CN114697354A - NB-IOT equipment network distribution method, intelligent terminal and network distribution system - Google Patents

Abstract

The invention discloses a network distribution method, an intelligent terminal and a network distribution system for NB-IOT equipment, wherein the method comprises the following steps: acquiring parameters of equipment to be networked; inquiring parameters from the registered device parameters recorded in the cloud to obtain an inquiry result; and if the query result is that the parameters are queried from the registered equipment, establishing the network connection between the equipment to be networked and the ONENET. According to the invention, the device parameters are recorded in the cloud in advance, when a certain device is networked, whether the device parameters exist is checked from the registered device parameters recorded in the cloud, and then the subsequent networking operation can be executed.

Description

NB-IOT equipment network distribution method, intelligent terminal and network distribution system

Technical Field

The invention relates to the technical field of networks, in particular to a network distribution method, an intelligent terminal and a network distribution system for NB-IOT equipment.

Background

The common networking mode is ZIGBEE networking, and the networking specifically comprises the following two steps: network initialization and node joining in the network. The node joining the network comprises two steps: networking through the connection with the coordinator and networking through the existing parent node.

The nodes in a ZIGBEE network mainly include three: ZIGBEE equipment nodes, central control nodes, collector nodes and the like are associated with the ZIGBEE equipment through the central control and the collector, so that networking is complex and energy consumption is high.

Therefore, the prior art has defects and needs to be improved.

Disclosure of Invention

The invention mainly aims to provide a network distribution method for NB-IOT equipment, an intelligent terminal and a network distribution system, and aims to solve the problems that in the prior art, ZIGBEE equipment is complex in networking and high in energy consumption.

In order to achieve the above object, the present invention provides a network distribution method for NB-IOT devices, including:

acquiring parameters of equipment to be networked;

inquiring parameters from the registered device parameters recorded in the cloud to obtain an inquiry result;

and if the query result is that the parameters are queried from the registered equipment, establishing the network connection between the equipment to be networked and the ONENET.

In addition, in order to achieve the above object, the present invention further provides an intelligent terminal, where the intelligent terminal includes a memory, a processor, and an NB-IOT device distribution network program stored in the memory and operable on the processor, and the processor implements the above steps of the NB-IOT device distribution network method when executing the NB-IOT device distribution network program.

In addition, to achieve the above object, the present invention further provides a computer-readable storage medium, wherein the computer-readable storage medium stores an NB-IOT device distribution network program, and the NB-IOT device distribution network program, when executed by a processor, implements the steps of the NB-IOT device distribution network method as above.

In addition, to achieve the above object, the present invention further provides a network distribution system based on NB-IOT devices, including:

the cloud, the ONENET, the NB-IOT equipment and the intelligent terminal;

when the NB-IOT equipment to be networked is connected in a network, the method comprises the following steps:

the cloud is used for recording parameters of the registered equipment;

the intelligent terminal is used for acquiring the parameters of the NB-IOT equipment, inquiring the parameters from the registered NB-IOT equipment parameters recorded in the cloud to obtain an inquiry result, and if the inquiry result is that the parameters are inquired from the registered equipment, establishing network connection between the equipment to be networked and the ONENET.

According to the method, the parameters of the registered equipment are recorded in the cloud in advance, when networking is conducted on the equipment to be networked, whether the parameters of the equipment to be networked exist or not is checked from the recorded parameters of the registered equipment in the cloud, if yes, the parameters of the equipment to be networked are normal, subsequent networking operation can be executed, if not, the parameters of the equipment to be networked are abnormal, a corresponding prompt needs to be sent according to the abnormal parameters, and then the subsequent networking operation is executed. Compared with the prior art, the method avoids the intervention of the collector and the central control equipment, is simple and quick in networking and saves energy consumption.

