa networking communication equipment cannot realize automatic networking and automatically select an optimal communication channel. At present, the full-range monitoring and real-time management of low-voltage electrical equipment cannot be realized, so that the requirements on data acquisition and control of the low-voltage electrical equipment are very strong.
Disclosure of Invention
Aiming at the defects in the prior art, the invention provides LoRa communication equipment with a one-key networking function and a networking method, which are used for solving the problems of complex networking steps and insufficient intellectualization in the existing communication system.
In order to achieve the purpose, the invention provides the following technical scheme: a LoRa communication device having a push-to-talk function, comprising:
the system comprises an LoRa gateway, a network management module and a communication module, wherein the LoRa gateway is provided with at least two wireless communication modules, the wireless communication modules comprise a networking antenna for automatic networking and a communication antenna for communication, the LoRa gateway automatically searches unoccupied LoRa channels, scans and monitors LoRa networking information, allocates addresses for LoRa acquisition modules, sends networking verification information and performs networking;
a plurality of decentralized loRa collection module, loRa collection module sends the network deployment request message, scans and monitors the network deployment verification information that loRa gateway sent, according to verification information, sets up loRa collection module operating frequency and is the working channel of the communication antenna of loRa gateway, verifies the back of succeeding in with the gateway once more, switches to the communication mode and accomplishes the network deployment.
A networking method based on the LoRa communication equipment with the one-key networking function comprises the following steps:
step one, setting a LoRa gateway in a networking mode, automatically selecting an optimal frequency by a networking antenna, and setting the optimal frequency as a communication frequency of a communication antenna;
step two, electrifying the LORa acquisition module, and sending a networking request message after the LoRa acquisition module waits for random time according to the ID number of the LORA acquisition module, wherein the random time is set corresponding to the ID number of the LORA acquisition module;
step three, after receiving the networking request message of the LoRa acquisition module, the LoRa gateway allocates an equipment address for the LoRa acquisition module, packages the equipment address into a networking reply message and sends the networking reply message to the LoRa acquisition module;
checking whether a networking reply message sent by a networking antenna of the LoRa gateway is received or not by the LoRa acquisition module, setting the communication frequency of the LoRa acquisition module according to the reply message, and performing identity verification with the LoRa gateway;
step five, all the LoRa acquisition modules and the LoRa gateways carry out identity verification, and networking is completed after successful verification;
and step six, after networking is successful, the LoRa gateway is switched to a normal working mode.
The LoRa gateway has independent networking antenna for automatic networking and communication antenna for communication.
LoRa gateway with LoRa collection module can realize a key automatic network deployment, through accomplishing corresponding verification and setting LoRa gateway communication antenna frequency with LoRa collection module communication frequency.
When the network is in a networking mode, the LoRa gateway automatically selects the optimal frequency, automatically searches the frequency which is not used around and has smooth communication, and sets the frequency as the communication frequency of the communication antenna of the LoRa gateway.
The random time is determined according to the random number generated by the ID number of the LORA acquisition module, the maximum random time is not more than 1 minute, and the random number is correspondingly generated by the ID number of the LORA acquisition module.
And the LoRa gateway defaults that all the LoRa acquisition modules have finished networking within 1 minute if not receiving the networking request message sent by the LoRa acquisition modules, and then networking is finished.
After the LoRa gateway and the LoRa collection module successfully build a network, upload the mac address of the LoRa gateway and upload the LoRa gateway and LoRa collection module networking corresponding relation to the cloud server.
The networking corresponding relation of the LoRa gateway and the LoRa acquisition module is uploaded to a cloud server, and the networking corresponding relation of the LoRa gateway and the LoRa acquisition module can be automatically loaded from the cloud by inputting a mac address after the gateway is replaced.
The LoRa gateway native mac address may be manually set.
The invention has the beneficial effects that: the method is simple to operate and easy to realize, the LoRa ad hoc network constructed by the method is high in flexibility and wide in application range, the safety and reliability of network information are improved, the use efficiency is high, the production cost is low, and the method is favorable for popularization and use.
Drawings
Fig. 1 is an exemplary diagram of the distribution of the field LoRa network according to the present invention.
