CN113301115A - Information acquisition system for data transmission among communication devices - Google Patents
Information acquisition system for data transmission among communication devices Download PDFInfo
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- CN113301115A CN113301115A CN202110398150.2A CN202110398150A CN113301115A CN 113301115 A CN113301115 A CN 113301115A CN 202110398150 A CN202110398150 A CN 202110398150A CN 113301115 A CN113301115 A CN 113301115A
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/50—Network services
- H04L67/56—Provisioning of proxy services
- H04L67/565—Conversion or adaptation of application format or content
- H04L67/5651—Reducing the amount or size of exchanged application data
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- H—ELECTRICITY
- 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
- H04L41/0631—Management of faults, events, alarms or notifications using root cause analysis; using analysis of correlation between notifications, alarms or events based on decision criteria, e.g. hierarchy, tree or time analysis
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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
- H04L43/08—Monitoring or testing based on specific metrics, e.g. QoS, energy consumption or environmental parameters
- H04L43/0823—Errors, e.g. transmission errors
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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
- H04L43/16—Threshold monitoring
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- H—ELECTRICITY
- H04—ELECTRIC COMMUNICATION TECHNIQUE
- H04L—TRANSMISSION OF DIGITAL INFORMATION, e.g. TELEGRAPHIC COMMUNICATION
- H04L67/00—Network arrangements or protocols for supporting network services or applications
- H04L67/01—Protocols
- H04L67/10—Protocols in which an application is distributed across nodes in the network
- H04L67/1095—Replication or mirroring of data, e.g. scheduling or transport for data synchronisation between network nodes
Abstract
The invention discloses an information acquisition system and method for transmitting data among communication devices, the system comprises a transmission data acquisition and decoding module among communication devices, an identifiable initialization transmission data matching module, an update transmission data interaction marking module, an update transmission data fault diagnosis unit and an update transmission data synchronous conversion module, wherein the transmission data acquisition and decoding module among the communication devices acquires and decodes information transmitted among different communication devices, the recognizable initialized transmission data matching module collects the decoded transmission data and then analyzes and matches the transmission data, the updated transmission data interaction marking module is used for verifying the new data formed after different transmission data are matched, the updated transmission data fault diagnosis unit is used for carrying out fault troubleshooting on the transmission matching data failed in verification and analysis, and the updated transmission data synchronous conversion module is used for collecting the transmission matching data successfully verified and analyzed.
Description
Technical Field
The invention relates to the field of communication equipment, in particular to an information acquisition system for data transmission among various communication equipment.
Background
Data transmission is to transmit data from a data source to a data terminal through one or more data links according to a certain rule, and the main function of the data transmission is to realize information transmission and exchange between points. A good data transmission mode can improve the real-time performance and reliability of data transmission.
Data transmission is the communication process by which data is transferred from one place to another. Data transmission systems typically consist of a transmission channel and data circuit terminating equipment (DCE) at both ends of the channel, and in some cases, multiplexing equipment at both ends of the channel. The transmission channel may be a dedicated communication channel or may be provided by a data switching network, a telephone switching network or other types of switching networks. The input and output equipment of the data transmission system is a terminal or a computer, which is generally called Data Terminal Equipment (DTE), and the data information sent by the DTE is generally a combination of letters, numbers and symbols, in order to transmit the information, each letter, number or symbol needs to be represented by a binary code, and the basic transmission modes of the data signal are three types: baseband transmission, frequency band transmission, and digital data transmission. The baseband transmission is the transmission of a baseband data signal (a data signal output by a data terminal without modulation conversion) directly on a cable channel. In other words, baseband transmission is a transmission method that does not shift the spectrum of the baseband data signal. The frequency band transmission is to modulate a baseband data signal, shift the frequency band of the baseband data signal to a corresponding carrier frequency band, and transmit the baseband data signal (in the case of frequency band transmission, an analog signal is transmitted on a channel). Digital data transmission is the transmission of data signals using PCM channels, i.e. certain time slots of a PCM 30/32-way system.
Data acquisition, also known as data acquisition, utilizes a device to acquire data from outside the system and input it to an interface within the system. Data acquisition has been widely used in the internet and distributed fields, and the field of data acquisition has changed significantly. First, intelligent data acquisition systems in distributed control applications have been under great development both at home and abroad. Secondly, the number of bus-compatible data collection cards is increasing, as are the number of data collection systems compatible with personal computers.
At present, in data transmission of different communication devices, coincident data exists in data, but the coincident data cannot be contrasted and analyzed due to the type of the data.
Disclosure of Invention
The invention aims to provide an information acquisition system and method for data transmission among communication devices, so as to solve the problems in the prior art.