Drawings

FIG. 1 is a flow chart of a preferred embodiment of the NB-IOT device network distribution method of the present invention;

FIG. 2 is a flowchart of step S200 in the preferred embodiment of the NB-IOT device network distribution method of the present invention;

FIG. 3 is a flowchart of the NB-IOT device network distribution method according to an embodiment of the present invention, after step S200;

FIG. 4 is a flowchart of the NB-IOT device network distribution method according to an embodiment of the present invention, after step S300;

FIG. 5 is a diagram of a preferred embodiment of an NB-IOT device distribution network method in accordance with the present invention;

FIG. 6 is a block diagram of the preferred embodiment of the intelligent terminal of the present invention;

fig. 7 is a schematic diagram of a preferred embodiment of the network distribution system based on NB-IOT devices in accordance with the present invention.

Detailed Description

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

In order to solve the problem that the distribution of the ZIGBEE equipment can be completed only by the participation of the collector and the central control equipment in the prior art, the invention adopts NB-IOT equipment and sets a new distribution mode so as to realize simple distribution operation. Before introducing the distribution network method of the present invention, the preparation work in the previous stage is explained, and as shown in fig. 5, the previous stage includes:

the method comprises the steps that engineering personnel create a house project in an engineering system; specifically, a premise project node is added to the engineering system, wherein the premise project comprises a premise address, the position of NB-IOT equipment in the premise, the premise data about statistics, and the like.

Creating a plan for the house project;

after the creation is completed, saving and submitting the audit;

and forming a work order after the audit is passed, and further assigning the work order to an installer to install the NB-IOT equipment and distribute the network. Specifically, after the work order is formed, an installer can install the NB-IOT equipment on site according to the installation position displayed on the work order and carry out network distribution on the NB-IOT equipment, so that the data of the NB-IOT equipment can be counted by a computer.

The process of network distribution is the method for network distribution of NB-IOT devices according to the preferred embodiment of the present invention, and as shown in fig. 1 and 5, the method for network distribution of NB-IOT devices includes the following steps:

and S100, acquiring parameters of the equipment to be networked through the intelligent terminal.

Specifically, after an installer arrives at a specified installation position according to an installation address displayed on a work order, the installer obtains parameters of the equipment to be networked, the parameters can be input into the intelligent terminal by the installer, the installer can also identify the equipment to be networked by operating the intelligent terminal to obtain the parameters of the equipment to be networked, the specific modes are various, detailed description is omitted, and only the invention needs to design software, and when the software is carried on the intelligent terminal to run, the installer can obtain the parameters of the equipment to be networked by operating the installer.

And S200, the intelligent terminal inquires parameters from the registered device parameters recorded by the cloud end to obtain an inquiry result.

Specifically, parameters of registered devices are uploaded to a cloud end in advance, when the parameters of the devices to be networked need to be checked, whether the parameters of the devices to be networked exist or not can be searched from the cloud end, if yes, the devices to be networked are registered successfully, if not, the devices to be networked are not registered, and networking operation is executed after the devices to be networked are registered to upload the parameters.

Step S300, if the query result is that the parameters are queried from the registered equipment, the intelligent terminal establishes the network connection between the equipment to be networked and ONENET

After parameter checking is carried out at the cloud, the cloud returns the query result to the intelligent terminal, and the intelligent terminal analyzes the query result and sends a query prompt so that an installer can conveniently carry out relevant operation on the prompt, and further a network distribution of the device to be networked is realized, namely the network connection of the device to be networked and the ONENET is realized.

In one embodiment, step S100 includes:

step S110, the MAC address of the equipment to be networked is obtained from the equipment to be networked at the appointed installation position through the intelligent terminal.

Specifically, after the installer arrives at the specified installation position according to the installation address displayed on the work order, if the device to be networked is installed at the current installation position, the MAC address of the device to be networked is checked from the device to be networked, specifically, the MAC address can be known by checking the MAC address printed on the device to be networked, or scanning a barcode on the device to be networked and recognizing the barcode, and specifically, various ways of acquiring the MAC address are provided, which are not listed here. Certainly, the devices to be networked can be carried and installed by an installer in a unified way, or can be installed by the installer after being purchased from the market by a user, so that the MAC address of the device to be tested needs to be identified under the condition so as to judge whether the device to be tested can be used for the network distribution.

