Operation and maintenance debugging method and system, nonvolatile storage medium and processor
阅读说明:本技术 运维调试方法、系统、非易失性存储介质及处理器 (Operation and maintenance debugging method and system, nonvolatile storage medium and processor ) 是由 宋玮琼 李冀 李季巍 赵成 李亦非 郭帅 韩柳 羡慧竹 吕凤鸣 陶诗洋 胡晓晔 于 2021-06-24 设计创作,主要内容包括:本发明公开了一种运维调试方法、系统、非易失性存储介质及处理器。其中,该方法包括:抄控器与控制端设备采用目标通信协议建立连接,并在建立连接后,接收来自控制端设备的第一控制指令,其中,第一控制指令至少用于指示抄控器搜寻多个通信设备中的目标通信设备,并与多个通信设备中的目标通信设备之间建立通信关系,多个通信设备为采用不同高速电力线载波方案的通信设备;抄控器在接收到第一控制指令后,搜寻目标通信设备,并与搜寻到的目标通信设备通过电力线路建立通信关系;建立通信关系后,抄控器采用目标通信协议,通过电力线路向目标通信设备发送第二控制指令,其中,第二控制指令至少用于获取目标通信设备的运行数据。(The invention discloses an operation and maintenance debugging method, an operation and maintenance debugging system, a nonvolatile storage medium and a processor. Wherein, the method comprises the following steps: the method comprises the steps that a copy controller and control end equipment establish connection through a target communication protocol, and after the connection is established, a first control instruction from the control end equipment is received, wherein the first control instruction is at least used for indicating the copy controller to search for target communication equipment in a plurality of communication equipment and establish a communication relation with the target communication equipment in the plurality of communication equipment, and the plurality of communication equipment are communication equipment adopting different high-speed power line carrier schemes; after receiving the first control instruction, the copy controller searches for target communication equipment and establishes a communication relation with the searched target communication equipment through a power line; after the communication relation is established, the copy controller sends a second control instruction to the target communication equipment through the power line by adopting a target communication protocol, wherein the second control instruction is at least used for acquiring the operating data of the target communication equipment.)
1. An operation and maintenance debugging method is characterized by comprising the following steps:
the method comprises the steps that a copy controller and control end equipment establish connection by adopting a target communication protocol, and after the connection is established, a first control instruction from the control end equipment is received, wherein the first control instruction is at least used for indicating the copy controller to search for target communication equipment in a plurality of communication equipment and establish a communication relation with the target communication equipment in the plurality of communication equipment, and the plurality of communication equipment adopt different high-speed power line carrier schemes;
after receiving the first control instruction, the copy controller searches the target communication equipment and establishes a communication relationship with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one;
after the communication relation is established, the copy controller sends a second control instruction to the target communication equipment through the power line by adopting the target communication protocol, wherein the second control instruction is at least used for acquiring the operating data of the target communication equipment, and the operating data is at least used for determining the operating condition of the target communication equipment.
2. The method of claim 1, wherein under the target communication protocol, the transcript controller searches the plurality of communication devices after receiving the first control instruction, and establishes a communication relationship with the searched target communication devices through a power line, and the method comprises:
the copy controller monitors a beacon frame sent by each communication device in the plurality of communication devices through the power line, and determines an address of each communication device according to the beacon frame, wherein the beacon frame at least comprises address information and a working frequency band of each communication device;
after monitoring the beacon frame, the copy controller uploads the address information and the working frequency band of each communication device to the control end and receives a connection instruction issued by the control end, wherein the connection instruction is at least used for determining a target communication device in the plurality of communication devices and indicating the copy controller to be connected with the target communication device;
after receiving the connection indication, the copy controller sends a search frame to each communication device through the power line, wherein the search frame carries an address of the target communication device;
after receiving the search frame, the target communication device sends a synchronization frame through the power line at a fixed frequency;
and the copying controller establishes a connection relation with the target communication equipment through the power line according to the synchronous frame and sends a confirmation frame to the control end, wherein the confirmation frame is used for informing the control end, and the copying controller is successfully connected with the target communication equipment.
3. The method of claim 1, wherein after establishing the communication relationship and before the transcriber sends the second control instruction to the target communication device, the method further comprises:
and the copy controller receives a third control instruction of the control end device, wherein the third control instruction is at least used for instructing the copy controller to acquire the running data from the target communication device and upload the running data to the control end.
4. The method according to claim 1, wherein under the target communication protocol, the data packet transmitted between the control end device and the carbon copy controller at least comprises the following fields: the data packet processing method comprises a start character, an end character, a target address, a source address, a command code, a control word, a length, a data field length and a checksum, wherein the control word is used for determining that the data packet is a transmission operation instruction or a reply operation instruction, the length is the total length of the data packet, the data field is used for indicating an operation instruction of a sending device of the data packet to a receiving device of the data packet, and the checksum is the total byte number of the operation instruction and a check result.
5. The method of claim 2, wherein the search frame comprises at least the following fields: the system comprises a target site address, a Source Terminal Equipment Identifier (STEI), a reserved field and an extended frame type, wherein the target site address is the address of the target communication equipment, the STEI is the equipment identifier of the copy controller, the reserved field is the reserved field and is used for function extension, and the extended frame type is used for determining the extended function type.
6. The method of claim 2, wherein under the target communication protocol, the synchronization frame comprises at least the following fields: a time stamp, a STEI, a reserved field, and an extended frame type, wherein the STEI is a device identification of the target communication device.
7. The method of claim 1, wherein after establishing the communication relationship, the transcriber sends a second control instruction to the target communication device, and the method comprises:
and the copy controller sends an application layer message to the target communication equipment, wherein the application layer message is used for acquiring the running information of the target communication equipment and indicating the target communication equipment to adjust the running state.
8. The method according to claim 7, wherein the application layer generic packet comprises at least the following fields: the device comprises a message port number, a message ID and a message control word, wherein the message port number is used for indicating the target communication equipment to adjust the operation state, and the message ID is used for acquiring the operation information.
9. An operation and maintenance debugging method is characterized by comprising the following steps:
the control end equipment and the copy controller are connected by adopting a target communication protocol;
after the connection is established, a first control instruction is issued to the copy controller, wherein the first control instruction is at least used for instructing the copy controller to search for a target communication device in a plurality of communication devices by adopting the target communication protocol, and a communication relation is established between the target communication device and the target communication device in the plurality of communication devices based on the target communication protocol, and the plurality of communication devices are communication devices adopting different high-speed power line carrier schemes.
10. The method of claim 9, wherein after issuing the first control instruction to the carbon copy controller, the method further comprises:
and the control end equipment sends a third control instruction to the copy controller, wherein the third control instruction is at least used for instructing the copy controller to acquire operation data from the target communication equipment and uploading the operation data to the control end, and the operation data is at least used for determining the operation condition of the target communication equipment.