Fig. 2 and fig. 3 are combined to form a schematic program flow diagram of the LoRa acquisition module according to the present invention.
Fig. 4 and fig. 5 are combined to form a schematic flow chart of the LoRa gateway program according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
It should be noted that all the directional indicators (such as up, down, left, right, front, and rear … …) in the embodiment of the present invention are only used to explain the relative position relationship between the components, the movement situation, etc. in a specific posture (as shown in the drawing), and if the specific posture is changed, the directional indicator is changed accordingly.
In the present invention, unless otherwise expressly stated or limited, the terms "connected," "secured," and the like are to be construed broadly, and for example, "secured" may be a fixed connection, a removable connection, or an integral part; can be mechanically or electrically connected; they may be directly connected or indirectly connected through intervening media, or they may be connected internally or in any other suitable relationship, unless expressly stated otherwise. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.
The invention provides a LoRa communication equipment with a key networking function, which comprises:
the LoRa gateway is at least provided with two groups of wireless communication modules, the LoRa gateway comprises a networking antenna for automatic networking and a communication antenna for communication, the LoRa gateway automatically searches unoccupied LoRa channels, scans and monitors LoRa networking information, allocates addresses for the LoRa acquisition module, sends networking verification information and performs networking;
a plurality of decentralized loRa collection module, loRa collection module sends the network deployment request message, scans and monitors the network deployment verification information that loRa gateway sent, according to verification information, sets up loRa collection module operating frequency and is the working channel of the communication antenna of loRa gateway, verifies the back of succeeding in with the gateway once more, switches to the communication mode and accomplishes the network deployment.
Namely, the LoRa gateway is provided with two groups of 433Mhz wireless communication modules, a group of communication antennas and a group of networking antennas. The LoRa collection module is provided with a group of 433Mhz wireless communication modules, which are integrated with each other in networking communication and extend out of a group of communication antennas.
The networking and communication independence is realized by adopting the communication antenna and the networking antenna which are independent from each other, and the problem that networking can be realized only by manually modifying communication parameters or the problem that the networking cannot be self-adapted to the surrounding working environment due to one antenna is solved.
Meanwhile, after the device is successfully networked, communication parameters of the gateway and the acquisition module can be modified through the gateway end so as to adapt to different working environments.
The invention also provides a networking method based on the LoRa communication equipment with the one-key networking function, which comprises the following steps:
step one, setting a LoRa gateway in a networking mode, automatically selecting an optimal frequency by a networking antenna, and setting the optimal frequency as a communication frequency of a communication antenna; when the network is in a networking mode, the LoRa gateway automatically selects the optimal frequency, automatically searches the frequency which is not used around and has smooth communication, and sets the frequency as the communication frequency of the communication antenna of the LoRa gateway.
Step two, electrifying the LORa acquisition module, and sending a networking request message after the LoRa acquisition module waits for random time according to the ID number of the LORA acquisition module, wherein the random time is set corresponding to the ID number of the LORA acquisition module; after the loRa collection modules are successfully electrified, randomly wait for a period of time to send networking request messages (random numbers can be generated through equipment ID numbers in the random time, and the maximum random time is not more than 1 minute), the problem that a plurality of loRa collection modules simultaneously send networking messages with a single gateway is solved, and the networking messages are prevented from being lost.
Step three, after receiving the networking request message of the LoRa acquisition module, the LoRa gateway allocates an equipment address for the LoRa acquisition module, packages the equipment address into a networking reply message and sends the networking reply message to the LoRa acquisition module;
checking whether a networking reply message sent by a networking antenna of the LoRa gateway is received or not by the LoRa acquisition module, setting the communication frequency of the LoRa acquisition module according to the reply message, and performing identity verification with the LoRa gateway; the networking reply message contains the optimal frequency automatically selected by the gateway and is forwarded to the LoRa acquisition module, and the communication frequency of the LoRa acquisition module is automatically set to ensure smooth data receiving and sending.
Step five, all the LoRa acquisition modules and the LoRa gateways carry out identity verification, and networking is completed after successful verification;
and step six, after networking is successful, the LoRa gateway is switched to a normal working mode.
The LoRa gateway has independent networking antenna for automatic networking and communication antenna for communication.