In order to achieve the purpose, the invention provides the following technical scheme:
an information acquisition system for data transmission among communication devices comprises a data acquisition and decoding module for data transmission among the communication devices, a matching module for identifiable initialized transmission data, a data updating and transmission interaction marking module, a data updating and transmission fault diagnosis unit and a data updating and transmission synchronous conversion module, wherein the data acquisition and decoding module for data transmission among the communication devices, the matching module for identifiable initialized transmission data and the data updating and transmission interaction marking module are sequentially connected through an intranet, and the data updating and transmission interaction marking module, the data updating and transmission fault diagnosis unit and the data updating and transmission synchronous conversion module are mutually connected through the intranet;
the inter-communication-equipment transmission data acquisition and decoding module is used for acquiring and decoding information transmitted among different communication equipment and monitoring the decoded transmission data, the identifiable initialized transmission data matching module is used for analyzing and matching the decoded transmission data after gathering, the updated transmission data interaction marking module is used for verifying new data formed after the different transmission data are matched and monitoring the verification results of the different matching data in real time, the updated transmission data fault diagnosis unit is used for troubleshooting the transmission matching data failed in verification and analysis of the current transmission matching data, and the updated transmission data synchronous conversion module is used for gathering the transmission matching data successfully verified and analyzed and converting the signal types when the different communication equipment requests to be looked up.
By adopting the data number scheme: the inter-communication-equipment transmission data acquisition and decoding module comprises a transmission signal type identification submodule and a transmission signal decoding data packet summarizing submodule, wherein the transmission signal type identification submodule is used for acquiring data transmitted among different communication equipment, screening and identifying the signal types of the acquired data one by one, the transmission signal decoding data packet summarizing submodule is used for summarizing the decoded data, setting a data packet used for storing the decoded transmission data, and monitoring the capacity of the data packet in real time.
By adopting the data number scheme: the recognizable initialization transmission data matching module comprises a collection transmission data coincidence rate analysis submodule and a collection transmission data matching conversion submodule, wherein the collection transmission data coincidence rate analysis submodule is used for analyzing the coincidence rate of the collected different transmission data, counting the coincidence rate of the different transmission data, sending the counting result to the collection transmission data matching conversion submodule, the collection transmission data matching conversion submodule is used for matching the coincidence rate of the transmission data which is more than or equal to 70% with the data section, the overlapped data segments are complemented and converted, the complemented and updated data segments and the original data segments are distinguished and numbered, and are set as updated data segments and original data segments, and marking the supplemented part in the data segment supplemented and updated, and sending the updated data segment and the original data segment to an update transmission data interaction marking module.
By adopting the data number scheme: the collected transmission data coincidence rate analysis submodule analyzes the collected different transmission data coincidence rates, sets the collected different transmission data, sorts the transmission data quantity of the different transmission data, and sets the sorted transmission data as f1、f2、f3、…、fn-1、fnPerforming coincidence rate analysis on the transmission data with the minimum transmission data amount, and extracting the transmission data f with the minimum transmission data amount1Setting transmission data f1Monitoring the coincidence rate with other different transmission data, and setting the transmission data f1The coincidence rate of the data with other different transmission data is respectively D1、D2、D3、…、Dn-1、DnScreening out DnMore than or equal to 40 percent of transmission data, and extracting the transmission data f1Setting a data segment overlapped with the screened transmission data to segment a certain screened transmission data, and setting the segmented transmission data segments to be Z1、Z2、Z3、…、Zn-1、ZnEach segmented transmission data segment is combined with the transmission data f1Monitoring coincidence rate, setting each subsection and transmitting data f1Has a coincidence ratio of DO1、DO2、DO3、…、DOn-1、DOnScreening out the coincidence rate DOn(ii) segmentation of data < 40%, setting of coincidence ratio DOn< 40% of the data segments marked DOx1、DOx2、DOx3、…、DO xnThe number of marked data segments is xn, the comprehensive coincidence rate of the currently screened transmission data is set to be F (D), and according to the formula:
and calculating to obtain the comprehensive coincidence rate of the currently screened transmission data, when F (D) is more than or equal to 70%, sending the transmission data to a module for collecting transmission data matching with the transformant for data processing, and when F (D) is less than 70%, analyzing the coincidence rate of the next transmission data.
