CN117240743A - Data transmission monitoring system based on internet - Google Patents

Abstract

The application discloses a data transmission monitoring system based on the Internet, which relates to the field of data transmission and comprises a receiving unit, a storage unit, an analysis unit and a statistics unit, wherein the receiving unit is composed of data acquisition modules, and data acquired by the data acquisition modules of all monitoring ends at regular time are transmitted to a server of a monitoring center through the receiving unit and used for monitoring data transmission in real time; according to the internet-based data transmission monitoring system, transmitted data are integrated through a plurality of storage modes and are respectively stored in corresponding positions to realize cooperative work among a plurality of storage devices in cloud storage, so that the plurality of storage devices can provide the same service for the outside, and the system is larger, stronger and better in data access performance; and meanwhile, when the data are output and transmitted, the data in the transmission process are monitored in real time, and when abnormal data occur, the transmitted data are terminated in time, so that the integrity of the data is ensured.

Description

Data transmission monitoring system based on internet

Technical Field

The application relates to a data transmission technology, in particular to a data transmission monitoring system based on the Internet.

Background

The data center is a main place for storing big data of the Internet of things at present, realizes centralized storage, transmission, exchange, processing and management of the big data of the Internet of things, has extremely high requirements on the performance of a server of the data center, and the server can have different performances under different environmental conditions, so that the environmental conditions of the server need to be kept within a certain numerical range, the running rate of the server is effectively improved, the probability of equipment damage is reduced, and the data monitoring method is extremely important for real-time monitoring and timely regulation and control of monitoring data such as temperature, humidity, ventilation and the like in the environment of the server of the Internet of things. In the related art, monitoring data of an internet of things server environment is generally recorded in real time by setting monitoring points of the internet of things data server.

In the Chinese patent of the application with the publication number of CN116232935A, the Internet of things monitoring big data transmission method is disclosed, the Internet of things monitoring big data transmission method carries out data analysis processing on time sequence monitoring data to obtain time sequence fitting straight lines of the time sequence monitoring data collected by different Internet of things data server monitoring points in the same period, the time sequence monitoring data and the time sequence fitting straight lines are analyzed to obtain time sequence fitting characteristics, the time sequence monitoring data collected by the Internet of things data server monitoring points and the time sequence fitting straight lines can be effectively analyzed to obtain the time sequence fitting characteristics, the subsequent analysis on trend changes of the time sequence monitoring data of different Internet of things data server monitoring points according to the time sequence fitting characteristics is facilitated, the trend change degree of the time sequence monitoring data is determined according to the time sequence fitting characteristics, the method can accurately determine the data priority according to the time sequence fitting characteristics of monitoring points of the data server of different Internet of things, and can effectively analyze the trend change degree of the monitoring data of the data center and obtain the data priority according to the trend change degree because the slope of the time sequence fitting straight line and the data average value are subjected to coding processing according to the data priority to generate data change trend codes and sequentially transmit the data change trend codes from high to low according to the data priority, and the data priority is obtained by planarly coding the slope of the time sequence fitting straight line and the corresponding data average value of the time sequence monitoring data according to the data priority, thereby effectively reducing the data transmission quantity, improving the transmission efficiency and simultaneously planarly coding and sequentially transmitting the data change trend codes according to the data priority, the data change trend codes corresponding to the time sequence monitoring data with abnormal monitoring data change can be transmitted preferentially, and the data transmission reliability is effectively improved.

The method is widely used in the big data age, and is characterized in that mass data are transmitted and stored on the cloud, and the data to be transmitted are encrypted as a means for improving the data security. The data transmission process of the cloud platform may include: the source node acquires a public key of the destination node, encrypts data to be transmitted through the public key, transmits the obtained ciphertext to the destination node, and decrypts the ciphertext through the private key to obtain the data. However, the prior art is difficult to match the requirements of the cloud platform on the data security, and the prior art is used on the cloud platform, so that a data transmission monitoring system based on the Internet is developed.

Disclosure of Invention

The application aims to provide an internet-based data transmission monitoring system so as to solve the defects in the prior art.

