CN107508714B - Method and device for carrying out network configuration on Bluetooth equipment based on Bluetooth mesh - Google Patents

Abstract

The invention relates to a method for carrying out network configuration on Bluetooth equipment based on Bluetooth mesh, which comprises the following steps: the initiating device sends a first instruction in the form of a Bluetooth mesh broadcast message; the receiving equipment receiving the first instruction judges whether the received first instruction is forwarded or not, if so, the instruction is abandoned; if not, executing the next step; and the receiving equipment takes out the configuration information included in the first instruction and adds the equipment identification number carried in the configuration information into a pairing list of the receiving equipment. The invention also relates to a device for realizing the method. The method and the device for carrying out network configuration on the Bluetooth equipment based on the Bluetooth mesh have the following beneficial effects that: the operation is simple, the efficiency is high, and the experience is good.

Description

Method and device for carrying out network configuration on Bluetooth equipment based on Bluetooth mesh

Technical Field

The invention relates to the field of wireless data transmission, in particular to a method and a device for carrying out network configuration on Bluetooth equipment based on Bluetooth mesh.

Background

Bluetooth Low Energy (BLE) technology is a low cost, short range, interoperable, robust wireless transmission technology that operates in the unlicensed 2.4GHz ISM radio frequency band. It was designed from the beginning as an Ultra Low Power (ULP) wireless technology. In BLE technology, data communication between devices is mainly completed through connection events at certain time intervals after connection of BLE devices. The BLE MESH (Bluetooth MESH) technology is a broadcast communication technology developed on the basis of the BLE technology, and the MESH network can transmit data without connection by utilizing the characteristic that the Bluetooth technology can broadcast, and supports a multi-hop wireless link. In the existing BLE and BLE mesh technologies, pairing or network configuration between BLE slave devices requires a BLE master to participate and configure, and a generally adopted scheme is that a bluetooth master (such as a computer, an intelligent mobile terminal running an APP, and the like) device modifies slave devices needing pairing in a bluetooth mesh network to a same specific network, so as to realize pairing control between the slave devices; because the paired devices need to be modified to a specific mesh network one by one, the pairing operation steps are complicated and the efficiency is low; meanwhile, as the Bluetooth slave devices needing to be paired need to be in a Bluetooth connectable state and then modify the mesh network, the battery energy consumption of the Bluetooth slave products using the battery is large. Similarly, in the prior art, the pairing releasing operation is also complicated and inefficient. Therefore, in the prior art, the operation of network configuration or pairing is complicated and inefficient, and the experience is poor.

Disclosure of Invention

The technical problem to be solved by the present invention is to provide a method and an apparatus for network configuration of bluetooth devices based on bluetooth mesh, which are simple in operation, high in efficiency, and good in experience, aiming at the above-mentioned defects of tedious operation, low efficiency, and poor experience in the prior art.

The technical scheme adopted by the invention for solving the technical problems is as follows: a method for carrying out network configuration on Bluetooth equipment based on Bluetooth mesh is constructed, and the method comprises the following steps:

A) the initiating device sends a first instruction in the form of a Bluetooth mesh broadcast message;

B) the receiving equipment receiving the first instruction judges whether the received first instruction is forwarded or not, if so, the instruction is abandoned; if not, executing the next step;

C) and the receiving equipment takes out the configuration information included in the first instruction, and adds the equipment identification number carried in the configuration information into a pairing list of the receiving equipment, so that the receiving equipment can receive and respond to the message sent by the equipment indicated by the equipment identification number.

Further, the initiating device is a slave node in the bluetooth mesh network, the receiving device is another slave node in the bluetooth mesh network, and the configured receiving device only responds to the control message sent by the slave node in the pairing list.

Still further, the step a) further comprises the following steps:

A1) reducing the transmitting power of the initiating equipment according to a set limit;

A2) sending the first instruction with the reduced transmission power;

A3) restoring the transmit power of the initiating device.

Furthermore, in the step B), whether the instruction is forwarded is determined by identifying a value of a forwarding hop count field in the instruction, where the value of the field in the forwarded instruction is smaller than a set value.