By adopting the data number scheme: the updating transmission data interactive marking module comprises an updating transmission data adding and verifying submodule and an updating transmission data verifying and analyzing result real-time monitoring submodule, wherein the updating transmission data adding and verifying submodule is used for verifying the supplementary updated transmission data of the identifiable initialization transmission data matching module, verifying each supplementary updated transmission data according to an updating data segment and an original data segment respectively, sending a verification result to the updating transmission data verifying and analyzing result real-time monitoring submodule, and the updating transmission data verifying and analyzing result real-time monitoring submodule is used for judging that the original data segment is successfully verified and the updating data segment is abnormally verified, the update data segment is marked abnormally, the marked data segment is sent to an update transmission data fault diagnosis unit, and when the updated data segment and the original data segment are successfully verified, the updated data segment and the original data segment are sent to the update transmission data synchronous conversion module for storage.
By adopting the data number scheme: the failure diagnosis unit for the update transmission data comprises an update transmission data failure abnormal point judgment submodule and an update transmission data operation abnormal rate analysis submodule, wherein the update transmission data failure abnormal point judgment submodule is used for carrying out abnormal monitoring on an update data segment, extracting a data segment of a check failure in the update data segment and sending the data segment to the update transmission data operation abnormal rate analysis submodule, the update transmission data operation abnormal rate analysis submodule is used for analyzing the operation abnormal rate of the extracted abnormal data segment and judging the index of the actual operation abnormal rate, when the actual operation abnormal rate is higher than a set threshold value one, the current update data segment cannot be updated and supplemented to the original data segment, and when the actual operation abnormal rate is lower than the set threshold value one, the analysis of the cause of the abnormal failure is carried out on the current update and supplemented data segment, and after analysis, carrying out re-modification, and carrying out re-verification after modification.
By adopting the data number scheme: the synchronous conversion module for the update transmission data comprises a different communication equipment call update transmission data application submodule and a corresponding communication equipment identification signal type conversion submodule, wherein the different communication equipment call update transmission data application submodule is used for calling and applying the successfully-checked update data segment, and the corresponding communication equipment identification signal type conversion submodule is used for converting the signal type of the update data segment applied for calling, so that the adaptation with the communication equipment identification signal required for calling is realized.
A method for collecting information when data is transmitted among communication devices comprises the following steps:
s1: the method comprises the steps that a transmission data acquisition decoding module between communication devices is used for acquiring and decoding information transmitted between different communication devices, and the decoded transmission data are monitored;
s2: the recognizable initialized transmission data matching module is used for summarizing the decoded transmission data and then analyzing and matching the transmission data;
s3: the updating transmission data interaction marking module is used for verifying new data formed after different transmission data are matched, and the verification results of different matched data are monitored in real time;
s4: carrying out troubleshooting on the transmission matching data failed in verification and analysis by using an updated transmission data fault diagnosis unit, and analyzing the current transmission matching data;
s5: and summarizing the transmission matching data successfully verified and analyzed by using the updated transmission data synchronous conversion module, and converting the signal types when different communication devices request to look up.
By adopting the data number scheme: the information acquisition method further comprises the following steps:
s1-1: the transmission signal type identification submodule is used for collecting data transmitted among different communication devices, the collected data are screened and identified one by one according to signal types, the transmission signal decoding data packet summarizing submodule is used for summarizing the decoded data, a data packet used for storing the decoded transmission data is arranged, and the capacity of the data packet is monitored in real time;
s2-1: analyzing the coincidence rate of the acquired different transmission data by using an acquisition transmission data coincidence rate analysis submodule, counting the coincidence rate of the different transmission data, sending a statistical result to an acquisition transmission data matching conversion submodule, performing coincidence matching on a data segment of which the coincidence rate of the transmission data is more than or equal to 70% by using an acquisition transmission data matching conversion submodule, performing supplementary conversion on the coincident data segment, numbering the supplementary updated data segment and the original data segment in a distinguishing manner, setting the supplementary updated data segment and the original data segment as an updated data segment and an original data segment, marking a supplementary part in the supplementary updated data segment, and sending the updated data segment and the original data segment to a supplementary transmission data interaction marking module;
s3-1: the updating transmission data adding and verifying submodule is used for verifying the transmission data which can be identified and updated by the initializing transmission data matching module, each piece of transmission data which is updated and supplemented is verified according to an updating data section and an original data section respectively, the verifying result is sent to the updating transmission data verifying and analyzing result real-time monitoring submodule, the updating transmission data verifying and analyzing result real-time monitoring submodule carries out abnormal marking on the updating data section when the original data section is verified successfully and the updating data section is verified abnormally, the marked data section is sent to the updating transmission data fault diagnosis unit, and the updating data section and the original data section are sent to the updating transmission data synchronous conversion module for storage when the updating data section is verified successfully and the original data section are verified successfully;
s4-1: carrying out anomaly monitoring on the updated data segment by utilizing an updated transmission data fault anomaly point judgment submodule, extracting a data segment of a check fault in the updated data segment, sending the data segment to an updated transmission data operation anomaly rate analysis submodule, analyzing the operation anomaly rate of the extracted abnormal data segment by the updated transmission data operation anomaly rate analysis submodule, judging an index of an actual operation anomaly rate, judging that the current updated data segment cannot update and supplement the original data segment when the actual operation anomaly rate is higher than a set threshold value one, analyzing the reason of the abnormal fault of the current updated and supplemented data segment when the actual operation anomaly rate is lower than the set threshold value one, revising after analysis, and carrying out re-checking after revision;
s5-1: calling the update transmission data application sub-module by using different communication equipment to call and apply for the successfully verified update data segment, and converting the signal type of the update data segment applied for calling by using the corresponding communication equipment identification signal type conversion module to adapt to the identifiable signal of the communication equipment requested for calling.