After the MAC address of the equipment to be networked is acquired, the MAC address and the current installation position are stored in the intelligent terminal together so as to be uploaded to an engineering system, the state of NB-IOT equipment on the node is conveniently updated, wherein the current installation position comprises: GPS location, room number, and location of NB-IOT devices in the room.

In one embodiment, as shown in fig. 2, step S200 includes:

step S210, the MAC address is inquired from the registered device parameters recorded in the cloud end through the intelligent terminal.

Specifically, after the intelligent terminal acquires the MAC address of the device to be networked, whether the MAC address exists is queried from device parameters stored in the cloud. When the MAC address is inquired, the MAC address is registered, and when the MAC address is not inquired, the MAC address is not registered, so that the intelligent terminal can obtain two results when the MAC address is inquired.

In step S220, when the MAC address is queried, a MAC address registered message is received.

In another embodiment, step S210 is followed by:

in step S230, when the MAC address is not queried, a MAC address unregistered message is received.

Further, the intelligent terminal can also analyze according to the query result, for example, when the MAC address can be queried, it is indicated that the address is registered, but the registered address has two situations, one is registered and bound, and the other is registered and unbound, and the intelligent terminal automatically sends a corresponding prompt for the two situations to prompt an installer to perform the next operation. And when the MAC address is not inquired, the address is not registered, at the moment, two conditions exist, one condition is that the equipment to be networked is legal equipment but is not registered and uploaded to the cloud end or is registered and not uploaded to the cloud end, the other condition is that the equipment to be networked is illegal equipment and cannot be installed, and the intelligent terminal automatically sends out corresponding prompts aiming at the two conditions so as to remind an installer to perform next operation.

In one embodiment, when the device to be networked is registered and not bound, step S310 is executed, and a network connection between the device to be networked and the ONENET is established through the intelligent terminal.

In another embodiment, as shown in fig. 3, step S300 after step S220 further includes:

step S320, determine whether the device to be networked is bound.

If yes, step S321 is executed, and the smart terminal issues a prompt that the device is bound or unbound.

Specifically, when the device to be networked is registered and bound, the intelligent terminal sends out a prompt that the device is bound or sends out a prompt that the device needs to be unbound, and no matter which way the prompt is made, the following steps can be executed in the subsequent steps:

checking the corresponding node in the engineering system according to the MAC address to obtain a mounting position corresponding to the MAC address, judging whether the mounting position on the engineering system is the same as the current site position, if not, indicating that the current site position is wrong, and sending a corresponding prompt to remind an installer to go to the correct position to mount the distribution network; if the two addresses are the same, the MAC address is wrongly bound by other devices, and the binding relationship between the two devices needs to be released.

When the binding relationship is released, the intelligent terminal can search the binding installation position according to the MAC address and prompt an installer, and the installer can further choose to bind the MAC address with the equipment where the current position is located after the binding between the MAC address and the equipment is released. The mode of checking the device with the bound MAC address can be queried through a manually operated intelligent terminal or automatically called by the intelligent terminal, and the specific mode is not described in detail here.

If not, executing step S322, and establishing the network connection between the device to be networked and the ONENET.

And when the MAC address is not bound, directly distributing the network to the equipment to be networked through the intelligent terminal to finish the network access of the equipment to be networked.

In one embodiment, as shown in fig. 4, after step S300, the method includes:

step S400, sending a data reading instruction to the cloud to execute the operations of inquiring the data of the device to be networked from the ONENET and returning an inquiry result, wherein the inquiry result comprises data reporting success and data reporting failure.

And when the equipment to be networked accesses the network, automatically uploading data to the ONENET by default, judging the data received by the ONENET at the moment, and if the reading of the equipment to be networked can be received, indicating that the networking is successful, otherwise, failing.

Step S410, when receiving a data report success message returned from the cloud, determining that the device to be networked successfully accesses the network.

In step S420, when a data reporting failure message returned from the cloud is received, it is determined that the network access of the device to be networked fails.

Specifically, the cloud can be controlled by the intelligent terminal to call the ONENET interface to inquire whether a reading is reported to the ONENET, if the reading is available, the network access is successful, if the reading is not inquired, the network access failure of the equipment is indicated, and a prompt that the equipment is not activated can be further sent to remind an installer to perform the equipment networking operation again.