In order to achieve the above object, the present application provides the following technical solutions: the data transmission monitoring system based on the Internet comprises a receiving unit, a storage unit, an analysis unit and a statistics unit, wherein the receiving unit is composed of data acquisition modules, and data acquired by the data acquisition modules of all monitoring ends at regular time are transmitted to a server of a monitoring center through the receiving unit and used for monitoring data transmission in real time;

meanwhile, when the server of the monitoring center receives data, the data are automatically stored in the storage unit, so that the real-time inspection is facilitated, and the data in the corresponding transmission channel are obtained according to different authorities through a local area network connected with the server of the monitoring center;

and providing recorded data according to a server of the monitoring center, integrating the obtained data into daily data, month data and reports through the statistics unit, transmitting the integrated data into the analysis unit for analysis, and integrating an analysis chart for displaying the data transmission states in a plurality of time ends.

As a further optimization scheme of the application, the data acquisition module is used for continuously and faithfully acquiring and recording various data, and displaying and recording monitoring information in real time in a text, digital, graphic and tabular mode.

As a further optimization scheme of the application, the data stored in the storage unit records the real-time condition of each monitoring end according to the requirement, and can be automatically stored, backed up and archived at regular time.

As a further optimization scheme of the application, a server of the monitoring center sends out a telemetry and remote control command, data is transmitted to the inside of the data acquisition module in a GPRS wireless communication mode, the execution control command is analyzed, measurement data or response is returned to the server of the monitoring center, and the returned data is returned to the server of the monitoring center in a primary way to monitor the transmitted data.

As a further optimization scheme of the application, a protection module is arranged at the server connection end of the monitoring center, and the data in transmission is protected through the protection module.

Compared with the prior art, the data transmission monitoring system based on the Internet integrates the transmitted data through a plurality of storage modes and stores the data in corresponding positions respectively to realize the cooperative work among a plurality of storage devices in cloud storage, so that the plurality of storage devices can provide the same service to the outside, and the data transmission monitoring system based on the Internet is larger, stronger and better in data access performance; and meanwhile, when the data are output and transmitted, the data in the transmission process are monitored in real time, and when abnormal data occur, the transmitted data are terminated in time, so that the integrity of the data is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings required for the embodiments will be briefly described below, and it is apparent that the drawings in the following description are only some embodiments described in the present application, and other drawings may be obtained according to these drawings for a person having ordinary skill in the art.

Fig. 1 is a flowchart of a monitoring system according to an embodiment of the present application.

Reference numerals illustrate:

1. a receiving unit; 11. a data acquisition module; 2. a storage unit; 3. an analysis unit; 4. and a statistics unit.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be noted that, directions or positional relationships indicated by terms "center", "up", "down", "left", "right", "vertical", "horizontal", "inside", "outside", etc., are directions or positional relationships based on the drawings, are merely for convenience of describing the present application and simplifying the description, and do not indicate or imply that the apparatus or elements referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present application; the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance, and furthermore, unless explicitly specified and limited otherwise, the terms "mounted," "connected," "coupled," and the like are to be construed broadly, and may be either fixedly coupled, detachably coupled, or integrally coupled, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present application will be understood in specific cases by those of ordinary skill in the art.

Examples:

referring to fig. 1, an internet-based data transmission monitoring system includes a receiving unit 1, a storage unit 2, an analysis unit 3 and a statistics unit 4, wherein the receiving unit 1 is composed of data acquisition modules 11, and data acquired by the data acquisition modules 11 of each monitoring end at regular time are transmitted to a server of a monitoring center through the receiving unit 1 for real-time monitoring of data transmission;

in the scheme, the data acquisition module 11 and the GPRS equipment are utilized to carry out data transmission, the stability of a network and the rapidness, timeliness and accuracy of data transmission are ensured, the timing monitoring can be carried out during the data transmission through the system, the data of each test site can be displayed on a server of a monitoring center at regular time, the data acquisition module 11 receives a plurality of monitoring instrument data, the data are transmitted to the GPRS network by using a special GPRS wireless modem, the data are uploaded to the server of the monitoring center through an Internet backbone (or a GPRS network dedicated line), the real-time monitoring and management are carried out in the monitoring center, each site information monitoring site is provided with a GPRS wireless modem of the data acquisition module 11, and the modem is connected with the data acquisition module 11 and a site on-line monitoring instrument (test pile) through an RS-232 interface and acquires the uploaded data at a certain time interval.