11. An operation and maintenance debugging system, comprising: the system comprises a control end device, a copy controller and a plurality of communication devices, wherein the control end device, the copy controller and the plurality of communication devices are connected through a target communication protocol,
the control end device is configured to send a first control instruction to the copy controller, where the first control instruction is at least used to instruct the copy controller to search for a target communication device of a plurality of communication devices and establish a communication relationship with the target communication device of the plurality of communication devices, and the plurality of communication devices are communication devices adopting different high-speed power line carrier schemes;
the copy controller is used for searching the target communication equipment after receiving the first control instruction, and establishing a communication relation with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one; and sending a second control instruction to the target communication device through the power line by adopting the target communication protocol, wherein the second control instruction is at least used for acquiring operation data of the target communication device, and the operation data is at least used for determining the operation condition of the target communication device.
12. A non-volatile storage medium, comprising a stored program, wherein when the program runs, a device in which the non-volatile storage medium is located is controlled to execute the operation and maintenance debugging method according to any one of claims 1 to 8.
13. A processor, configured to execute a program, wherein the program executes the operation debugging method according to any one of claims 1 to 8.
Technical Field
The invention relates to the field of electrical engineering, in particular to an operation and maintenance debugging method, an operation and maintenance debugging system, a nonvolatile storage medium and a processor.
Background
With the large-scale popularization of High speed Power Line Communication (HPLC) in the Power grid, the number of intelligent electric energy meters and collection terminals operating on site is huge, and therefore, the technical support and maintenance requirements for on-site collection and Communication equipment will be more and more. Due to the reasons of carrier communication channel interference, terminal equipment faults, construction quality and the like, faults of unsmooth equipment communication often occur, and the electric energy data transmission of the low-voltage meter reading smart electric meter is influenced. Therefore, a set of debugging system for performing problem troubleshooting and positioning on site is needed.
Most of the existing HPLC operation and maintenance systems adopt a copy controller mode to perform troubleshooting and positioning on-site problems, but because a high-speed carrier communication protocol does not define the application standard of the operation and maintenance copy controller in the system, the high-speed carrier scheme in the current market is more than ten families. When mixed loading occurs in actual operation, the operation and maintenance company needs to carry operation and maintenance equipment of various scheme manufacturers to perform on-site problem troubleshooting. Operation and maintenance personnel are required to master operation and maintenance equipment and corresponding upper computer software of each scheme manufacturer, and the requirement on the acceptance capability of the operation and maintenance personnel is high.
Moreover, the currently known technology only realizes the reading of the target node through upper computer software, but is only limited to a connection debugging mode of the same HPLC scheme, and cannot realize intercommunication debugging from the system level. Because the intercommunication operation and maintenance can not be realized, a plurality of operation and maintenance devices need to be purchased, and the operation and maintenance cost is increased.
In view of the above problems, no effective solution has been proposed.
Disclosure of Invention
The embodiment of the invention provides an operation and maintenance debugging method, an operation and maintenance debugging system, a nonvolatile storage medium and a processor, which are used for at least solving the technical problem that communication equipment adopting different high-speed power line carrier schemes cannot be debugged by using one control end device due to the fact that a unified communication protocol does not exist.
According to an aspect of an embodiment of the present invention, there is provided an operation and maintenance debugging method, including: the method comprises the steps that a copy controller and control end equipment establish connection through a target communication protocol, and after the connection is established, a first control instruction from the control end equipment is received, wherein the first control instruction is at least used for indicating the copy controller to search for target communication equipment in a plurality of communication equipment and establish a communication relation with the target communication equipment in the plurality of communication equipment, and the plurality of communication equipment are communication equipment adopting different high-speed power line carrier schemes; after receiving the first control instruction, the copy controller searches for target communication equipment and establishes a communication relationship with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one; after the communication relation is established, the copy controller sends a second control instruction to the target communication equipment through the power line by adopting a target communication protocol, wherein the second control instruction is at least used for acquiring the operating data of the target communication equipment, and the operating data is at least used for determining the operating condition of the target communication equipment.
Optionally, under a target communication protocol, after receiving the first control instruction, the copy controller searches for a plurality of communication devices and establishes a communication relationship with the searched target communication devices through a power line, including: the method comprises the steps that a copy controller monitors a beacon frame sent by each communication device in a plurality of communication devices through a power line, and determines the address of each communication device according to the beacon frame, wherein the beacon frame at least comprises address information and a working frequency band of each communication device; after monitoring the beacon frame, the copying controller uploads the address information and the working frequency band of each communication device to the control end and receives a connection instruction issued by the control end, wherein the connection instruction is at least used for determining a target communication device in the plurality of communication devices and indicating that the copying controller is connected with the target communication device; after receiving the connection instruction, the copy controller sends a search frame to each communication device through the power line, wherein the search frame carries the address of the target communication device; after receiving the search frame, the target communication equipment sends a synchronization frame through a power line at a fixed frequency; and the copy controller establishes a connection relation with the target communication equipment through the power line according to the synchronous frame and sends a confirmation frame to the control end, wherein the confirmation frame is used for informing the control end, and the copy controller is successfully connected with the target communication equipment.
Optionally, after the communication relationship is established, before the copy controller sends the second control instruction to the target communication device, the method further includes: and the copying controller receives a third control instruction of the control end equipment, wherein the third control instruction is at least used for indicating the copying controller to acquire the running data from the target communication equipment and uploading the running data to the control end.
Optionally, under the target communication protocol, the data packet transmitted between the control end device and the copy controller at least includes the following fields: the device comprises a start character, an end character, a target address, a source address, a command code, a control word, a length, a data field length and a check sum, wherein the control word is used for determining that a data packet is a transmission operation instruction or a reply operation instruction, the length is the total length of the data packet, the data field is used for indicating an operation instruction of a sending device of the data packet to a receiving device of the data packet, and the check sum is the total byte number of the operation instruction and the check result.
Optionally, the search frame comprises at least the following fields: a target site address, a STEI (source Terminal Equipment Identifier), a reserved frame type, wherein the target site address is an address of target communication Equipment, the STEI is an Equipment Identifier of a copy controller, the reserved field is reserved for function extension, and the extended frame type is used for determining the extended function type.
Optionally, under the target communication protocol, the synchronization frame includes at least the following fields: time stamp, STEI, reserved, extended frame type, wherein STEI is the device identification of the target communication device.
Optionally, after the communication relationship is established, the controller sends a second control instruction to the target communication device, where the second control instruction includes: and the copy controller sends an application layer message to the target communication equipment, wherein the application layer message is used for acquiring the running information of the target communication equipment and indicating the target communication equipment to adjust the running state.
Optionally, the application layer generic packet at least includes the following fields: the device comprises a message port number, a message ID and a message control word, wherein the message port number is used for indicating the target communication equipment to adjust the running state, and the message ID is used for acquiring the running information.
According to another aspect of the embodiments of the present invention, there is also provided an operation and maintenance debugging method, including: the control end equipment and the copy controller are connected by adopting a target communication protocol; after the connection is established, a first control instruction is issued to the copy controller, wherein the first control instruction is at least used for instructing the copy controller to search for target communication equipment in the plurality of communication equipment by adopting a target communication protocol, and establishing a communication relation with the target communication equipment in the plurality of communication equipment based on the target communication protocol, and the plurality of communication equipment are communication equipment adopting different high-speed power line carrier schemes.
