CN114629811A - Operation monitoring method for industrial Ethernet communication system - Google Patents
Operation monitoring method for industrial Ethernet communication system Download PDFInfo
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- H—ELECTRICITY
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- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
- H04L43/08—Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters
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- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L41/00—Arrangements for maintenance, administration or management of data switching networks, e.g. of packet switching networks
- H04L41/06—Management of faults, events, alarms or notifications
- H04L41/0654—Management of faults, events, alarms or notifications using network fault recovery
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L43/00—Arrangements for monitoring or testing data switching networks
- H04L43/04—Processing captured monitoring data, e.g. for logfile generation
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L63/00—Network architectures or network communication protocols for network security
- H04L63/04—Network architectures or network communication protocols for network security for providing a confidential data exchange among entities communicating through data packet networks
- H04L63/0428—Network architectures or network communication protocols for network security for providing a confidential data exchange among entities communicating through data packet networks wherein the data content is protected, e.g. by encrypting or encapsulating the payload
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- H04L69/00—Network arrangements, protocols or services independent of the application payload and not provided for in the other groups of this subclass
- H04L69/04—Protocols for data compression, e.g. ROHC
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04Q—SELECTING
- H04Q9/00—Arrangements in telecontrol or telemetry systems for selectively calling a substation from a main station, in which substation desired apparatus is selected for applying a control signal thereto or for obtaining measured values therefrom
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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- H04Q2209/00—Arrangements in telecontrol or telemetry systems
- H04Q2209/40—Arrangements in telecontrol or telemetry systems using a wireless architecture
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
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Abstract
The invention discloses an operation monitoring method for an industrial Ethernet communication system, which is used for solving the problems that the prior art can not carry out operation monitoring on an industrial Ethernet, has the defect that a network node has uncertain queuing delay, can not meet the requirement of industrial process control on real-time performance and can not send information; the operation information is divided into a plurality of monitoring data packets by the data analysis module, the monitoring data packets are sent to the corresponding monitoring analysis end to be analyzed so as to obtain the operation result fed back by the monitoring analysis end, the operation state of the network node is analyzed by the operation result, so that when the network node breaks down, corresponding workers can be timely notified to maintain the network node, and meanwhile, when the channel of the network node is in a busy state, wireless transmission can be carried out through the intelligent terminal of the corresponding transmission worker, so that the timeliness of information transmission is improved.
Description
Technical Field
The invention relates to industrial Ethernet communication operation monitoring, in particular to an operation monitoring method for an industrial Ethernet communication system.
Background
Industrial ethernet is a powerful regional and cellular network based on IEEE802.3 and provides a way to seamlessly integrate into the new multimedia world, the wide applications offered by intranets, extranets and the internet, not only already entering the office field, but also in production and process automation;
then, a media access control mechanism of CSMA/CD is adopted in the traditional industrial Ethernet, each node adopts BEB algorithm to process conflict, the defect that queuing delay is uncertain is caused, each network node needs to obtain the sending right of an information packet through competition, the nodes monitor a channel during communication, information can be sent only when the channel is found to be idle, and waiting is needed if the channel is busy, so that the requirement of industrial process control on real-time performance cannot be met, and even when the communication is busy, the information cannot be sent;
in view of the above technical drawbacks, a solution is proposed.
Disclosure of Invention
The invention aims to solve the problems that the prior art cannot monitor the operation of the industrial Ethernet, network nodes have the defect of uncertain queuing delay, the requirement of industrial process control on real-time performance cannot be met, and information cannot be sent.