In an embodiment, after step S420, the method further includes:

step S421, when receiving the re-networking command, re-establishing the network connection between the device to be networked and the ONENET.

Further, after the connection between the NB-IOT device (called a device to be networked before networking) and the ONENET is established through the intelligent terminal, a control instruction can be transmitted through the cloud, the cloud sends the control instruction to the ONENET so as to control the NB-IOT device to execute relevant operations through the ONENET, and after the NB-IOT device finishes executing, a feedback result is fed back to the cloud through the ONENET. For example, when the NB-IOT device is controlled to stop counting, the cloud sends a count stop instruction to the onene, the onene receives the count stop instruction and controls the NB-IOT device to stop counting, the NB-IOT device feeds back the current state and the count condition to the onene after stopping counting, the onene receives the feedback information and then sends the feedback information to the cloud, and the cloud stores the data. Certainly, when the cloud and the ONENET send or receive the instruction, it is further required to determine whether the NB-IOT device is online, directly transmit the instruction when online, and feed back an offline state when offline.

Further, the NB-IOT device can report data to the ONENET in a timing mode, and when the ONENET receives the data, the data are sent to the cloud, and the cloud receives the data and stores the data. And when the user logs in the cloud through the terminal equipment, the data reported by the NB-IOT equipment stored in the cloud can be checked.

Further, as shown in fig. 6, based on the NB-IOT device network distribution method, the present invention also provides an intelligent terminal, which includes a processor 10, a memory 20, and a display 30. Fig. 6 shows only some of the components of the smart terminal, but it should be understood that not all of the shown components are required to be implemented, and that more or fewer components may be implemented instead.

The storage 20 may be an internal storage unit of the intelligent terminal in some embodiments, such as a hard disk or a memory of the intelligent terminal. The memory 20 may also be an external storage device of the Smart terminal in other embodiments, such as a plug-in hard disk provided on the Smart terminal, a Smart Media Card (SMC), a Secure Digital (SD) Card, a Flash memory Card (Flash Card), and the like. Further, the memory 20 may also include both an internal storage unit and an external storage device of the smart terminal. The memory 20 is used for storing application software installed in the intelligent terminal and various data, such as program codes for installing the intelligent terminal. The memory 20 may also be used to temporarily store data that has been output or is to be output. In one embodiment, the memory 20 stores an NB-IOT device distribution program 40, and the NB-IOT device distribution program 40 is executable by the processor 10 to implement the NB-IOT device distribution method of the present application.

Processor 10 may be, in some embodiments, a Central Processing Unit (CPU), microprocessor or other data Processing chip that executes program code stored in memory 20 or processes data, such as executing NB-IOT device network deployment methods, etc.

The display 30 may be an LED display, a liquid crystal display, a touch-sensitive liquid crystal display, an OLED (Organic Light-Emitting Diode) touch panel, or the like in some embodiments. The display 30 is used for displaying information at the smart terminal and for displaying a visual user interface. The components 10-30 of the intelligent terminal communicate with each other via a system bus.

In an embodiment, the following steps are implemented when processor 10 executes NB-IOT device distribution network program 40 in memory 20:

and acquiring parameters of the equipment to be networked through the intelligent terminal.

And the intelligent terminal inquires parameters from the registered equipment parameters recorded by the cloud end to obtain an inquiry result.

And if the query result is that the parameters are queried from the registered equipment, the intelligent terminal establishes the network connection between the equipment to be networked and the ONENET.

Further, acquiring parameters of the device to be networked through the intelligent terminal includes:

and acquiring the MAC address of the equipment to be networked from the equipment to be networked at the appointed installation position through the intelligent terminal.

Further, the intelligent terminal queries parameters from the registered device parameters recorded in the cloud to obtain a query result, including:

and inquiring the MAC address from the registered device parameters recorded in the cloud end through the intelligent terminal.

When the MAC address is queried, a MAC address registered message is received.

When the MAC address is not inquired, a MAC address unregistering message is received.