Still further, the first instruction includes a device identification code of the initiating device, a first instruction opcode, a first instruction parameter, and a first instruction forwarding hop value.

Still further, the method comprises the following steps:

m) the initiating device sends a second instruction in the form of a Bluetooth mesh broadcast message;

n) the receiving equipment receiving the second instruction judges whether the operation code of the second instruction received by the receiving equipment is a reset instruction, if so, all network configurations in the receiving equipment are cleared; if not, executing the next step;

o) judging whether the second instruction is forwarded or not, if so, abandoning the second instruction, and if not, removing the equipment identification number carried in the second instruction from the pairing list.

Further, the initiating device comprises a remote controller as a slave node of the mesh network, configured by a bluetooth host running an application program, or built in a factory or established through mesh broadcasting.

The invention also relates to a device for realizing the method, which comprises the following steps:

a first instruction issue unit: the method comprises the steps of enabling an initiating device to send out a first instruction in the form of a Bluetooth mesh broadcast message;

the first instruction forwarding judgment unit: the receiving device is used for enabling the receiving device receiving the first instruction to judge whether the first instruction received by the receiving device is forwarded or not, and if so, the receiving device abandons the instruction; if not, calling a network parameter configuration unit;

a network parameter configuration unit: the receiving device is configured to retrieve the configuration information included in the first instruction, and add the device identification number carried in the configuration information to a pairing list of the receiving device, so that the receiving device can receive and respond to a message sent from the device indicated by the device identification number.

Still further, the first instruction issue unit further includes:

a transmit power reduction module: the device is used for reducing the transmitting power of the initiating device according to a set limit;

the first instruction sending module: means for transmitting the first instruction at a reduced transmit power;

a transmission power recovery module: for recovering the transmit power of the initiating device.

Still further, still include:

a second instruction transmitting unit: the initiating device is used for sending a second instruction in the form of a Bluetooth mesh broadcast message;

a second instruction content determination unit: the receiving device used for receiving the second instruction judges whether the operation code of the second instruction received by the receiving device is a reset instruction, if so, all network configurations in the receiving device are cleared; if not, calling a second instruction forwarding judgment unit;

a second instruction forwarding judgment unit: and the device identification number is used for judging whether the second instruction is forwarded or not, if so, the second instruction is abandoned, and if not, the device identification number carried in the second instruction is eliminated from the pairing list.

The method and the device for carrying out network configuration on the Bluetooth equipment based on the Bluetooth mesh have the following beneficial effects that: since the initiating device is used to directly perform network configuration on the device in the near field and send the first instruction in the broadcast form, the network configuration is performed by the same action for any device in a different location, that is, the device is configured by the first instruction, and the configuration information carried by the first instruction is stored in the initiating device in advance, so that the first instruction in the broadcast form is repeatedly sent when the device is configured. Therefore, for the configuration of the equipment, the operation is simple, the efficiency is high, and the experience is good.

Drawings

Fig. 1 is a flowchart of a method for network configuration of a bluetooth device in an embodiment of the method and apparatus for network configuration of a bluetooth device based on bluetooth mesh according to the present invention; schematic structural diagram of (a);

FIG. 2 is a flowchart of a method for deconfiguring a network of Bluetooth devices in the embodiment;

fig. 3 is a schematic view of the structure of the device in the embodiment.

Detailed Description

The embodiments of the present invention will be further described with reference to the accompanying drawings.

As shown in fig. 1, in an embodiment of a method and an apparatus for network configuration of a bluetooth device based on bluetooth mesh of the present invention, the method for network configuration of a bluetooth device based on bluetooth mesh includes the following steps:

step S11 reduces the transmission power: in this embodiment, a bluetooth mesh network generally includes a plurality of nodes obtained by network configuration performed by bluetooth devices, where the nodes are all slave devices and can receive control of a master device and perform information interaction with the master device. Generally, in a bluetooth mesh network, the host device is generally a computer or a smart terminal running an application, such as a smart phone or a tablet computer. In this embodiment, a bluetooth device that has not been configured or has been configured but needs to be paired needs to be configured through an initiating device, which is also a slave device, and the initiating device should have been configured with the master device through a network and has become a node on the network, so that some information of the network, for example, a network name, etc., is stored in the slave device. In this embodiment, the initiating device is a remote controller configured on the bluetooth mesh master node (or master device), the remote controller is provided with a dedicated key, and when the key is triggered, the remote controller can perform a series of operations to configure or pair the bluetooth devices within its range of action. In these operations, for the present embodiment, the first operation is to reduce the power of its transmission power amplifier, the effective range is not too large, and the configuration of the bluetooth device is limited to the near-field range. In this embodiment, the power reduction of the power amplifier can be achieved by reducing the supply voltage or current of the power amplifier (which essentially is by reducing the supply current drawn by the power supply). As for the amount of power reduction, it is set in advance, for example, 30% of the supply current taken by the power supply may be reduced, and so on.

Step S12 sends a first instruction: in this step, a first command is sent through the power amplifier with reduced transmission power, and the first command is sent in a form of using a bluetooth mesh broadcast message. In this embodiment, the first instruction is an instruction set by a user, where the first instruction includes a device identification code of the initiating device, a first instruction operation code, and a first instruction parameter; the instruction parameters comprise initial forwarding hop counts, each time the slave node equipment receives the message, the message is forwarded after being processed, and the value of the number field of the forwarding hop counts in the message is reduced by one before forwarding.

Step S13 restores power amplifier power: in this step, since the first instruction is already issued, the power of the transmission power amplifier of the initiator is recovered so as not to affect the subsequent operation. Likewise, power restoration is achieved by restoring the power supply to the power amplifier. It should be noted that, in this embodiment, the step and the subsequent steps, including the step on the receiving device, are not related, that is, no matter whether the receiving device receives the first instruction, and no matter how the receiving device executes the first instruction, the step is not related. In addition, in this embodiment, the step S11-13 may be simplified in some cases, that is, the first instruction is directly sent, and the step of reducing power or recovering power does not occur. In other words, the above steps can be simplified to a step in which the initiating device issues the first instruction using a bluetooth mesh broadcast message. This has the advantage of further simplifying operation, which of course needs to be determined by the set distance and environment of the bluetooth device and is not suitable for any environment.

Step S14 receives a first instruction: in this step, the receiving device within the range of the initiating device receives the first command.

Step S15 goes through forwarding no: in this step, the receiving device that receives the first instruction determines whether the first instruction it receives has been forwarded, if so, step S16 is executed; if not, executing step S17; in this embodiment, whether the instruction is forwarded is determined by identifying a value of a forwarding hop count field in the instruction, where the value of the field in the forwarded instruction is smaller than a set value. In other words, in this step, the slave node device (i.e. the receiving device) receiving the instruction determines the instruction operation code, and if the instruction operation code is a pairing (first instruction) or a pairing release instruction (second instruction), extracts a forwarding hop count field of the instruction, compares the field with a default or set setting value, and if the field is not smaller than the default or set setting value, it indicates that the instruction operation code has not been forwarded; if the value is less than the default or set value, the instruction is forwarded.

Step S16 abandons: in this step, since it is determined that the first instruction is forwarded, that is, the first instruction is not actually issued for the receiving device or issued without the intention of configuring the receiving device, the first instruction is discarded and the receiving device does not perform any processing.

Step S17 configures the network: in this step, the receiving device extracts the configuration information included in the first instruction, and adds the device identification number carried in the configuration information to the pairing list of the receiving device, so that the receiving device can receive and respond to the control message from the device (i.e., the device having the carried device identification number). In this embodiment, the identification number of the initiating device is added to the paired device list of the receiving device, and the receiving device, receiving the control type instruction, will determine whether the device identification code included in the instruction is in the paired list, and if so, execute the control command. The configuration information of the network comprises a network name and a password, the receiving equipment modifies the network configuration information after receiving the network configuration information, the information is used for encrypting mesh broadcast data among networks, and only equipment sharing the same network name and the same password can correctly carry out communication among the networks.