By adopting the data number scheme: in step S4-1, the update transmission data operation anomaly rate analysis sub-module analyzes the operation anomaly rate of the extracted abnormal data segment, determines an index of an actual operation anomaly rate, determines that the current update data segment cannot update and supplement the original data segment when the actual operation anomaly rate is higher than a first set threshold, analyzes the cause of an abnormal fault for the current update and supplement data segment when the actual operation anomaly rate is lower than the first set threshold, performs re-modification after analysis, and performs re-verification after modification, and further includes the following steps:
after the update data segment is verified,extracting abnormal data segments with abnormality, re-segmenting the abnormal data segments in real time, monitoring the abnormal operation rate of each segment, and setting the abnormal rate of each segment as K1、K2、K3、…、Kn-1、KnSetting the average value of the abnormal rate of the running data of the current abnormal data segment as,Setting the incompatibility rate of the current update data segment and the original transmission data segment to be N%, wherein the operation abnormal rate and the incompatibility rate are respectively R1 and R2 in the actual data operation abnormal rate, setting the actual data operation abnormal rate of the current update data segment to be Kt, and according to a formula:
and calculating the actual data operation abnormal rate of the current updated data segment, judging that the current updated data segment cannot update and supplement the original data segment when the actual data operation abnormal rate is greater than or equal to a set threshold value one, analyzing the abnormal fault reason of the current updated and supplemented data segment when the actual data operation abnormal rate is less than the set threshold value one, revising after analysis, and rechecking after revision.
Compared with the prior art, the invention has the beneficial effects that: the invention aims to decode different data signal types, summarize and analyze data with high coincidence rate, update and supplement the data, and increase the effectiveness of data transmission;
the device comprises a transmission data acquisition and decoding module among communication equipment, an identifiable initialization transmission data matching module, an updated transmission data interaction marking module, an updated transmission data synchronization conversion module, a transmission data synchronization conversion module and a signal type conversion module, wherein the transmission data acquisition and decoding module is used for acquiring and decoding information transmitted among different communication equipment, monitoring the decoded transmission data, the identifiable initialization transmission data matching module is used for collecting the decoded transmission data and then analyzing and matching the collected transmission data, the updated transmission data interaction marking module is used for verifying new data formed after the different transmission data are matched, monitoring the verification results of the different matching data in real time, the updated transmission data failure diagnosis unit is used for troubleshooting the transmission matching data failed in verification and analysis, analyzing the current transmission matching data, and the updated transmission data synchronization conversion module is used for collecting the transmission matching data successfully verified and converting the signal type when the different communication equipment requests to be looked up.
Drawings
In order that the present invention may be more readily and clearly understood, a more particular description of the invention briefly described above will be rendered by reference to specific embodiments that are illustrated in the appended drawings.
FIG. 1 is a schematic diagram of a module structure of an information acquisition system for data transmission between communication devices according to the present invention;
FIG. 2 is a schematic diagram illustrating steps of an information collection method for data transmission between communication devices according to the present invention;
FIG. 3 is a diagram illustrating the detailed steps of an information collection method for data transmission between communication devices according to the present invention;
fig. 4 is a schematic diagram of an implementation process of the information acquisition method for data transmission between communication devices according to the present invention.
Detailed Description
The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.