Optionally, after issuing the first control instruction to the copy controller, the method further includes: and the control end equipment sends a third control instruction to the copy controller, wherein the third control instruction is at least used for indicating the copy controller to acquire operation data from the target communication equipment and uploading the operation data to the control end, and the operation data is at least used for determining the operation condition of the target communication equipment.
According to another aspect of the embodiments of the present invention, there is also provided an operation and maintenance debugging system, including: the system comprises a control end device, a copy controller and a plurality of communication devices, wherein the control end device, the copy controller and the copy controller are connected through a target communication protocol, the control end device is used for sending a first control instruction to the copy controller, the first control instruction is at least used for indicating the copy controller to search for a target communication device in the plurality of communication devices and establish a communication relation with the target communication device in the plurality of communication devices, and the plurality of communication devices adopt different high-speed power line carrier schemes; the copying controller is used for searching target communication equipment after receiving the first control instruction and establishing a communication relation with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one; and sending a second control instruction to the target communication device through the power line by adopting a target communication protocol, wherein the second control instruction is at least used for acquiring operation data of the target communication device, and the operation data is at least used for determining the operation condition of the target communication device.
In some embodiments of the present application, a non-volatile storage medium is further provided, where the non-volatile storage medium includes a stored program, and the program, when running, controls a device in which the non-volatile storage medium is located to execute an operation and maintenance debugging method.
In some embodiments of the present application, a processor is further provided, where the processor is configured to execute a program, and the operation and maintenance debugging method is performed when the program runs.
In the embodiment of the application, a connection is established between a copy controller and a control end device by adopting a target communication protocol, and after the connection is established, a first control instruction from the control end device is received, wherein the first control instruction is at least used for instructing the copy controller to search for a target communication device in a plurality of communication devices and establish a communication relationship with the target communication device in the plurality of communication devices, and the plurality of communication devices are communication devices adopting different high-speed power line carrier schemes; after receiving the first control instruction, the copy controller searches for target communication equipment and establishes a communication relationship with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one; after the communication relation is established, the copy controller sends a second control instruction to the target communication equipment through the power line by adopting a target communication protocol, wherein the second control instruction is at least for obtaining operational data of the target communication device, the operational data being at least for determining a manner of an operational condition of the target communication device, by determining that the devices are connected by using the same communication protocol (namely the target communication protocol), the aim of connecting one console end device with the communication device adopting the communication scheme of the different protocols and telling the carrier is achieved, thereby realizing the technical effect of using one control end device to acquire the operating conditions of the communication devices adopting different protocols and telling the carrier communication scheme, and the technical problem that communication equipment adopting different high-speed power line carrier schemes cannot be debugged by using one control end device due to the fact that a unified communication protocol does not exist is solved.
Drawings
The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the invention and together with the description serve to explain the invention without limiting the invention. In the drawings:
fig. 1 is a schematic flowchart of an operation and maintenance debugging method according to an embodiment of the present invention;
fig. 2 is a schematic flow chart of a control-end device connected to a communication device through a copy controller according to an embodiment of the present invention;
fig. 3 is a schematic flow chart of a control-side device obtaining communication device information through a copy controller according to an embodiment of the present invention;
fig. 4 is a schematic flow chart of another control-side device according to an embodiment of the present invention, where the control-side device obtains information of a communication device through a copy controller;
FIG. 5 is a flowchart illustrating another operation debugging method according to an embodiment of the present invention;
fig. 6 is a schematic structural diagram of an operation and maintenance debugging system according to an embodiment of the present invention.
Detailed Description
In order to make the technical solutions of the present invention better understood, 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 the terms "first," "second," and the like in the description and claims of the present invention and in the drawings described above are used for distinguishing between similar elements and not necessarily for describing a particular sequential or chronological order. It is to be understood that the data so used is interchangeable under appropriate circumstances such that the embodiments of the invention described herein are capable of operation in sequences other than those illustrated or described herein. Furthermore, the terms "comprises," "comprising," and "having," and any variations thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements expressly listed, but may include other steps or elements not expressly listed or inherent to such process, method, article, or apparatus.
Example 1
In accordance with an embodiment of the present application, there is provided a method embodiment of an operation and maintenance debugging method, it should be noted that the steps illustrated in the flowchart of the drawings may be executed in a computer system such as a set of computer executable instructions, and that although a logical order is illustrated in the flowchart, in some cases, the steps illustrated or described may be executed in an order different from that herein.
Fig. 1 is an operation and maintenance debugging method according to an embodiment of the present application, and as shown in fig. 1, the method includes the following steps:
step S102, a copy controller establishes connection with a control end device by adopting a target communication protocol, and receives a first control instruction from the control end device after the connection is established, wherein the first control instruction is at least used for indicating the copy controller to search for target communication devices in a plurality of communication devices and establish communication relation with the target communication devices in the plurality of communication devices, and the plurality of communication devices are communication devices adopting different high-speed power line carrier schemes;
the high-speed power line carrier is also called a broadband power line carrier, and is a communication network which uses a power line as a communication medium and realizes power utilization information aggregation, transmission and interaction. The high-speed power line carrier mainly adopts an orthogonal frequency division multiplexing technology, and compared with the traditional low-speed narrowband power line carrier technology, the high-speed narrowband power line carrier has larger bandwidth and higher transmission rate.
In some embodiments of the present application, the control end device may also be referred to as an upper computer, the upper computer may be a computer device running upper computer software, or a mobile end device running an upper computer program, and the communication device includes a CCO (Central Coordinator terminal acquisition device) and an STA (Station electric energy meter communication module). Specifically, the control end device and the copy controller may be connected through a wireless network, a wired network, or a 232 serial port, and the connection mode is not limited. And the copy controller and the communication equipment are directly connected and communicated through a power line.
In some embodiments of the application, after the upper computer is connected with the copying controller, the upper computer sends a network search instruction to the copying controller, and the interaction between the upper computer and the copying controller conforms to a protocol frame format of the following table, and at least includes the following fields: the data unit transmission method comprises a start symbol, an end symbol, a target address, a source address, a command code, a control word, a length, a data field length and a checksum, wherein the start symbol and the end symbol are used for informing a data receiving device of the start and the end of a data unit transmission process, the target address is the address of a receiving device of a data unit, the source address is the address of a sending device of the data unit, the command code is used for determining the type of functions which need to be executed by a copy controller of an upper computer, the control word is used for determining that the data unit is a transmission operation instruction or a reply operation instruction, the length is the total length of a data packet, the data field is used for indicating the operation instruction of the sending device of the data packet to the receiving device of the data packet, the data field length is the number of bytes of the operation instruction, and the checksum is the total number of bytes of the operation instruction and the checksum.