The purpose of the invention can be realized by the following technical scheme:
an operation monitoring method for an industrial ethernet communication system, the method comprising:
acquiring the operation information of all network nodes in the industrial Ethernet communication system through a data acquisition module; the operation information comprises the temperature, the current and the channel idle state of the network node during operation and the name of the industrial equipment correspondingly connected with the network node;
dividing the operation information into a plurality of monitoring data packets through a data analysis module, simultaneously sending an analysis request signaling to a database to acquire terminal parameters fed back by the database, processing the terminal parameters, and sending the monitoring data packets to corresponding monitoring analysis terminals for analysis to obtain operation results fed back by the monitoring analysis terminals; the terminal parameters comprise the position, the running value and the terminal base value of the monitoring analysis terminal;
processing the operation result, and feeding back the operation result to the first processing unit for processing operation when the operation result is the first result; when the operation result is a second result, feeding back to the second processing unit for processing operation; when the operation result is a third result, no operation is performed; when the first processing unit receives the first result, the first processing unit sends the first result to the intelligent terminal of the corresponding worker; when receiving the second result, the second processing unit sends the second result and the check code to the intelligent terminal of the transmission personnel and sends an encrypted signaling to the corresponding network node; the encryption signaling comprises an encryption instruction and a check code of a transmission person;
as a preferred embodiment of the present invention, the specific process of the data analysis module dividing the operation information into a plurality of monitoring data packets is as follows: compressing the operation information of the same network node to obtain an information compression packet, and counting the number of the information compression packets; equally dividing the number of the information compression packets into a plurality of parts according to the preset distribution number, and carrying out recompression on each part of the information compression packets to obtain monitoring data packets;
as a preferred embodiment of the present invention, the process of processing the terminal parameter by the data analysis module is as follows: calculating the distance between the position of the monitoring analysis end and the position of the data analysis module to obtain an information transmission distance, normalizing the transmission distance, the motion value and the terminal value, and taking the normalized values of the transmission distance, the motion value and the terminal value as DF1, DF2 and DF 3; using formulasObtaining a total value FZ of a monitoring analysis end; wherein qb1, qb2 and qb3 are all preset weighting factors; sequencing the monitoring and analyzing terminals from large to small according to the total value of the sub-groups, sequentially selecting the monitoring and analyzing terminals from front to back, wherein the number of the monitoring and analyzing terminals is equal to that of the monitoring data packets, and sequentially sending the monitoring data packets to the selected monitoring and analyzing terminals;
as a preferred embodiment of the present invention, the monitoring and analyzing end receives the monitoring data packet, decompresses the monitoring data packet to obtain corresponding operation information, and analyzes the operation information to obtain an operation result, specifically:
analyzing the temperature, the current and the channel idle state, and comparing the temperature and the current with a corresponding preset temperature range and a preset current range respectively; generating a first result when the temperature is not within a preset temperature range or the current is not within a preset current range; the first result comprises a network node name, a number, a position and a viewing processing instruction; when the temperature and the current are both in the corresponding preset temperature range and the preset current range, acquiring the idle state of the channel, and when the channel is in a busy state, generating a second result, wherein the second result comprises the name, the number, the position and a data forwarding instruction of the network node; when the temperature and the current are both in the corresponding preset temperature range and the preset current range and the channel is in an idle state, generating a third result, wherein the third result is a normal instruction;
as a preferred embodiment of the present invention, the data analysis module further includes a time acquisition unit; the time acquisition unit is used for acquiring a first time when the monitoring analysis end receives the monitoring data packet and a second time when the operation result is fed back, and analyzing the total times of the monitoring data packet by the monitoring analysis end and sending the total times to the database;
the database further comprises a motion processing unit; the motion processing unit is used for analyzing and monitoring the motion value of the analysis end, and the specific analysis process is as follows:
acquiring all the first moment, the second moment and the total analysis times of a monitoring analysis end, and advancing the first moment and the second momentCalculating the line time difference to obtain the single analysis duration of the monitoring analysis end; summing all the single analysis durations and averaging to obtain an analysis average duration; all single analysis durations were labeled DTi, i =1,2, … …, n; n is the total number of single analysis time length, and the value is a positive integer; setting the analysis mean value duration as JT and the total analysis times as ZT; extracting the values of the time length of single analysis, the time length of the mean value of analysis and the total times of analysis, substituting the values into a formulaObtaining a running value DF2 of the monitoring analysis end, wherein ds1, ds2 and ds3 are all preset weight ratios;