Referring to fig. 1 to 4, in the embodiment of the present invention, a system and a method for acquiring information during data transmission between communication devices are provided, the system includes a module for acquiring and decoding transmission data between communication devices, a module for matching identifiable initialization transmission data, a module for updating transmission data interaction marks, a unit for diagnosing failure of update transmission data, and a module for synchronously converting update transmission data, wherein the module for acquiring and decoding transmission data between communication devices, the module for matching identifiable initialization transmission data, and the module for updating transmission data interaction marks are connected in sequence via an intranet, and the module for updating transmission data interaction marks, the unit for diagnosing failure of update transmission data, and the module for synchronously converting update transmission data are connected via the intranet;
the inter-communication-equipment transmission data acquisition and decoding module is used for acquiring and decoding information transmitted among different communication equipment and monitoring the decoded transmission data, the identifiable initialized transmission data matching module is used for analyzing and matching the decoded transmission data after gathering, the updated transmission data interaction marking module is used for verifying new data formed after the different transmission data are matched and monitoring the verification results of the different matching data in real time, the updated transmission data fault diagnosis unit is used for troubleshooting the transmission matching data failed in verification and analysis of the current transmission matching data, and the updated transmission data synchronous conversion module is used for gathering the transmission matching data successfully verified and analyzed and converting the signal types when the different communication equipment requests to be looked up.
By adopting the data number scheme: the inter-communication-equipment transmission data acquisition and decoding module comprises a transmission signal type identification submodule and a transmission signal decoding data packet summarizing submodule, wherein the transmission signal type identification submodule is used for acquiring data transmitted among different communication equipment, screening and identifying the signal types of the acquired data one by one, the transmission signal decoding data packet summarizing submodule is used for summarizing the decoded data, setting a data packet used for storing the decoded transmission data, and monitoring the capacity of the data packet in real time.
By adopting the data number scheme: the recognizable initialization transmission data matching module comprises a collection transmission data coincidence rate analysis submodule and a collection transmission data matching conversion submodule, wherein the collection transmission data coincidence rate analysis submodule is used for analyzing the coincidence rate of the collected different transmission data, counting the coincidence rate of the different transmission data, sending the counting result to the collection transmission data matching conversion submodule, the collection transmission data matching conversion submodule is used for matching the coincidence rate of the transmission data which is more than or equal to 70% with the data section, the overlapped data segments are complemented and converted, the complemented and updated data segments and the original data segments are distinguished and numbered, and are set as updated data segments and original data segments, and marking the supplemented part in the data segment supplemented and updated, and sending the updated data segment and the original data segment to an update transmission data interaction marking module.
By adopting the data number scheme: the collected transmission data coincidence rate analysis submodule analyzes the collected different transmission data coincidence rates, sets the collected different transmission data, sorts the transmission data quantity of the different transmission data, and sets the sorted transmission data as f1、f2、f3、…、fn-1、fnPerforming coincidence rate analysis on the transmission data with the minimum transmission data amount, and extracting the transmission data f with the minimum transmission data amount1Setting transmission data f1Monitoring the coincidence rate with other different transmission data, and setting the transmission data f1The coincidence rate of the data with other different transmission data is respectively D1、D2、D3、…、Dn-1、DnScreening out DnMore than or equal to 40 percent of transmission data, and extracting the transmission data f1Setting a data segment overlapped with the screened transmission data to segment a certain screened transmission data, and setting the segmented transmission data segments to be Z1、Z2、Z3、…、Zn-1、ZnEach segmented transmission data segment is combined with the transmission data f1Monitoring coincidence rate, setting each subsection and transmitting data f1Has a coincidence ratio of DO1、DO2、DO3、…、DOn-1、DOnScreening out the coincidence rate DOn(ii) segmentation of data < 40%, setting of coincidence ratio DOn< 40% of the data segments marked DOx1、DOx2、DOx3、…、DO xnThe number of marked data segments is xn, the comprehensive coincidence rate of the currently screened transmission data is set to be F (D), and according to the formula:
and calculating to obtain the comprehensive coincidence rate of the currently screened transmission data, when F (D) is more than or equal to 70%, sending the transmission data to a module for collecting transmission data matching with the transformant for data processing, and when F (D) is less than 70%, analyzing the coincidence rate of the next transmission data.
By adopting the data number scheme: the updating transmission data interactive marking module comprises an updating transmission data adding and verifying submodule and an updating transmission data verifying and analyzing result real-time monitoring submodule, wherein the updating transmission data adding and verifying submodule is used for verifying the supplementary updated transmission data of the identifiable initialization transmission data matching module, verifying each supplementary updated transmission data according to an updating data segment and an original data segment respectively, sending a verification result to the updating transmission data verifying and analyzing result real-time monitoring submodule, and the updating transmission data verifying and analyzing result real-time monitoring submodule is used for judging that the original data segment is successfully verified and the updating data segment is abnormally verified, the update data segment is marked abnormally, the marked data segment is sent to an update transmission data fault diagnosis unit, and when the updated data segment and the original data segment are successfully verified, the updated data segment and the original data segment are sent to the update transmission data synchronous conversion module for storage.