And at the moment, the copy controller is connected to the power line, monitors the beacon frame of the power line according to an HPLC protocol, analyzes the obtained beacon through a software protocol by monitoring for a period of time to obtain network identifications and MAC addresses of all CCOs on the power line, and reports the result to an upper computer.
Item
Means of
Byte (byte)
73H
Initial symbol
1
Length of
2
Target address
6
Source address
6
CMD_ID
Command code
2
Control word
2
Data field length
2
Data field
N
Checksum
1
16H
Ending symbol
1
In some embodiments of the present application, respective MAC address allocation conditions of the upper computer, the copy controller, and the target device are shown in the following table:
node type
MAC address allocation
Upper computer
01:FF:FF:FF:FF:FF
Copy controller
02:FF:FF:FF:FF:FF
CCO module
Host node address
STA module
Electric meter address
As can be seen from the above table, the MAC address of the host computer starts with 01, and the MAC address of the copy controller starts with 02. In some embodiments of the present application, the CCO module and the STA module are typically installed on other power devices, where the CCO module is installed on a concentrator, a MAC address of the concentrator is a host node address, and the STA is typically installed on an electric meter. Therefore, the address of the host node can be used as the address of the CCO module, and the address of the electric meter can be used as the address of the STA module.
Step S104, after receiving the first control instruction, the copy controller searches for target communication equipment and establishes a communication relation with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one;
specifically, the process of searching for the target communication device is a process of determining the target communication device from the plurality of communication devices by the copy controller.
In some embodiments of the present application, under a target communication protocol, after receiving a first control instruction, a copy controller searches for a plurality of communication devices, and establishes a communication relationship with the searched target communication devices through a power line, including: the method comprises the steps that a copy controller monitors a beacon frame sent by each communication device in a plurality of communication devices through a power line, and determines the address of each communication device according to the beacon frame, wherein the beacon frame at least comprises address information and a working frequency band of each communication device; after monitoring the beacon frame, the copying controller uploads the address information and the working frequency band of each communication device to the control end and receives a connection instruction issued by the control end, wherein the connection instruction is at least used for determining a target communication device in the plurality of communication devices and indicating that the copying controller is connected with the target communication device; after receiving the connection instruction, the copy controller sends a search frame to each communication device through the power line, wherein the search frame carries the address of the target communication device; after receiving the search frame, the target communication equipment sends a synchronization frame through a power line at a fixed frequency; and the copy controller establishes a connection relation with the target communication equipment through the power line according to the synchronous frame and sends a confirmation frame to the control end, wherein the confirmation frame is used for informing the control end, and the copy controller is successfully connected with the target communication equipment.
In some embodiments of the application, after receiving the synchronization frame, the copy controller configures network information the same as the synchronization frame, and reports a connection success instruction to the upper computer software; and after the connection is successful, the CCO or the STA can also periodically send a 'synchronous frame' for synchronizing the controller copying module, and after the controller copying module receives the synchronous frame each time, the controller copying module and the CCO or the STA carry out clock synchronization to keep a connection state. At the moment, after the connection is established, standard protocol messages can be sent by upper computer software to realize data interaction with CCO or STA.
Specifically, as shown in fig. 2, the process of establishing connection between the upper computer software and the terminal collection device (CCO) and the electric energy meter (STA) through the copy controller is as follows:
the upper computer equipment running the upper computer software issues a network search instruction, namely a first control instruction, to the copying controller, the copying controller starts to monitor a beacon frame in an HPLC (high speed Power line Carrier) channel after receiving the instruction, the copying controller uploads the MAC address and working frequency band information of CCO or STA carried in the monitored beacon frame to the upper computer software, and if a plurality of CCO or STA equipment exist on a power line, all the monitored equipment information can be displayed on the upper computer software at the moment.
The operation and maintenance personnel can select one CCO or STA through the search result displayed by the upper computer software and then issue a network connection instruction. After the upper computer software issues a network connection instruction, the copy controller sends a search frame on each frequency band to search a target site, wherein the search frame carries an MAC address of a CCO (central control element) or STA (station); the data unit format of the network search frame is shown in the following table:
the downlink data unit format of the upper computer is as follows:
the copy controller uplink data unit format:
data content
Remarks for note
Data format
Number of bytes
Pattern identification
Connection mode designated by downlink message
BIN
1
Switching results
1 indicates success
BIN
1
In some embodiments of the present application, as shown in the following table, the search frame at least includes the following fields: a target site address, a STEI (source Terminal Equipment Identifier), a reserved frame type, wherein the target site address is an address of the target communication Equipment, the STEI is an Equipment Identifier of the copy controller, the reserved field is a reserved field for function extension, and the extended frame type is used for determining an extended function type.
In some embodiments of the present application, under the target communication protocol, a protocol unit format of the synchronization frame is as shown in the following table, and includes the following fields: the method comprises the steps of time stamp, STEI, reserving and expanding frame types, wherein the time stamp is a network clock for CCO and an accessed STA node, and is a local clock value for an unaccessed STA; the STEI is the TEI address (namely equipment identification) of the module to be connected, and the STEI of the STA module which is not accessed to the network is 0; the reserved field is used for function extension, and the extension frame type is used for determining the extended function type.
In some embodiments of the application, the upper computer specifies to issue a network connection instruction through the reported CCO information, the copy controller starts to send a search frame message to the power line, and the CCO and the STA respond to the synchronization frame after searching for the search frame. The CCO and the STA need to support functions of receiving, analyzing, processing and sending a synchronization frame for the search frame, where the search frame and the synchronization frame are both HPLC protocol link layer extended frame protocols and are implemented by extending a selective acknowledgement frame defined in the Q/GDW11612.42 standard.
And step S106, after the communication relation is established, the copy controller sends a second control instruction to the target communication equipment through the power line by adopting a target communication protocol, wherein the second control instruction is at least used for acquiring the operating data of the target communication equipment, and the operating data is at least used for determining the operating condition of the target communication equipment.
In some embodiments of the application, after the communication relationship between the control-end device and the copy controller and the communication relationship between the copy controller and the target communication device are established, before the copy controller sends the second control instruction to the target communication device, the copy controller further receives a third control instruction of the control-end device, where the third control instruction is at least used for instructing the copy controller to acquire operating data from the target communication device and upload the operating data to the control end.
In some embodiments of the present application, after establishing the communication relationship, a specific process of sending, by the copy controller, the second control instruction to the target communication device includes: and the copy controller sends an application layer message to the target communication equipment, wherein the application layer message is used for acquiring the running information of the target communication equipment and indicating the target communication equipment to adjust the running state.
The general message format of the application layer message is as follows, specifically, the application layer general message at least includes the following fields: the device comprises a message port number, a message ID and a message control word, wherein the message port number is used for indicating the target communication equipment to adjust the operation state, and the message ID is used for acquiring the operation information.