as a preferred embodiment of the present invention, the database further includes a registration processing unit, and the registration processing unit is configured to submit terminal data through the computer terminal by a worker for registration, store and analyze the terminal data successfully registered, mark the computer terminal successfully registered as a monitoring analysis end, and establish communication connection with the monitoring analysis end, where the terminal data includes a model, a location, and a communication address of the computer terminal; the specific process of analyzing the terminal data is as follows: sending an information acquisition signaling to a monitoring and analyzing end to acquire the CPU utilization rate of the monitoring and analyzing end and the physical memory occupied by the active process, and marking the numerical values of the CPU utilization rate and the physical memory occupied by the active process as WY1 and WY2 in advance; setting all computer terminal models to correspond to a preset model value, matching the models of the computer terminals in the terminal data with all the computer terminal models to obtain corresponding preset model values, and marking the corresponding preset model values as WY 3; obtaining an end group value DF3 of a monitoring analysis end by using a formula DF3= WY 3X 1.3/(WY 1X 0.74+ WY2+ 0.86);
as a preferred embodiment of the present invention, a specific process of sending the second result to the intelligent terminal of the transmission person by the second processing unit is as follows: sending a person acquisition signaling to a database to acquire all registrars corresponding to the network node within a preset range, and sending a data transmission signaling to the registrars to acquire data transmission results of the registrars; when the data transmission result is a confirmation result, marking the registered person as a primary selection person, calculating the distance difference between the position of the primary selection person and the position of the network node to obtain a person node distance, marking the primary selection person with the minimum person node distance as a transmission person, and generating a check code of the transmission person; and after the transmission personnel receive the second result and the check code through the intelligent terminal, the second result and the check code arrive at the position corresponding to the network node and are verified with the network node, after the verification is successful, the network node encrypts the collected industrial equipment information to obtain an information compression packet and sends the information compression packet to the intelligent terminal of the transmission personnel in a wireless manner, and the transmission personnel send the information compression packet to the corresponding remote management terminal through the intelligent terminal.
Compared with the prior art, the invention has the beneficial effects that:
the invention collects the operation information of all network nodes in the industrial Ethernet communication system through the data collection module, divides the operation information into a plurality of monitoring data packets through the data analysis module, sends the monitoring data packets to the corresponding monitoring analysis end for analysis to obtain the operation result fed back by the monitoring analysis end, analyzes the operation state of the network nodes through the operation result, so that when the network nodes are in fault, corresponding workers can be timely notified to maintain the network nodes, and meanwhile, when the channel of the network nodes is in a busy state, wireless transmission can be carried out through the intelligent terminal corresponding to the transmission personnel, thereby improving the timeliness of information transmission.
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In order to facilitate understanding for those skilled in the art, the present invention will be further described with reference to the accompanying drawings.
FIG. 1 is a functional block diagram of the present invention;
fig. 2 is a schematic block diagram of the database internal part of the present invention.
Detailed Description
The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood 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.
Referring to fig. 1, an operation monitoring method for an industrial ethernet communication system includes the following steps:
s1: the data acquisition module acquires the operation information of all network nodes in the industrial Ethernet communication system and sends the operation information to the data analysis module; the operation information comprises the temperature, the current and the channel idle state of the network node during operation and the name of the industrial equipment correspondingly connected with the network node; the network nodes comprise an industrial Ethernet electrical switch, an industrial Ethernet optical fiber switch and the like; three channel idle detection modes including Energy Detection (ED), carrier detection (CS) and energy carrier hybrid detection are acquired through channel state;
s2: the data analysis module receives the operation information of all network nodes and then processes the operation information, and specifically comprises the following steps:
s21: compressing the operation information of the same network node to obtain an information compression packet, and counting the number of the information compression packets; equally dividing the number of the information compression packets into a plurality of parts according to the preset distribution number, and carrying out recompression on each part of the information compression packets to obtain monitoring data packets;