LoRa gateway with LoRa collection module can realize a key automatic network deployment, through accomplishing corresponding verification and setting LoRa gateway communication antenna frequency with LoRa collection module communication frequency.
The random time is determined according to the random number generated by the ID number of the LORA acquisition module, the maximum random time is not more than 1 minute, and the random number is correspondingly generated by the ID number of the LORA acquisition module.
And the LoRa gateway defaults that all the LoRa acquisition modules have finished networking within 1 minute if not receiving the networking request message sent by the LoRa acquisition modules, and then networking is finished.
After the LoRa gateway and the LoRa collection module successfully build a network, upload the mac address of the LoRa gateway and upload the LoRa gateway and LoRa collection module networking corresponding relation to the cloud server. If the LoRa gateway breaks down, then correspond mac address at the input of LoRa gateway end and can follow high in the clouds server and acquire LoRa gateway and LoRa collection module networking relation to realize the purpose of quick replacement LoRa gateway.
The networking corresponding relation of the LoRa gateway and the LoRa acquisition module is uploaded to a cloud server, and the networking corresponding relation of the LoRa gateway and the LoRa acquisition module can be automatically loaded from the cloud by inputting a mac address after the gateway is replaced.
The LoRa gateway native mac address may also be set manually.
Examples
The LoRa networking adopts a star network, and 1 LoRa gateway is connected with a plurality of LoRa collection modules. There may be multiple LoRa gateways on site, distributing multiple LoRa networks, and the LoRa networking mode is described according to fig. 1.
Fig. 1 shows that 2 block terminals distribute in the power distribution room, and the loRa equipment in each block terminal constitutes mutually independent loRa network, and 1 loRa network 1 of block terminal comprises loRa gateway A and loRa collection module A1~ AN, and 2 loRa networks 2 of block terminal comprises loRa gateway B and loRa collection module B1~ BN, and different loRa networks work avoids mutual interference in different channels promptly.
The loRa gateway possesses 2 loRa modules, is loRa module a and loRa module b respectively, and wherein loRa module a is used for carrying out electric power parameter collection communication with loRa collection module, and loRa module b is used for the network deployment and receives the warning message that loRa collection module uploaded. The loRa modules a of the field LoRa gateways work in different channels, and the LoRa modules b of all the field LoRa gateways work in the same channel. The LoRa gateway is provided with a networking button, namely a LoRa module b starts a networking mode when the button is pressed; the default is the networking mode when leaving factory for the loRa collection module, and leaves factory the operating channel the same with loRa module b of loRa gateway to possess "reset button", loRa collection module resumes the networking mode when the button is pressed promptly.
For convenience of networking description, assuming that the LoRa module b and the LoRa acquisition module of the LoRa gateway are arranged on the channel 1, the LoRa gateway a and the LoRa acquisition modules a 1-AN are installed first during field engineering implementation, that is, the LoRa devices planned to be implemented on the same LoRa network in advance are installed. After the LoRa gateway A and the LoRa acquisition modules A1-AN are installed and powered on successfully, the LoRa module b is in a networking mode after the LoRa gateway A presses a networking button. The LoRa module a of the LoRa gateway a searches for an unused channel other than the channel 1, and if the channel 2 is not used, the operating frequency band of the LoRa module a is set in the channel 2. LoRa module b and the LoRa collection module of LoRa gateway A just carry out the network deployment and verify, after the LoRa collection module network deployment succeeds, LoRa module b sends the LoRa collection module of switching channel instruction to the LoRa network 1, and then LoRa collection module operating frequency switches to channel 2 to convert into operating mode from the network deployment mode, LoRa gateway A's LoRa module a alright carry out data acquisition communication with LoRa collection module. LoRa module b closes the network deployment mode when LoRa gateway A detects that the LoRa collection module that LoRa module b links to each other all is in operating mode, and LoRa module b only accepts the alarm information that LoRa collection module uploaded this moment.
After the implementation of the loRa equipment in the distribution box 1 is completed, the installation of the loRa equipment in the distribution box 2 can be carried out, and when the loRa equipment of the distribution box 2 is in a networking mode, the loRa equipment in the distribution box 1 can not be networked due to being in a working mode. And sequentially implementing different LoRa network construction on site according to the steps.