Domain
Number of bytes
Bit position
Domain size (bit)
Message port number
0
0-7
8
Message ID
1-2
0-15
16
Message control word (default is 0)
3
0-7
8
Specifically, the partial content and values of the packet ID are shown in the following table:
message ID
Means of
Message port number
0x0001
Concentrator initiative meter reading
0x11
0x0040
Message ID extended between HPLC operation and maintenance copy controller-CCO and STA
0x11
In some embodiments of the present application, the complete flow of the above steps is shown in fig. 3:
firstly, the communication protocol between the upper computer and the copying controller is defined, and the technical standard of connection of the upper computer and the copying controller, namely the communication protocol, is mainly unified. And meanwhile, a link layer command is expanded under an HPLC protocol framework, communication protocols of the copy controller, the CCO and the STA on a power line are unified, and compatible communication of products of different manufacturers is realized on the basis that the CCO and the STA support the expansion protocols.
Sending a network search instruction by upper computer software, starting monitoring a beacon frame in an HPLC channel after a copy controller receives the instruction, uploading MAC address and working frequency band information of a CCO (central access point) carried in the monitored beacon frame to the upper computer software by the copy controller, and displaying all monitored equipment information on the upper computer software if a plurality of CCO equipment exist on a power line, wherein the beacon frame is a management message which is sent by the CCO or STA, carries network management and maintenance information and is used for a specific purpose, the beacon sent by the CCO is a central beacon, and the beacon sent by the STA is a discovery beacon;
and selecting one CCO from the search results displayed by the upper computer software, and issuing a network connection instruction. After the upper computer software issues a network connection instruction, the copy controller sends a search frame on each frequency band to search a target site, wherein the search frame carries an MAC address of a CCO (central control element) of the target site;
after receiving the search frame, the CCO replies a synchronous frame and sends the synchronous frame for multiple times at a fixed interval, and when the CCO replies the synchronous frame, the synchronous frame carries necessary network information;
after receiving the synchronous frame, the copy controller configures the network information same as the synchronous frame and reports a connection success instruction to the upper computer software;
after the connection is successful, the CCO periodically sends a 'synchronous frame' for synchronizing the controller copying module, and after the controller copying module receives the synchronous frame each time, the controller copying module and the CCO carry out clock synchronization and keep a connection state;
at the moment, after the connection is established, standard protocol messages can be sent by upper computer software to realize data interaction with CCO or STA.
Specifically, when data interaction is carried out, the upper computer software sends a CCO transparent transmission instruction to the operation and maintenance copy controller, the operation and maintenance copy controller sends a CCO instruction to the CCO, the CCO sends a CCO response instruction to the operation and maintenance copy controller, and the operation and maintenance copy controller transparently transmits a CCO response instruction to the upper computer software to complete a service operation task.
The data format of the downlink data volume and the data format of the uplink data volume of the upper computer are shown in the following table, wherein the downlink data volume is data transmitted to the copying controller by the upper computer, and the uplink data volume is data transmitted to the upper computer by the copying controller:
data content
Data format
Number of bytes
Transparently transferred data content
HEX
n
The formats of the operation and maintenance copy controller and CCO uplink and downlink messages are shown in the following table, wherein the uplink message is a message uploaded to the operation and maintenance copy controller by the CCO, and the downlink message is a message issued to the CCO by the operation and maintenance copy controller:
domain
Number of bytes
Bit position
Domain size (bit)
Type of protocol
0
0-7
8
Message length
1-2
0-15
16
Message content
3-N
It should be noted that the type of the above protocol is defaulted to 0, which represents the Q/GDW1376.2 protocol; when the protocol type is 01, the current protocol type is a custom protocol or other standby protocols. The message content is consistent with the specification in Q/GDW 1376.2-2013.
When the target communication device is an STA, as shown in fig. 4, the complete flow of the above steps is as follows:
sending a network search instruction by upper computer software, starting monitoring a beacon frame in an HPLC channel after a copy controller receives the instruction, uploading MAC (media access control) addresses and working frequency band information of STAs carried in the monitored beacon frame to the upper computer software by the copy controller, and displaying all monitored equipment information on the upper computer software if a plurality of STA (station) equipment exists on a power line;
and selecting one STA from the search results displayed by the upper computer software, and issuing a network connection instruction. After the upper computer software issues a network connection instruction, the copy controller sends a search frame on each frequency band to search a target site, wherein the search frame carries an MAC address of an STA (station) of the target site;
after receiving the search frame, the STA replies the synchronous frame and sends the synchronous frame for multiple times at a fixed interval, and when the STA replies the synchronous frame, the synchronous frame carries necessary network information;
after receiving the synchronous frame, the copy controller configures the network information same as the synchronous frame and reports a connection success instruction to the upper computer software;
after the connection is successful, the STA periodically sends a 'synchronous frame' for synchronizing the controller reading module, and after the controller reading module receives the synchronous frame each time, the controller reading module and the STA carry out clock synchronization and keep a connection state;
at the moment, after the connection is established, standard protocol messages can be sent by upper computer software to realize data interaction with CCO or STA.
Specifically, when data interaction is carried out, the upper computer software transparently transmits a data reading instruction to the operation and maintenance reading controller, the operation and maintenance reading controller sends the data reading instruction to the STA, the STA generates a message instruction according to the data reading instruction and sends the message instruction to the operation and maintenance reading controller, and the operation and maintenance reading controller uploads the message instruction to the upper computer software to complete one service operation.
In some embodiments of the present application, the communication protocol followed by the STA may be in 645 format or 698 format. And when the communication rule is about 645 formats, the copy controller extracts 645 frames from the downlink message of the upper computer and sends the 645 frames to the corresponding STA. And after receiving the response message of the STA, framing again, and uploading to an upper computer after meeting the requirement of the operation and maintenance copy controller for expanding the frame format. At this time, the format of the uplink data unit of the upper computer is a standard 645 message (conforming to the protocols DL/T645-.
When the communication specification is about 698 format, the copy controller extracts 698 frame from the downlink message of the upper computer and sends to corresponding STA. And after receiving the response message of the STA, framing again, and uploading to an upper computer after meeting the requirement of the operation and maintenance copy controller for expanding the frame format. At this time, the format of the upper computer downlink data unit is a standard 698 message (conforming to the DL/T698.45 protocol), and the format of the copy controller uplink data unit is also a standard 698 message (conforming to the DL/T698.45 protocol).
Through the steps, the communication equipment adopting different high-speed power line carrier schemes can be debugged by using one control end device.
In some embodiments of the application, after the software command of the upper computer is initiated in the connection process of the whole system, the copy controller and the CCO and STA on the power line perform automatic interactive connection through the HPLC protocol, and after the connection is successful, the upper computer receives the confirmation frame command, and at this time, the required operation and maintenance information can be acquired and set, so that the debugging purpose is completed.
The whole system adopts a uniform protocol standard, is realized under the same frame, can be compatible with the connection and information reading of equipment of different HPLC scheme manufacturers, and realizes intercommunication operation on the aspect of operation and maintenance. By the protocol format of the upper computer and the copy controller defined in the embodiment of the application, the extended HPLC protocol is used for completing the connection of the copy controller with CCO and STA on a power line. The whole meter reading process of reading CCO and STA data by connecting the reading controller through the upper computer software is completed through the connection mode, and the extended HPLC power line protocol is supported by the STA and the CCO, so that interconnection, intercommunication and debugging of the reading controller can be realized, and further the operation and maintenance debugging system of high-speed carrier intercommunication is realized.