By adopting the data number scheme: the failure diagnosis unit for the update transmission data comprises an update transmission data failure abnormal point judgment submodule and an update transmission data operation abnormal rate analysis submodule, wherein the update transmission data failure abnormal point judgment submodule is used for carrying out abnormal monitoring on an update data segment, extracting a data segment of a check failure in the update data segment and sending the data segment to the update transmission data operation abnormal rate analysis submodule, the update transmission data operation abnormal rate analysis submodule is used for analyzing the operation abnormal rate of the extracted abnormal data segment and judging the index of the actual operation abnormal rate, when the actual operation abnormal rate is higher than a set threshold value one, the current update data segment cannot be updated and supplemented to the original data segment, and when the actual operation abnormal rate is lower than the set threshold value one, the analysis of the cause of the abnormal failure is carried out on the current update and supplemented data segment, and after analysis, carrying out re-modification, and carrying out re-verification after modification.
By adopting the data number scheme: the synchronous conversion module for the update transmission data comprises a different communication equipment call update transmission data application submodule and a corresponding communication equipment identification signal type conversion submodule, wherein the different communication equipment call update transmission data application submodule is used for calling and applying the successfully-checked update data segment, and the corresponding communication equipment identification signal type conversion submodule is used for converting the signal type of the update data segment applied for calling, so that the adaptation with the communication equipment identification signal required for calling is realized.
A method for collecting information when data is transmitted among communication devices comprises the following steps:
s1: the method comprises the steps that a transmission data acquisition decoding module between communication devices is used for acquiring and decoding information transmitted between different communication devices, and the decoded transmission data are monitored;
s2: the recognizable initialized transmission data matching module is used for summarizing the decoded transmission data and then analyzing and matching the transmission data;
s3: the updating transmission data interaction marking module is used for verifying new data formed after different transmission data are matched, and the verification results of different matched data are monitored in real time;
s4: carrying out troubleshooting on the transmission matching data failed in verification and analysis by using an updated transmission data fault diagnosis unit, and analyzing the current transmission matching data;
s5: and summarizing the transmission matching data successfully verified and analyzed by using the updated transmission data synchronous conversion module, and converting the signal types when different communication devices request to look up.
By adopting the data number scheme: the information acquisition method further comprises the following steps:
s1-1: the transmission signal type identification submodule is used for collecting data transmitted among different communication devices, the collected data are screened and identified one by one according to signal types, the transmission signal decoding data packet summarizing submodule is used for summarizing the decoded data, a data packet used for storing the decoded transmission data is arranged, and the capacity of the data packet is monitored in real time;
s2-1: analyzing the coincidence rate of the acquired different transmission data by using an acquisition transmission data coincidence rate analysis submodule, counting the coincidence rate of the different transmission data, sending a statistical result to an acquisition transmission data matching conversion submodule, performing coincidence matching on a data segment of which the coincidence rate of the transmission data is more than or equal to 70% by using an acquisition transmission data matching conversion submodule, performing supplementary conversion on the coincident data segment, numbering the supplementary updated data segment and the original data segment in a distinguishing manner, setting the supplementary updated data segment and the original data segment as an updated data segment and an original data segment, marking a supplementary part in the supplementary updated data segment, and sending the updated data segment and the original data segment to a supplementary transmission data interaction marking module;
s3-1: the updating transmission data adding and verifying submodule is used for verifying the transmission data which can be identified and updated by the initializing transmission data matching module, each piece of transmission data which is updated and supplemented is verified according to an updating data section and an original data section respectively, the verifying result is sent to the updating transmission data verifying and analyzing result real-time monitoring submodule, the updating transmission data verifying and analyzing result real-time monitoring submodule carries out abnormal marking on the updating data section when the original data section is verified successfully and the updating data section is verified abnormally, the marked data section is sent to the updating transmission data fault diagnosis unit, and the updating data section and the original data section are sent to the updating transmission data synchronous conversion module for storage when the updating data section is verified successfully and the original data section are verified successfully;
s4-1: carrying out anomaly monitoring on the updated data segment by utilizing an updated transmission data fault anomaly point judgment submodule, extracting a data segment of a check fault in the updated data segment, sending the data segment to an updated transmission data operation anomaly rate analysis submodule, analyzing the operation anomaly rate of the extracted abnormal data segment by the updated transmission data operation anomaly rate analysis submodule, judging an index of an actual operation anomaly rate, judging that the current updated data segment cannot update and supplement the original data segment when the actual operation anomaly rate is higher than a set threshold value one, analyzing the reason of the abnormal fault of the current updated and supplemented data segment when the actual operation anomaly rate is lower than the set threshold value one, revising after analysis, and carrying out re-checking after revision;
s5-1: calling the update transmission data application sub-module by using different communication equipment to call and apply for the successfully verified update data segment, and converting the signal type of the update data segment applied for calling by using the corresponding communication equipment identification signal type conversion module to adapt to the identifiable signal of the communication equipment requested for calling.