When having the loRa collection module to change or add on the scene, can press this loRa collection module's "reset button" and the loRa gateway's in the loRa network that will join "network deployment button", loRa collection module alright network deployment authentication join in the loRa network. If the old LoRa acquisition module is replaced, the LoRa gateway finds that the device is not online for 3 consecutive days under the power-on condition, and the device can be deleted from the device management library after being considered to be replaced.
The examples should not be construed as limiting the present invention, but any modifications made based on the spirit of the present invention should be within the scope of protection of the present invention.
Claims (10)
1. The utility model provides a loRa communication equipment with a key networking function which characterized in that: it includes:
the system comprises an LoRa gateway, a network management module and a communication module, wherein the LoRa gateway is provided with at least two wireless communication modules, the wireless communication modules comprise a networking antenna for automatic networking and a communication antenna for communication, the LoRa gateway automatically searches unoccupied LoRa channels, scans and monitors LoRa networking information, allocates addresses for LoRa acquisition modules, sends networking verification information and performs networking;
a plurality of decentralized loRa collection module, loRa collection module sends the network deployment request message, scans and monitors the network deployment verification information that loRa gateway sent, according to verification information, sets up loRa collection module operating frequency and is the working channel of the communication antenna of loRa gateway, verifies the back of succeeding in with the gateway once more, switches to the communication mode and accomplishes the network deployment.
2. A networking method of an LoRa communication device with a one-key networking function according to claim 1, wherein: which comprises the following steps:
step one, setting a LoRa gateway in a networking mode, automatically selecting an optimal frequency by a networking antenna, and setting the optimal frequency as a communication frequency of a communication antenna;
step two, electrifying the LORa acquisition module, and sending a networking request message after the LoRa acquisition module waits for random time according to the ID number of the LORA acquisition module, wherein the random time is set corresponding to the ID number of the LORA acquisition module;
step three, after receiving the networking request message of the LoRa acquisition module, the LoRa gateway allocates an equipment address for the LoRa acquisition module, packages the equipment address into a networking reply message and sends the networking reply message to the LoRa acquisition module;
checking whether a networking reply message sent by a networking antenna of the LoRa gateway is received or not by the LoRa acquisition module, setting the communication frequency of the LoRa acquisition module according to the reply message, and performing identity verification with the LoRa gateway;
step five, all the LoRa acquisition modules and the LoRa gateways carry out identity verification, and networking is completed after successful verification;
and step six, after networking is successful, the LoRa gateway is switched to a normal working mode.
3. The networking method according to claim 2, wherein: the LoRa gateway has independent networking antenna for automatic networking and communication antenna for communication.
4. The networking method according to claim 2, wherein: LoRa gateway with LoRa collection module can realize a key automatic network deployment, through accomplishing corresponding verification and setting LoRa gateway communication antenna frequency with LoRa collection module communication frequency.
5. The networking method according to claim 2, wherein: when the network is in a networking mode, the LoRa gateway automatically selects the optimal frequency, automatically searches the frequency which is not used around and has smooth communication, and sets the frequency as the communication frequency of the communication antenna of the LoRa gateway.
6. The networking method according to claim 2, wherein: the random time is determined according to the random number generated by the ID number of the LORA acquisition module, the maximum random time is not more than 1 minute, and the random number is correspondingly generated by the ID number of the LORA acquisition module.
7. The networking method according to claim 2, wherein: and the LoRa gateway defaults that all the LoRa acquisition modules have finished networking within 1 minute if not receiving the networking request message sent by the LoRa acquisition modules, and then networking is finished.
8. The networking method according to claim 2, wherein: after the LoRa gateway and the LoRa collection module successfully build a network, upload the mac address of the LoRa gateway and upload the LoRa gateway and LoRa collection module networking corresponding relation to the cloud server.
9. The networking method according to claim 8, wherein: the networking corresponding relation of the LoRa gateway and the LoRa acquisition module is uploaded to a cloud server, and the networking corresponding relation of the LoRa gateway and the LoRa acquisition module can be automatically loaded from the cloud by inputting a mac address after the gateway is replaced.
10. The networking method according to claim 9, wherein: the LoRa gateway native mac address may be manually set.
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