s22: meanwhile, sending an analysis request signaling to a database to acquire terminal parameters fed back by the database, wherein the terminal parameters comprise the position, the running value and the end base value of a monitoring analysis end; processing the terminal parameters, specifically:
s221: calculating the distance between the position of the monitoring analysis end and the position of the data analysis module to obtain an information transmission distance;
s222: normalizing the transmission distance, the motion value and the terminal value, and taking the normalized values of the transmission distance, the motion value and the terminal value as DF1, DF2 and DF 3;
s223: using formulasObtaining a total value FZ of a monitoring analysis end; wherein qb1, qb2 and qb3 are all preset weight factors, and the values of qb1, qb2 and qb3 are 1.12, 1.54 and 1.3; the total score is used for evaluating and monitoringThe analysis end analyzes the numerical value of the probability of the monitoring data packet; the smaller the transmission interval, the larger the value of the motion score and the value of the terminal group, the larger the total score value is, and the probability that the monitoring analysis end processes the monitoring data packet is higher;
s23: sequencing the monitoring and analyzing terminals from large to small according to the total value of the sub-groups, sequentially selecting the monitoring and analyzing terminals from front to back, wherein the number of the monitoring and analyzing terminals is equal to that of the monitoring data packets, and sequentially sending the monitoring data packets to the selected monitoring and analyzing terminals; the monitoring analysis end receives the monitoring data packet, decompresses the monitoring data packet to obtain corresponding operation information, and analyzes the operation information to obtain an operation result, which specifically comprises the following steps: analyzing the temperature, the current and the channel idle state, and comparing the temperature and the current with a corresponding preset temperature range and a preset current range respectively; generating a first result when the temperature is not within a preset temperature range or the current is not within a preset current range; the first result comprises a network node name, a number, a position and a viewing processing instruction; when the temperature and the current are both in the corresponding preset temperature range and the preset current range, acquiring a channel idle state, and when the channel is in a busy state, generating a second result, wherein the second result comprises a network node name, a serial number, a position and a data forwarding instruction; when the temperature and the current are both in the corresponding preset temperature range and the preset current range and the channel is in an idle state, generating a third result, wherein the third result is a normal instruction;
s3: the data analysis module processes the operation result, specifically:
when the operation result is a first result, the first processing unit sends the first result to the intelligent terminal of the corresponding worker; the staff is a registrant for correspondingly maintaining the network node;
when the operation result is a second result, feeding back to the second processing unit for processing operation; when receiving the second result, the second processing unit sends the second result and the check code to the intelligent terminal of the transmission personnel and sends an encrypted signaling to the corresponding network node; the encryption signaling comprises an encryption instruction and a check code of a transmission person; the specific process that the second processing unit sends the second result to the intelligent terminal of the transmission personnel is as follows: sending a person acquisition signaling to a database to acquire all registrars corresponding to the network node within a preset range, and sending a data transmission signaling to the registrars to acquire data transmission results of the registrars; when the data transmission result is a confirmation result, marking the registered person as a primary selection person, calculating the distance difference between the position of the primary selection person and the position of the network node to obtain a person node distance, marking the primary selection person with the minimum person node distance as a transmission person, and generating a check code of the transmission person; after receiving the second result and the check code through the intelligent terminal, the transmission personnel arrive at the position corresponding to the network node and carry out check code verification with the network node, after the verification is successful, the network node encrypts the collected industrial equipment information to obtain an information compression packet and wirelessly transmits the information compression packet to the intelligent terminal of the transmission personnel, and the transmission personnel transmit the information compression packet to the corresponding remote management terminal through the intelligent terminal;
when the operation result is a third result, no operation is performed;
the data analysis module also comprises a time acquisition unit, wherein the time acquisition unit is used for acquiring the first time when the monitoring analysis end receives the monitoring data packet, the second time when the operation result is fed back, and the total analysis times of the monitoring analysis end analyzing the monitoring data packet and sending the total analysis times to the database;
referring to fig. 2, the database further includes a sports processing unit, a registration processing unit, a personnel registration unit, and a positioning unit;
the motion processing unit is used for analyzing and monitoring the motion value of the analysis end, and the specific analysis process is as follows:
acquiring all the first moment, the second moment and the total analysis times of the monitoring and analyzing end, and calculating the time difference between the first moment and the second moment to obtain the single analysis duration of the monitoring and analyzing end; summing all the single analysis durations and averaging to obtain an analysis average duration; all single analysis durations were labeled DTi, i =1,2, … …, n; n is the total number of single analysis time length, and the value is a positive integer; setting the analysis mean value duration as JT and the total analysis times as ZT; extracting the values of the time length of single analysis, the time length of the mean value of analysis and the total times of analysis, substituting the values into a formulaObtaining a running value DF2 of the monitoring analysis end, wherein ds1, ds2 and ds3 are all preset weight ratios, and values of ds1, ds2 and ds3 are 1.71, 2.35 and 3.16 respectively;
the registration processing unit is used for submitting terminal data for registration through the computer terminal by a worker, storing and analyzing the terminal data which is successfully registered, marking the computer terminal which is successfully registered as a monitoring analysis end, and establishing communication connection with the monitoring analysis end, wherein the terminal data comprises the model, the position and the communication address of the computer terminal; the specific process of analyzing the terminal data is as follows: sending an information acquisition signaling to a monitoring and analyzing end to acquire the CPU utilization rate of the monitoring and analyzing end and the physical memory occupied by the active process, and marking the CPU utilization rate and the physical memory occupied by the active process as WY1 and WY2 in advance; setting all computer terminal models to correspond to a preset model value, matching the models of the computer terminals in the terminal data with all the computer terminal models to obtain corresponding preset model values, and marking the corresponding preset model values as WY 3; obtaining an end group value DF3 of a monitoring analysis end by using a formula DF3= WY 3X 1.3/(WY 1X 0.74+ WY2+ 0.86);
the staff registration unit is used for submitting staff information for registration through the intelligent terminal and marking the staff who successfully register as a registered staff; the registration information comprises a communication number and a personnel name of the intelligent terminal and a name responsible for maintaining a network node;
the positioning unit is used for acquiring the real-time intelligent terminal position of the registered person in real time within an allowable time range; the intelligent terminal is a mobile phone terminal;
when the industrial Ethernet communication system is used, the data acquisition module acquires the operation information of all network nodes in the industrial Ethernet communication system and sends the operation information to the data analysis module; divide into the operation information into a plurality of monitoring data package through the data analysis module, send analysis request signaling in order to obtain the terminal parameter that the database feedbacked simultaneously to the database, handle the terminal parameter, and send a plurality of monitoring data package to corresponding monitoring analysis end and carry out the analysis in order to obtain the operation result that monitoring analysis end feedbacked, the running state of network node is analyzed through the running result, so that network node when breaking down, can in time inform corresponding staff to maintain network node, when network node's channel is in busy state simultaneously, can carry out wireless transmission through the intelligent terminal that corresponds the transmission personnel, thereby improve information transmission's timeliness.
The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise form disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.
Claims (7)
1. An operation monitoring method for an industrial Ethernet communication system, the method comprising:
the method comprises the steps that operation information of all network nodes in an industrial Ethernet communication system is collected through a data collection module and sent to a data analysis module;
dividing the operation information into a plurality of monitoring data packets through a data analysis module, simultaneously sending an analysis request signaling to a database to acquire terminal parameters fed back by the database, processing the terminal parameters, and sending the monitoring data packets to corresponding monitoring analysis terminals for analysis to obtain operation results fed back by the monitoring analysis terminals;
processing the operation result, and feeding back the operation result to the first processing unit for processing operation when the operation result is the first result; when the operation result is a second result, feeding back to the second processing unit for processing operation; when the operation result is a third result, no operation is performed; when the first processing unit receives the first result, the first processing unit sends the first result to the intelligent terminal of the corresponding worker; when receiving the second result, the second processing unit sends the second result and the check code to the intelligent terminal of the transmission personnel and sends an encrypted signaling to the corresponding network node; wherein the encrypted signaling comprises an encrypted instruction and a check code of a transmission person.
2. The operation monitoring method for industrial ethernet communication system according to claim 1, wherein the specific process of the data analysis module dividing the operation information into a plurality of monitoring data packets is as follows: compressing the operation information of the same network node to obtain an information compression packet, and counting the number of the information compression packets; and equally dividing the number of the information compression packets into a plurality of parts according to the preset distribution number, and carrying out recompression on each part of the information compression packets to obtain the monitoring data packets.