Meanwhile, the protocol framework in the application completely conforms to the HPLC protocol and is completely compatible with the original protocol.
Through the steps, the purpose of connecting one control end device and the communication device adopting different protocols and telling the carrier communication schemes is achieved, the technical effect that the control end device acquires the operating conditions of the communication devices adopting different protocols and telling the carrier communication schemes is achieved, and the technical problem that the communication devices adopting different high-speed power line carrier schemes cannot be debugged by using one control end device due to the fact that no unified communication protocol exists is solved.
Example 2
In accordance with an embodiment of the present invention, there is provided another method embodiment of an operation and maintenance debugging method, it should be noted that the steps illustrated in the flowchart of the figure may be performed in a computer system such as a set of computer executable instructions, and that although a logical order is illustrated in the flowchart, in some cases, the steps illustrated or described may be performed in an order different than that described herein.
Fig. 5 is another operation and maintenance debugging method according to an embodiment of the present invention, as shown in fig. 5, the method includes the following steps:
step S502, the control end equipment and the copy controller adopt a target communication protocol to establish connection;
in some embodiments of the application, after the upper computer is connected with the copying controller, the upper computer sends a network search instruction to the copying controller, and the interaction between the upper computer and the copying controller conforms to a protocol frame format of the following table, and at least includes the following fields: the data unit transmission method comprises a start symbol, an end symbol, a target address, a source address, a command code, a control word, a length, a data field length and a checksum, wherein the start symbol and the end symbol are used for informing a data receiving device of the start and the end of a data unit transmission process, the target address is the address of a receiving device of a data unit, the source address is the address of a sending device of the data unit, the command code is used for determining the type of functions which need to be executed by a copy controller of an upper computer, the control word is used for determining that the data unit is a transmission operation instruction or a reply operation instruction, the length is the total length of a data packet, the data field is used for indicating the operation instruction of the sending device of the data packet to the receiving device of the data packet, the data field length is the number of bytes of the operation instruction, and the checksum is the total number of bytes of the operation instruction and the checksum.
And at the moment, the copy controller is connected to the power line, monitors the beacon frame of the power line according to an HPLC protocol, analyzes the obtained beacon through a software protocol by monitoring for a period of time to obtain network identifications and MAC addresses of all CCOs on the power line, and reports the result to an upper computer.
In some embodiments of the present application, respective MAC address allocation conditions of the upper computer, the copy controller, and the target device are shown in the following table:
node type
MAC address allocation
Upper computer
01:FF:FF:FF:FF:FF
Copy controller
02:FF:FF:FF:FF:FF
CCO module
Host node address
STA module
Electric meter address
As can be seen from the above table, the MAC address of the host computer starts with 01, and the MAC address of the copy controller starts with 02. In some embodiments of the present application, the CCO module and the STA module are typically installed on other power devices, where the CCO module is installed on a concentrator, a MAC address of the concentrator is a host node address, and the STA is typically installed on an electric meter. Therefore, the address of the host node can be used as the address of the CCO module, and the address of the electric meter can be used as the address of the STA module.
Step S504, after the connection is established, a first control instruction is issued to the copy controller, wherein the first control instruction is at least used for instructing the copy controller to search for a target communication device in the plurality of communication devices by adopting a target communication protocol, and establishing a communication relationship with the target communication device in the plurality of communication devices based on the target communication protocol, and the plurality of communication devices are communication devices adopting different high-speed power line carrier schemes.
Specifically, the process of searching for the target communication device is a process of determining the target communication device from the plurality of communication devices by the copy controller.
In some embodiments of the present application, under a target communication protocol, after receiving a first control instruction, a copy controller searches for a plurality of communication devices, and establishes a communication relationship with the searched target communication devices through a power line, including: the method comprises the steps that a copy controller monitors a beacon frame sent by each communication device in a plurality of communication devices through a power line, and determines the address of each communication device according to the beacon frame, wherein the beacon frame at least comprises address information and a working frequency band of each communication device; after monitoring the beacon frame, the copying controller uploads the address information and the working frequency band of each communication device to the control end and receives a connection instruction issued by the control end, wherein the connection instruction is at least used for determining a target communication device in the plurality of communication devices and indicating that the copying controller is connected with the target communication device; after receiving the connection instruction, the copy controller sends a search frame to each communication device through the power line, wherein the search frame carries the address of the target communication device; after receiving the search frame, the target communication equipment sends a synchronization frame through a power line at a fixed frequency; and the copy controller establishes a connection relation with the target communication equipment through the power line according to the synchronous frame and sends a confirmation frame to the control end, wherein the confirmation frame is used for informing the control end, and the copy controller is successfully connected with the target communication equipment.
In some embodiments of the application, after receiving the synchronization frame, the copy controller configures network information the same as the synchronization frame, and reports a connection success instruction to the upper computer software; and after the connection is successful, the CCO or the STA can also periodically send a 'synchronous frame' for synchronizing the controller copying module, and after the controller copying module receives the synchronous frame each time, the controller copying module and the CCO or the STA carry out clock synchronization to keep a connection state. At the moment, after the connection is established, standard protocol messages can be sent by upper computer software to realize data interaction with CCO or STA.
Specifically, as shown in fig. 2, the process of establishing connection between the upper computer software and the terminal collection device (CCO) and the electric energy meter (STA) through the copy controller is as follows:
the upper computer equipment running the upper computer software issues a network search instruction, namely a first control instruction, to the copying controller, the copying controller starts to monitor a beacon frame in an HPLC (high speed Power line Carrier) channel after receiving the instruction, the copying controller uploads the MAC address and working frequency band information of CCO or STA carried in the monitored beacon frame to the upper computer software, and if a plurality of CCO or STA equipment exist on a power line, all the monitored equipment information can be displayed on the upper computer software at the moment.
The operation and maintenance personnel can select one CCO or STA through the search result displayed by the upper computer software and then issue a network connection instruction. After the upper computer software issues a network connection instruction, the copy controller sends a search frame on each frequency band to search a target site, wherein the search frame carries an MAC address of a CCO (central control element) or STA (station); the data unit format of the network search frame is shown in the following table:
the downlink data unit format of the upper computer is as follows:
the copy controller uplink data unit format:
data content
Remarks for note
Data format
Number of bytes
Pattern identification
Connection mode designated by downlink message
BIN
1
Switching results
1 indicates success
BIN
1
In some embodiments of the present application, as shown in the following table, the search frame at least includes the following fields: a target site address, a STEI (source Terminal Equipment Identifier), a reserved frame type, wherein the target site address is an address of the target communication Equipment, the STEI is an Equipment Identifier of the copy controller, the reserved field is a reserved field for function extension, and the extended frame type is used for determining an extended function type.