Further, when the MAC address is queried, the MAC address registered message is received, and then the method further includes:

and judging whether the device to be networked is bound.

If so, the intelligent terminal sends out a prompt that the equipment is bound or unbound.

If not, establishing network connection between the equipment to be networked and ONENET.

Further, the intelligent terminal executes a designated operation according to the query result, and then the method further comprises the following steps:

and sending a data reading instruction to the cloud to execute the operation of inquiring the data of the equipment to be networked from the ONENET and returning an inquiry result, wherein the inquiry result comprises data reporting success and data reporting failure.

And when a data report success message returned from the cloud is received, judging that the equipment to be networked successfully accesses the network.

And when a data reporting failure message returned from the cloud is received, judging that the network access of the equipment to be networked fails.

Further, when receiving a data reporting failure message returned from the cloud, determining that the network access of the device to be networked fails, and then:

and when the re-networking command is received, re-establishing the network connection between the device to be networked and the ONENET.

The invention also provides a computer-readable storage medium, wherein the computer-readable storage medium stores an NB-IOT device distribution program, and the NB-IOT device distribution program, when executed by a processor, implements the steps of the NB-IOT device distribution method as described above.

The present invention further provides a network distribution system based on NB-IOT devices, as shown in fig. 7, where the network distribution system includes:

a cloud 60, an ONENET70, an NB-IOT device 80, and the above-described smart terminal 50;

when the NB-IOT device 80 to be networked performs a network access connection, the method includes:

the cloud 60 is used for recording parameters of registered devices;

the intelligent terminal 50 is configured to obtain parameters of the NB-IOT device 80, query the parameters from the registered NB-IOT device 80 parameters received by the cloud 60, obtain a query result, and establish a network connection between the device to be networked and the ONENET if the query result indicates that the parameters are queried from the registered devices.

Further, the parameters include a MAC address, and when the NB-IOT device 80 to be installed performs network access connection, the method further includes:

the intelligent terminal 50 is configured to query the MAC address of the NB-IOT device 80 from the cloud 60, receive a MAC address registered message if the query is available, and receive a MAC address unregistered message if the query is unavailable.

Further, the intelligent terminal 50 is also used for establishing network connection between the device to be networked and the ONENET70 when the device to be networked is registered and not bound.

Further, the intelligent terminal 50 is also configured to determine whether the device to be networked is bound, and if so, send a prompt that the device is bound or unbound.

Further, the intelligent terminal 50 is further configured to send a data reading instruction to the cloud end 60, and receive data returned from the cloud end 60.

The cloud 60 is further configured to receive a data reading instruction, send the data reading instruction to the ONENET70, read data from the ONENET70, and if the data can be read and the data report is successful, return the data to the cloud 60; otherwise, if the report of the data fails, the report is not returned; when the cloud 60 receives the data, the data is sent to the intelligent terminal 50.

Further, the intelligent terminal 50 is also configured to receive a re-networking instruction, and re-establish a network connection between the device to be networked and the ONENET 70.

In an embodiment, when registering for an unregistered NB-IOT device 80, it includes:

the cloud 60 is configured to obtain parameters of the NB-IOT device 80, register the NB-IOT device 80 according to the parameters, store registration information when the registration is successful, and change a storage state of the NB-IOT device 80.

In one embodiment, when a registered and networked NB-IOT device 80 reports data,

the NB-IOT device 80 is used for reading data and reporting the data to the ONENET 70;

the ONENET70 is used for receiving the data reported by the NB-IOT device 80 and forwarding the data to the cloud 60;

the cloud 60 is used for receiving and storing data.

In summary, the present invention provides a network distribution method, an intelligent terminal and a network distribution system for NB-IOT devices, wherein the method includes: acquiring parameters of equipment to be networked; inquiring parameters from the registered device parameters recorded in the cloud to obtain an inquiry result; and executing specified operation according to the query result. According to the invention, the device parameters are recorded in the cloud in advance, when a certain device is networked, whether the device parameters exist is checked from the registered device parameters recorded in the cloud, and then the subsequent networking operation can be executed.