3. The operation monitoring method for industrial ethernet communication system according to claim 2, wherein the process of the data analysis module processing the terminal parameters is: calculating the distance between the position of the monitoring analysis end and the position of the data analysis module to obtain an information transmission interval, and then carrying out normalization processing on the transmission interval, the motion value and the terminal value to obtain a total value of the monitoring analysis end; and sequencing the monitoring analysis ends according to the total score from large to small, sequentially selecting the monitoring analysis ends with the number equal to that of the monitoring data packets from front to back, and sequentially sending the monitoring data packets to the selected monitoring analysis ends, wherein the total score is used for evaluating the numerical value of the probability of analyzing the monitoring data packets by the monitoring analysis ends.
4. The operation monitoring method for the industrial ethernet communication system according to claim 3, wherein the monitoring and analyzing terminal receives the monitoring data packet, decompresses the monitoring data packet to obtain the corresponding operation information, and analyzes the operation information to obtain the operation result, specifically:
analyzing the temperature, the current and the channel idle state, and respectively comparing the temperature and the current with a corresponding preset temperature range and a preset current range; when the temperature is not in the preset temperature range or the current is not in the preset current range, generating a first result; the first result comprises a network node name, a number, a position and a viewing processing instruction; when the temperature and the current are both in the corresponding preset temperature range and the preset current range, acquiring a channel idle state, and when the channel is in a busy state, generating a second result, wherein the second result comprises a network node name, a serial number, a position and a data forwarding instruction; and when the temperature and the current are both in the corresponding preset temperature range and the preset current range and the channel is in an idle state, generating a third result, wherein the third result is a normal instruction.
5. The operation monitoring method for industrial ethernet communication system according to claim 1, further comprising a time acquisition unit in the data analysis module; the time acquisition unit is used for acquiring a first time when the monitoring analysis end receives the monitoring data packet and a second time when the operation result is fed back, and analyzing the total times of the monitoring data packet by the monitoring analysis end and sending the total times to the database;
the database further comprises a motion processing unit; the motion processing unit is used for analyzing and monitoring the motion value of the analysis end, and the specific analysis process is as follows: acquiring all the first moment, the second moment and the total analysis times of the monitoring and analyzing end, and calculating the time difference between the first moment and the second moment to obtain the single analysis duration of the monitoring and analyzing end; summing all the single analysis durations and averaging to obtain an analysis average duration; and processing the single analysis time length, the analysis mean value time length and the total analysis times to obtain the motion value of the monitoring analysis end.
6. The operation monitoring method for the industrial ethernet communication system according to claim 5, wherein the database further comprises a registration processing unit, the registration processing unit is used for the staff to submit the terminal data through the computer terminal for registration, store and analyze the terminal data which is successfully registered, mark the computer terminal which is successfully registered as a monitoring analysis terminal, and establish communication connection with the monitoring analysis terminal, wherein the terminal data comprises the model, the position and the communication address of the computer terminal; the specific process of analyzing the terminal data is as follows: sending an information acquisition signaling to a monitoring and analyzing end to acquire the CPU utilization rate of the monitoring and analyzing end and the physical memory occupied by the active process, and advancing the CPU utilization rate and the numerical value of the physical memory occupied by the active process; setting all computer terminal models to correspond to a preset model value, matching the models of the computer terminals in the terminal data with all the computer terminal models to obtain corresponding preset model values, and processing the CPU utilization rate, the values of the physical memory occupied by the active process and the preset model values to obtain the end value of the monitoring analysis end.
7. The operation monitoring method for the industrial ethernet communication system according to claim 1, wherein the specific process of the second processing unit sending the second result to the intelligent terminal of the transmitting person is as follows: sending a person acquisition signaling to a database to acquire all registrars corresponding to the network node within a preset range, and sending a data transmission signaling to the registrars to acquire data transmission results of the registrars; when the data transmission result is a confirmation result, marking the registered person as a primary selection person, calculating the distance difference between the position of the primary selection person and the position of the network node to obtain a person node distance, marking the primary selection person with the minimum person node distance as a transmission person, and generating a check code of the transmission person; and after the transmission personnel receive the second result and the check code through the intelligent terminal, the second result and the check code arrive at the position corresponding to the network node and are verified with the network node, after the verification is successful, the network node encrypts the collected industrial equipment information to obtain an information compression packet and wirelessly transmits the information compression packet to the intelligent terminal of the transmission personnel, and the transmission personnel transmit the information compression packet to the corresponding remote management terminal through the intelligent terminal.
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