In some embodiments of the present application, under the target communication protocol, a protocol unit format of the synchronization frame is as shown in the following table, and includes the following fields: the method comprises the steps of time stamp, STEI, reserving and expanding frame types, wherein the time stamp is a network clock for CCO and an accessed STA node, and is a local clock value for an unaccessed STA; the STEI is the TEI address (namely equipment identification) of the module to be connected, and the STEI of the STA module which is not accessed to the network is 0; the reserved field is used for function extension, and the extension frame type is used for determining the extended function type.
In some embodiments of the application, the upper computer specifies to issue a network connection instruction through the reported CCO information, the copy controller starts to send a search frame message to the power line, and the CCO and the STA respond to the synchronization frame after searching for the search frame. The CCO and the STA need to support functions of receiving, analyzing, processing and sending a synchronization frame for the search frame, where the search frame and the synchronization frame are both HPLC protocol link layer extended frame protocols and are implemented by extending a selective acknowledgement frame defined in the Q/GDW11612.42 standard.
In some embodiments of the application, after the control end device issues the first control instruction to the copy controller, the control end device may further send a third control instruction to the copy controller, where the third control instruction is at least used to instruct the copy controller to obtain the operation data from the target communication device and upload the operation data to the control end.
Specifically, after receiving the third control instruction, the copy controller sends a second control instruction to the target communication device.
In some embodiments of the present application, after establishing the communication relationship, a specific process of sending, by the copy controller, the second control instruction to the target communication device includes: and the copy controller sends an application layer message to the target communication equipment, wherein the application layer message is used for acquiring the running information of the target communication equipment and indicating the target communication equipment to adjust the running state.
The general message format of the application layer message is as follows, specifically, the application layer general message at least includes the following fields: the device comprises a message port number, a message ID and a message control word, wherein the message port number is used for indicating the target communication equipment to adjust the operation state, and the message ID is used for acquiring the operation information.
Domain
Number of bytes
Bit position
Domain size (bit)
Message port number
0
0-7
8
Message ID
1-2
0-15
16
Message control word (default is 0)
3
0-7
8
Specifically, the partial content and values of the packet ID are shown in the following table:
message ID
Means of
Message port number
0x0001
Concentrator initiative meter reading
0x11
0x0040
Message ID extended between HPLC operation and maintenance copy controller-CCO and STA
0x11
Example 3
According to an embodiment of the present invention, a system embodiment of an operation and maintenance debugging system is provided.
Fig. 6 is an operation and maintenance debugging system according to an embodiment of the present invention, as shown in fig. 6, the operation and maintenance debugging system includes a control-end device 60, a transcriber 62, a plurality of communication devices 64, and the control-end device 60, the transcriber 62, and the transcriber 62 and the plurality of communication devices 64 are all connected by a target communication protocol, where the control-end device 60 is configured to send a first control instruction to the transcriber 62, where the first control instruction at least is used to instruct the transcriber 62 to search for a target communication device 64 in the plurality of communication devices 64 and establish a communication relationship with the target communication device 64 in the plurality of communication devices 64, and the plurality of communication devices 64 are communication devices adopting different high-speed power line carrier schemes; the copy controller 62 is configured to search for a target communication device 64 after receiving the first control instruction, and establish a communication relationship with the searched target communication device 64 through a power line, where the number of the target communication devices 64 is at least one; and sending a second control instruction to the target communication device 64 through the power line using the target communication protocol, wherein the second control instruction is at least used for acquiring operation data of the target communication device 64, wherein the operation data is at least used for determining an operation condition of the target communication device 64.
The control end device 60 may also be referred to as an upper computer, the upper computer may be a computer device running upper computer software, or a mobile end device running an upper computer program, and the communication device includes a CCO (Central Coordinator terminal acquisition device) 640 and an STA (Station electric energy meter) 642. Specifically, the control end device and the copy controller may be connected through a wireless network, a wired network, or a 232 serial port, and the connection mode is not limited. And the copy controller and the communication equipment are directly connected and communicated through a power line.
In some embodiments of the present application, a complete flow of the operation and maintenance debugging system is shown in fig. 3:
firstly, the application defines a communication protocol between the upper computer (namely, the control end device 60) and the copy controller 62, and mainly unifies the technical standard of connection between the upper computer (namely, the control end device 60) and the copy controller 62, namely, the communication protocol. And meanwhile, link layer commands are expanded under an HPLC protocol framework, communication protocols of the copy controller 62, the CCO640 and the STA642 on a power line are unified, and compatible communication of products of different manufacturers is realized on the basis that the CCO640 and the STA642 support the expansion protocols.
Network search instructions are issued through upper computer software, the copy controller 62 starts to monitor beacon frames in an HPLC channel after receiving the instructions, and uploads MAC addresses and working frequency band information of CCO640 carried in the monitored beacon frames to the upper computer software, if a plurality of CCO devices 640 exist on a power line, all the monitored device information can be displayed on the upper computer software at the moment, wherein the beacon frames are management messages which are sent by the CCO640 or STA642 and carry network management and maintenance information and are used for a specific purpose, beacons sent by the CCO640 are central beacons, beacons sent by agents are agent beacons, and beacons sent by the STA642 are found beacons;
and selecting one CCO640 from the search results displayed by the upper computer software, and issuing a network connection instruction. After the upper computer software issues a network connection instruction, the copy controller sends a search frame on each frequency band to search a target site, wherein the search frame carries the MAC address of the CCO640 of the target site;
after receiving the search frame, the CCO640 replies a synchronization frame and sends the synchronization frame at fixed intervals, and when the CCO640 replies the synchronization frame, the synchronization frame carries necessary network information;
after receiving the synchronization frame, the copy controller 62 configures the network information same as the synchronization frame, and reports a connection success instruction to the upper computer software;
after the connection is successful, the CCO640 periodically sends a "synchronization frame" for synchronizing the copy controller 62, and after the copy controller 62 receives the synchronization frame each time, the clock synchronization is performed with the CCO640 to maintain the connection state;
at this time, after the connection is established, standard protocol messages can be sent by the software of the upper computer 60 to realize data interaction with the CCO640 or the STA 642.
Specifically, when data interaction is performed, software running in the upper computer 60 sends a "CCO transparent transmission instruction" to the operation and maintenance copy controller 62, the operation and maintenance copy controller 62 sends the "CCO instruction" to the CCO640, the CCO640 sends a "CCO response instruction" to the operation and maintenance copy controller, and the operation and maintenance copy controller transmits the "CCO response instruction" to the upper computer software, so that a service operation task is completed.
The data format of the downlink data volume and the data format of the uplink data volume of the upper computer are shown in the following table, wherein the downlink data volume is data issued by the upper computer 60 to the copying controller, and the uplink data volume is data uploaded by the copying controller 62 to the upper computer 60:
data content
Data format
Number of bytes
Transparently transferred data content
HEX
n
The format of the uplink and downlink messages of the operation and maintenance copy controller 62 and the CCO640 is shown in the following table, where the uplink message is a message that is uploaded to the operation and maintenance copy controller 62 by the CCO640, and the downlink message is a message that is issued to the CCO640 by the operation and maintenance copy controller 62:
domain
Number of bytes
Bit position
Domain size (bit)
Type of protocol
0
0-7
8
Message length
1-2
0-15
16
Message content
3-N
It should be noted that the type of the above protocol is defaulted to 0, which represents the Q/GDW1376.2 protocol; when the protocol type is 01, the current protocol type is a custom protocol or other standby protocols. The message content is consistent with the specification in Q/GDW 1376.2-2013.