Of course, those skilled in the art will appreciate that all or part of the processes of the methods of the embodiments described above can be implemented by a computer program to instruct related hardware (e.g., a processor, a controller, etc.) to perform the methods, and that the NB-IOT device configuration program can be stored in a computer-readable storage medium, and when executed, the NB-IOT device configuration program can include the processes of the embodiments of the methods described above. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (12)

1. An NB-IOT device network distribution method is applied to a network distribution system comprising NB-IOT devices, and the method comprises the following steps:

acquiring parameters of equipment to be networked;

inquiring the parameters from the registered device parameters recorded in the cloud to obtain an inquiry result;

and if the query result is that the parameters are queried from the registered equipment, establishing the network connection between the equipment to be networked and ONENET.

2. The method according to claim 1, wherein the obtaining parameters of the device to be networked comprises:

and acquiring the MAC address of the equipment to be networked from the equipment to be networked at the specified installation position.

3. The method of claim 2, wherein querying the cloud-included registered device parameters for the parameter results comprises:

inquiring the MAC address from the registered device parameters recorded in the cloud;

when the MAC address is inquired, the registered message of the MAC address is received; or,

and when the MAC address is not inquired, receiving the MAC address unregistered message.

4. The method of claim 3, wherein after receiving the MAC address registered message when the MAC address is queried, the method further comprises:

and when the equipment to be networked is bound, sending out a prompt that the equipment is bound or unbound.

5. The method of claim 4, wherein after establishing the network connection between the device to be networked and ONENET, the method further comprises:

sending a data reading instruction to the cloud to execute the operation of inquiring the data of the equipment to be networked from the ONENET and returning an inquiry result, wherein the inquiry result comprises data reporting success and data reporting failure;

and when a data report success message returned from the cloud is received, judging that the equipment to be networked successfully accesses the network.

6. The method of claim 5, wherein after sending the data reading instruction to the cloud to perform the operations of querying the data from the ONENET and returning a query result, the method further comprises:

when a data reporting failure message returned from the cloud is received, judging that the network access of the equipment to be networked fails;

and when a re-networking instruction is received, re-establishing the network connection between the equipment to be networked and the ONENET.

7. An intelligent terminal, comprising a memory, a processor, and an NB-IOT device distribution program stored in the memory and operable on the processor, wherein the processor, when executing the NB-IOT device distribution program, implements the steps of the method of any of claims 1-6.

8. A computer-readable storage medium storing an NB-IOT device distribution program that, when executed by a processor, performs the steps of the method of any of claims 1-6.

9. A network distribution system based on NB-IOT equipment, comprising:

cloud, ONENET, NB-IOT devices and the smart terminal of claim 7;

when the NB-IOT equipment to be networked is connected in a network, the method comprises the following steps:

the cloud end is used for recording parameters of the registered equipment;

and the intelligent terminal is used for acquiring the parameters of the NB-IOT equipment, inquiring the parameters from the registered NB-IOT equipment parameters recorded by the cloud to obtain an inquiry result, and if the inquiry result is that the parameters are inquired from the registered equipment, establishing the network connection between the equipment to be networked and ONENET.

10. The distribution network system of claim 9, wherein the parameters include a MAC address, and when the NB-IOT device to be networked is connected to a network, the method further comprises:

the intelligent terminal is used for inquiring the MAC address of the NB-IOT equipment from the cloud, and receiving a registered message of the MAC address if the MAC address can be inquired; or if the MAC address is not found, the MAC address unregistered message is received.

11. The distribution network system of claim 9,

when registering for an unregistered NB-IOT device, the method comprises the following steps:

and the cloud is used for acquiring parameters of the NB-IOT equipment, registering the NB-IOT equipment according to the parameters, storing registration information and changing the storage state of the NB-IOT equipment after the registration is successful.

12. The distribution network system of claim 9,

when the registered and networked NB-IOT devices report data,

the NB-IOT equipment is used for reading data and reporting the data to the ONENET;

the ONENET is used for receiving the data reported by the NB-IOT equipment and forwarding the data to the cloud;

and the cloud is used for receiving and storing the data.

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