By adopting the data number scheme: in step S4-1, the update transmission data operation anomaly rate analysis sub-module analyzes the operation anomaly rate of the extracted abnormal data segment, determines an index of an actual operation anomaly rate, determines that the current update data segment cannot update and supplement the original data segment when the actual operation anomaly rate is higher than a first set threshold, analyzes the cause of an abnormal fault for the current update and supplement data segment when the actual operation anomaly rate is lower than the first set threshold, performs re-modification after analysis, and performs re-verification after modification, and further includes the following steps:
after the updated data segment is verified, extracting abnormal data segments with abnormality, re-segmenting the abnormal data segments in real time, monitoring the operation abnormal rate of each segment, and setting the abnormal rate of each segment as K1、K2、K3、…、Kn-1、KnSetting the average value of the abnormal rate of the running data of the current abnormal data segment as,Setting the rate of incompatibility between the current update data segment and the original transmission data segment to be N%, wherein the ratio of the abnormal operation rate and the rate of incompatibility in the abnormal operation rate of the actual data is R1 and R2 respectively, and setting the current update dataThe actual data operation abnormal rate of the section is Kt, and according to a formula:
and calculating the actual data operation abnormal rate of the current updated data segment, judging that the current updated data segment cannot update and supplement the original data segment when the actual data operation abnormal rate is greater than or equal to a set threshold value one, analyzing the abnormal fault reason of the current updated and supplemented data segment when the actual data operation abnormal rate is less than the set threshold value one, revising after analysis, and rechecking after revision.
Example 1: limiting conditions, analyzing the coincidence rate of the acquired different transmission data by an acquisition transmission data coincidence rate analysis submodule, setting the acquired different transmission data, sequencing the transmission data quantity of the different transmission data, and setting the sequenced transmission data as f1、f2、f3、…、fn-1、fnPerforming coincidence rate analysis on the transmission data with the minimum transmission data amount, and extracting the transmission data f with the minimum transmission data amount1Setting transmission data f1Monitoring the coincidence rate with other different transmission data, and setting the transmission data f1The overlapping rates of the transmission data and other different transmission data are respectively 17%, 41%, 62%, 27%, 71% and 69%, and D is selectednMore than or equal to 40 percent of transmission data, and extracting the transmission data f1Setting a data segment overlapped with the screened transmission data to segment a certain screened transmission data, and setting the segmented transmission data segments to be Z1、Z2、Z3、…、Zn-1、ZnEach segmented transmission data segment is combined with the transmission data f1Monitoring coincidence rate, setting each subsection and transmitting data f1The overlapping ratios of (1), (64), (11), (65), (77), (32), (26), (87), (79) were selected, and the overlapping ratios DO were selectedn(ii) segmentation of data < 40%, setting of coincidence ratio DOnThe < 40% of the data segments are marked 31%, 11%, 32%, 26%, the number of marked data segments is 4Setting the comprehensive coincidence rate of the currently screened transmission data to be F (D), and according to the formula:
and (4) calculating to obtain that the comprehensive coincidence rate of the currently screened transmission data is 74.4%, and when F (D) = 74.4% is more than 70%, sending the transmission data to a module for acquiring transmission data matching with a transformant to perform data processing.
Example 2: limiting conditions, after the updated data segment is verified, extracting abnormal data segments with abnormality, re-segmenting the abnormal data segments in real time, monitoring the operation abnormal rate of each segment, setting the abnormal rate of each segment to be 12%, 17%, 21%, 42%, 66% and 7%, and setting the average value of the operation data abnormal rate of the current abnormal data segment to be,Setting the mismatch rate of the current update data segment and the original transmission data segment to be 42%, wherein the operation abnormal rate and the mismatch rate account for 70% and 30% of the actual data operation abnormal rate respectively, setting the actual data operation abnormal rate of the current update data segment to be Kt, and according to a formula:
Kt= 70%*27.5%+30%*42%=31.85%
and calculating to obtain 31.85% of the actual data operation abnormal rate of the current updated data segment, and when the actual data operation abnormal rate is greater than or equal to a set threshold one, wherein the set threshold one is 30%, and 31.85% is greater than 30%, judging that the current updated data segment cannot update and supplement the original data segment.