When the target communication device is the STA642, as shown in fig. 4, the operation and maintenance debugging system has the following work flow:
issuing a network search instruction through the upper computer 60 software, starting monitoring a beacon frame in an HPLC channel after the copy controller 62 receives the instruction, uploading MAC (media access control) addresses and working frequency band information of the STAs carried in the monitored beacon frame to the upper computer 60 software by the copy controller 62, and displaying all the monitored equipment information on the upper computer 60 software if a plurality of STA equipment 642 exist on a power line;
and selecting one STA642 from the search results displayed by the software of the upper computer 60, and issuing a network connection instruction. After the software of the upper computer 60 issues a network connection instruction, the copy controller 62 sends a search frame on each frequency band to search a target site, wherein the search frame carries an MAC address of an STA (station) of the target site;
after receiving the search frame, the STA642 replies a synchronization frame and sends the synchronization frame at a fixed interval, and when the STA642 replies the synchronization frame, the synchronization frame carries necessary network information;
after receiving the synchronization frame, the copy controller 62 configures the network information same as the synchronization frame, and reports a connection success instruction to the upper computer 60 software;
after the connection is successful, the STA642 periodically sends a 'synchronization frame' for synchronizing the copy controller 62, and after the copy controller 62 receives the synchronization frame each time, the clock synchronization is carried out with the STA642 to keep the connection state;
at this time, after the connection is established, standard protocol messages can be sent by the upper computer software to realize data interaction with the CCO640 or the STA 642.
Specifically, when data interaction is performed, software running in the upper computer 60 transparently transmits the data reading instruction to the operation and maintenance reading controller 62, the operation and maintenance reading controller 62 transmits the data reading instruction to the STA642, the STA642 generates a message instruction according to the data reading instruction and transmits the message instruction to the operation and maintenance reading controller 62, and the operation and maintenance reading controller 62 uploads the message instruction to the upper computer 60 software, so that one service operation is completed.
In some embodiments of the present application, the communication protocol followed by the STA642 may be in 645 format or 698 format. When the communication rule is about 645 formats, the copy controller extracts 645 frames from the downlink message of the upper computer and sends the 645 frames to the corresponding STA 642. After receiving the response message of the STA642, framing is performed again, and the frame format is extended by the operation and maintenance copy controller 62 and then uploaded to the upper computer 60. At this time, the format of the uplink data unit of the upper computer is a standard 645 message (conforming to the DL/T645-2007 protocol, the DL/T645-.
When the communication specification is about 698 format, the copy controller 62 extracts 698 frames from the downlink message of the upper computer and sends the 698 frames to the corresponding STA 642. After receiving the response message of the STA642, framing is performed again, and the frame format is extended by the operation and maintenance copy controller 62 and then uploaded to the upper computer 60. At this time, the format of the downlink data unit of the upper computer 60 is a standard 698 message (conforming to the DL/T698.45 protocol), and the format of the uplink data unit of the copy controller 62 is also a standard 698 message (conforming to the DL/T698.45 protocol).
According to an embodiment of the present application, there is further provided a nonvolatile storage medium, where the nonvolatile storage medium includes a stored program, and when the program runs, the apparatus where the nonvolatile storage medium is located is controlled to execute the following operation and maintenance debugging method: the method comprises the steps that a copy controller and control end equipment establish connection through a target communication protocol, and after the connection is established, a first control instruction from the control end equipment is received, wherein the first control instruction is at least used for indicating the copy controller to search for target communication equipment in a plurality of communication equipment and establish a communication relation with the target communication equipment in the plurality of communication equipment, and the plurality of communication equipment are communication equipment adopting different high-speed power line carrier schemes; after receiving the first control instruction, the copy controller searches for target communication equipment and establishes a communication relationship with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one; after the communication relation is established, the copy controller sends a second control instruction to the target communication equipment through the power line by adopting a target communication protocol, wherein the second control instruction is at least used for acquiring the operating data of the target communication equipment, and the operating data is at least used for determining the operating condition of the target communication equipment.
According to an embodiment of the present application, there is further provided a processor, where the processor is configured to execute a program, where the program executes the following operation and maintenance debugging method: the method comprises the steps that a copy controller and control end equipment establish connection through a target communication protocol, and after the connection is established, a first control instruction from the control end equipment is received, wherein the first control instruction is at least used for indicating the copy controller to search for target communication equipment in a plurality of communication equipment and establish a communication relation with the target communication equipment in the plurality of communication equipment, and the plurality of communication equipment are communication equipment adopting different high-speed power line carrier schemes; after receiving the first control instruction, the copy controller searches for target communication equipment and establishes a communication relationship with the searched target communication equipment through a power line, wherein the number of the target communication equipment is at least one; after the communication relation is established, the copy controller sends a second control instruction to the target communication equipment through the power line by adopting a target communication protocol, wherein the second control instruction is at least used for acquiring the operating data of the target communication equipment, and the operating data is at least used for determining the operating condition of the target communication equipment.
The above-mentioned serial numbers of the embodiments of the present application are merely for description and do not represent the merits of the embodiments.
In the above embodiments of the present application, the descriptions of the respective embodiments have respective emphasis, and for parts that are not described in detail in a certain embodiment, reference may be made to related descriptions of other embodiments.
In the embodiments provided in the present application, it should be understood that the disclosed technology can be implemented in other ways. The above-described embodiments of the apparatus are merely illustrative, and for example, the division of the units may be a logical division, and in actual implementation, there may be another division, for example, multiple units or components may be combined or integrated into another system, or some features may be omitted, or not executed. In addition, the shown or discussed mutual coupling or direct coupling or communication connection may be an indirect coupling or communication connection through some interfaces, units or modules, and may be in an electrical or other form.
The units described as separate parts may or may not be physically separate, and parts displayed as units may or may not be physical units, may be located in one place, or may be distributed on a plurality of units. Some or all of the units can be selected according to actual needs to achieve the purpose of the solution of the embodiment.
In addition, functional units in the embodiments of the present invention may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.
The integrated unit, if implemented in the form of a software functional unit and sold or used as a stand-alone product, may be stored in a computer readable storage medium. Based on such understanding, the technical solution of the present invention may be embodied in the form of a software product, which is stored in a storage medium and includes instructions for causing a computer device (which may be a personal computer, a server, or a network device) to execute all or part of the steps of the method according to the embodiments of the present invention. And the aforementioned storage medium includes: a U-disk, a Read-Only Memory (ROM), a Random Access Memory (RAM), a removable hard disk, a magnetic or optical disk, and other various media capable of storing program codes.
The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.