In this embodiment, the configuration method further includes a step of removing the configuration, and fig. 2 shows a specific flow of removing the configuration. The deconfiguration comprises the following steps:

step S21 sends a second instruction: in the step, the initiating device sends out a second instruction in the form of a Bluetooth mesh broadcast message; similar to the first instruction, the second instruction is also a specially configured instruction, which also includes an opcode; the difference is that the second instruction comprises two operation codes, and one operation code indicates that the instruction requires the received equipment to be reset, namely all network configurations on the equipment are eliminated; while the other opcode indicates that the receiving device is only de-configured by the sending device, i.e., the device identification code of the sending device is deleted from the pairing list of the receiving device so that the receiving device will not thereafter receive information from the originating device.

Step S22 receives a second instruction: in this step, the receiving device within the range of the initiating device receives the second instruction.

Step S23 is reset instruction: in this step, it is determined whether a reset command is received by the operation code of the second command, and if so, step S24 is executed; otherwise, step S25 is executed.

Step S24 deletes all identification codes in the device pairing list: in this step, all device identification codes in the receiving device pairing list are deleted.

Whether step S25 forwards: in this step, it is determined whether the received second command has been forwarded, and if so, step S26 is executed; otherwise, step S27 is executed.

Step S26 abandons the second instruction: in this step, the second instruction is discarded and the receiving device does nothing.

Step S27 deletes the device identification code carried by the second instruction in the device pairing list: in this step, the device identification code carried in the second instruction is cleared from the pairing list, that is, only the pairing between the device corresponding to the device identification code and the receiving device is contacted.

In addition, in the present embodiment, the present invention also relates to an apparatus for implementing the method, as shown in fig. 3, the apparatus includes: the system comprises a first instruction sending unit 1, a first instruction forwarding judgment unit 2, a network parameter configuration unit 3, a second instruction sending unit 4, a second instruction content judgment unit 5 and a second instruction forwarding judgment unit 6; the first instruction sending unit 1 is configured to enable the initiating device to send a first instruction in a form of a bluetooth mesh broadcast message; the first instruction forwarding judgment unit 2 is used for enabling the receiving device receiving the first instruction to judge whether the first instruction received by the receiving device is forwarded or not, and if so, abandoning the instruction; if not, calling a network parameter configuration unit; the network parameter configuration unit 3 is configured to enable the receiving device to extract the configuration information included in the first instruction, and add the device identification number carried in the configuration information to a pairing list of the receiving device, so that the receiving device can receive and forward a message from the device, thereby becoming a node in the bluetooth mesh network. The second instruction sending unit 4 is configured to enable the initiating device to send a second instruction in the form of a bluetooth mesh broadcast message; the second instruction content determining unit 5 is configured to determine, by the receiving device that receives the second instruction, whether an operation code of the second instruction received by the receiving device is a reset instruction, and if so, clear all network configurations in the receiving device; if not, calling a second instruction forwarding judgment unit 6; the second instruction forwarding judgment unit 6 is configured to judge whether the second instruction is forwarded, if so, abandon the second instruction, and if not, clear the device identification number carried in the second instruction from the pairing list.

Further, the first instruction issue unit 1 further includes: the transmission power reducing module 11 is configured to reduce the transmission power of the initiating device according to a set quota; a first instruction sending module 12 is configured to send the first instruction with the reduced transmission power, and a transmission power recovering module 13 is configured to recover the transmission power of the initiator.

The above-mentioned 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 (7)

1. A method for carrying out network configuration on Bluetooth equipment based on Bluetooth mesh is characterized by comprising the following steps:

A) the initiating device sends a first instruction in the form of a Bluetooth mesh broadcast message;

B) the receiving equipment receiving the first instruction judges whether the received first instruction is forwarded or not, if so, the instruction is abandoned; if not, executing the next step;