Example 3: after checking the update data segment of the limited condition, extracting abnormal data segments with abnormality, re-segmenting the abnormal data segments in real time, monitoring the operation abnormal rate of each segment, setting the abnormal rate of each segment to be 12%, 7%, 21% and 4%, and setting the operation data abnormal rate of the current abnormal data segmentHas an average value of,Setting the incompatibility rate of the current update data segment and the original transmission data segment to be 21%, wherein the operation abnormal rate and the incompatibility rate are respectively R1 and R2 in the actual data operation abnormal rate, setting the actual data operation abnormal rate of the current update data segment to be Kt, and according to the formula:
Kt= 70%*11%+30%*21%=14%
calculating to obtain 14% of the actual data operation abnormal rate of the current updated data segment, when the actual data operation abnormal rate is smaller than a first set threshold value, wherein the first set threshold value is 30%, and 14% is smaller than 30%, analyzing the abnormal fault reason of the current updated and supplemented data segment, revising after analysis, and rechecking after revision.
It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.
Claims (2)
1. An information acquisition system for data transmission between communication devices, characterized in that: the system comprises a transmission data acquisition decoding module, a recognizable initialization transmission data matching module, an update transmission data interaction marking module, an update transmission data fault diagnosis unit and an update transmission data synchronous conversion module among communication devices, wherein the transmission data acquisition decoding module, the recognizable initialization transmission data matching module and the update transmission data interaction marking module among the communication devices are sequentially connected through an intranet, and the update transmission data interaction marking module, the update transmission data fault diagnosis unit and the update transmission data synchronous conversion module are mutually connected through the intranet;
the inter-communication-equipment transmission data acquisition and decoding module is used for acquiring and decoding information transmitted among different communication equipment and monitoring the decoded transmission data, the identifiable initialized transmission data matching module is used for collecting and analyzing and matching the decoded transmission data, the updated transmission data interaction marking module is used for verifying new data formed after the different transmission data are matched and monitoring the verification results of the different matching data in real time, the updated transmission data fault diagnosis unit is used for carrying out fault troubleshooting on the transmission matching data failed in verification and analysis and analyzing the current transmission matching data, and the updated transmission data synchronous conversion module is used for collecting the transmission matching data successfully verified and analyzed and converting the signal types when the different communication equipment requests to be consulted;
the updating transmission data interactive marking module comprises an updating transmission data adding and verifying submodule and an updating transmission data verifying and analyzing result real-time monitoring submodule, wherein the updating transmission data adding and verifying submodule is used for verifying the supplementary updated transmission data of the identifiable initialization transmission data matching module, verifying each supplementary updated transmission data according to an updating data segment and an original data segment respectively, sending a verification result to the updating transmission data verifying and analyzing result real-time monitoring submodule, and the updating transmission data verifying and analyzing result real-time monitoring submodule is used for judging that the original data segment is successfully verified and the updating data segment is abnormally verified, the update data segment is marked abnormally, the marked data segment is sent to an update transmission data fault diagnosis unit, when the updated data segment and the original data segment are successfully verified, the updated data segment and the original data segment are sent to an update transmission data synchronous conversion module for storage;
the failure diagnosis unit for the update transmission data comprises an update transmission data failure abnormal point judgment submodule and an update transmission data operation abnormal rate analysis submodule, wherein the update transmission data failure abnormal point judgment submodule is used for carrying out abnormal monitoring on an update data segment, extracting a data segment of a check failure in the update data segment and sending the data segment to the update transmission data operation abnormal rate analysis submodule, the update transmission data operation abnormal rate analysis submodule is used for analyzing the operation abnormal rate of the extracted abnormal data segment and judging the index of the actual operation abnormal rate, when the actual operation abnormal rate is higher than a set threshold value one, the current update data segment cannot be updated and supplemented to the original data segment, and when the actual operation abnormal rate is lower than the set threshold value one, the analysis of the cause of the abnormal failure is carried out on the current update and supplemented data segment, and after analysis, carrying out re-modification, and carrying out re-verification after modification.
2. The system according to claim 1, wherein the system is configured to collect information while transmitting data between the communication devices: the synchronous conversion module for the update transmission data comprises a different communication equipment call update transmission data application submodule and a corresponding communication equipment identification signal type conversion submodule, wherein the different communication equipment call update transmission data application submodule is used for calling and applying the successfully-checked update data segment, and the corresponding communication equipment identification signal type conversion submodule is used for converting the signal type of the update data segment applied for calling, so that the adaptation with the communication equipment identification signal required for calling is realized.
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