C) the receiving device takes out the configuration information included in the first instruction, and adds the device identification number carried in the configuration information to a pairing list of the receiving device, so that the receiving device can receive and respond to the message sent by the device indicated by the device identification number;

the initiating device is a slave node in the Bluetooth mesh network, the receiving device is another slave node in the Bluetooth mesh network, and the configured receiving device only responds to the control message sent by the slave node in the pairing list;

in the step B), whether the instruction is forwarded or not is judged by identifying the numerical value of a forwarding hop field in the instruction; in the forwarded instruction, the value of the field is smaller than a set value;

the first instruction comprises an equipment identification code of the initiating equipment, a first instruction operation code, a first instruction parameter and a first instruction forwarding hop value; and the slave node equipment receives the first instruction, forwards the first instruction after processing, and subtracts one from the value of the forwarding hop number field in the first instruction before forwarding.

2. The method for network configuration of bluetooth devices based on bluetooth mesh according to claim 1, wherein the step a) further comprises the steps of:

A1) reducing the transmitting power of the initiating equipment according to a set limit;

A2) sending the first instruction with the reduced transmission power;

A3) restoring the transmit power of the initiating device.

3. The method for network configuration of bluetooth devices based on bluetooth mesh according to claim 2, further comprising the steps of:

m) the initiating device sends a second instruction in the form of a Bluetooth mesh broadcast message;

n) the receiving equipment receiving the second instruction judges whether the operation code of the second instruction received by the receiving equipment is a reset instruction, if so, all network configurations in the receiving equipment are cleared; if not, executing the next step;

o) judging whether the second instruction is forwarded or not, if so, giving up the second instruction, otherwise, only removing the equipment identification code carried in the second instruction from the pairing list.

4. The method of claim 3, wherein the initiating device comprises a remote controller configured by a Bluetooth host running an application program, or built in a factory, or established by mesh broadcasting, as a slave node of the mesh network.

5. An apparatus for implementing the method for network configuration of bluetooth devices based on bluetooth mesh as claimed in claim 1, comprising:

a first instruction issue unit: the method comprises the steps of enabling an initiating device to send out a first instruction in the form of a Bluetooth mesh broadcast message;

the first instruction forwarding judgment unit: the receiving device is used for enabling the receiving device receiving the first instruction to judge whether the first instruction received by the receiving device is forwarded or not, and if so, the receiving device abandons the instruction; if not, calling a network parameter configuration unit;

a network parameter configuration unit: the receiving device is used for taking out the configuration information included in the first instruction, and adding the device identification number carried in the configuration information into a pairing list of the receiving device, so that the receiving device can receive and respond to a message sent by the device indicated by the device identification number;

the initiating device is a slave node in the Bluetooth mesh network, the receiving device is another slave node in the Bluetooth mesh network, and the configured receiving device only responds to the control message sent by the slave node in the pairing list;

in the first instruction forwarding judgment unit, whether the instruction is forwarded or not is judged by identifying the numerical value of a forwarding hop field in the instruction; in the forwarded instruction, the value of the field is smaller than a set value;

the first instruction comprises an equipment identification code of the initiating equipment, a first instruction operation code, a first instruction parameter and a first instruction forwarding hop value; and the slave node equipment receives the first instruction, forwards the first instruction after processing, and subtracts one from the value of the forwarding hop number field in the first instruction before forwarding.

6. The apparatus of claim 5, wherein the first instruction issue unit further comprises:

a transmit power reduction module: the device is used for reducing the transmitting power of the initiating device according to a set limit;

the first instruction sending module: means for transmitting the first instruction at a reduced transmit power;

a transmission power recovery module: for recovering the transmit power of the initiating device.

7. The apparatus of claim 6, further comprising:

a second instruction transmitting unit: the initiating device is used for sending a second instruction in the form of a Bluetooth mesh broadcast message;

a second instruction content determination unit: the receiving device used for receiving the second instruction judges whether the operation code of the second instruction received by the receiving device is a reset instruction, if so, all network configurations in the receiving device are cleared; if not, calling a second instruction forwarding judgment unit;

a second instruction forwarding judgment unit: and the device identification number is used for judging whether the second instruction is forwarded or not, if so, the second instruction is abandoned, and if not, the device identification number carried in the second instruction is eliminated from the pairing list.

Images