Specifically, the wireless modem receives various instructions issued by the upper end, transmits the instructions downwards to the data acquisition module 11, receives data uploaded by the on-line monitoring instrument, packages the data on the premise of not changing the data format, and transmits the acquired data to the GPRS network, and the GPRS network uploads the acquired data to a server of the monitoring center through an Internet backbone (or a network private line); the server of the monitoring center displays, stores and analyzes various data in real time and automatically generates a required report, the purpose of monitoring information in real time is achieved, the monitoring center can issue instructions through management software, the instructions are transmitted to the monitoring station and each monitoring instrument through the GPRS wireless modem and the data acquisition module 11, and parameter setting can be carried out on the monitoring station, instrument control, communication modes and the like.

By the construction of the monitoring system during data transmission, operators can timely, accurately, specifically and comprehensively master the protection degree during data transmission, and technical support is provided for strengthening management. The existing resources are integrated, the functions of the existing network and monitoring equipment are fully exerted and utilized to the greatest extent, the monitoring data can be utilized in real time and comprehensively, and abnormal data collected in a server of a monitoring center are integrated.

Further, when the server of the monitoring center receives data, the data are automatically stored in the storage unit 2, so that the real-time inspection is facilitated, and the data in the corresponding transmission channel are obtained according to different authorities through the local area network connected with the server of the monitoring center;

in this embodiment, the storage unit 2 is cloud storage, and its structural model is composed of 4 layers;

the storage layer is the most basic part of cloud storage, and the storage equipment can be FC optical fiber channel storage equipment, can be IP storage equipment such as NAS and ISIS, can also be DAS storage equipment such as SCSI or SAS, and the storage equipment in cloud storage is often huge in quantity and distributed in different regions and is connected together through a wide area network, the Internet or an FC optical fiber channel network;

the basic management layer is the most core part of the cloud storage, and realizes the cooperative work among a plurality of storage devices in the cloud storage through technologies such as a cluster, a distributed file system, grid computing and the like, so that the plurality of storage devices can provide the same service to the outside, and the larger, stronger and better data access performance is provided;

the application interface layer is the most flexible and changeable part of cloud storage, and different cloud storage operation units can develop different application service interfaces according to actual service types;

any authorized user can log in the server of the monitoring center through a standard public application interface to enjoy cloud storage service, and the access types and access means provided by the cloud storage are different.

Further, the recorded data is provided according to the server of the monitoring center, the obtained data is integrated into daily data, month data and reports through the statistics unit 4, the integrated data is transmitted to the analysis unit 3 for analysis, and an analysis chart is integrated for displaying the data transmission states in a plurality of time ends.

Specifically, the server of the monitoring center mainly functions to generate various reports and various charts, any authorized terminal can view real-time or historical data, and the data is displayed according to geographic positions, so that the monitoring center is visual and clear. The whole system completes a complete management system of monitoring data from the pipeline detection pile station to each client side of the monitoring center, can provide real, accurate, timely and comprehensive monitoring data for users, and can upload the monitoring data to an upper management department as required

Further, the data acquisition module 11 is configured to continuously and faithfully acquire and record various data, and display and record monitoring information in real time in a text, digital, graphic, and tabular manner.

In this scheme, through data acquisition module 11 with all data integration to monitoring center's inside the server, split the data that receive to integrate the form of whole chart, be convenient for when the back office worker inspection, manage and control the data.

Further, the data stored in the storage unit 3 can record the real-time status of each monitoring end according to the requirement, and can be automatically stored, backed up and archived at regular time.

The server of the monitoring center sends out a telemetry and remote control command, data are transmitted to the inside of the data acquisition module 11 in a GPRS wireless communication mode, the execution control command is analyzed, measurement data or response is returned to the server of the monitoring center, and the returned data are returned to the server of the monitoring center in a primary way to monitor the transmitted data.

The server connection end of the monitoring center is provided with a protection module, and data in transmission are protected through the protection module.

In this embodiment, by protecting the data from copying, some secret documents need to be browsed by a specific person and a specific machine during transmission, and in order to prevent the user from copying and divulging the decrypted secret information on the screen by using a copying means, some auxiliary software tools need to be provided to prevent the user from copying.

In an office system, certain secret documents are not allowed to exist in a decrypted plain text document mode, and the security encryption documents are required to be stored and protected during storage, and the documents are required to be encrypted; the office system is required to provide encryption and decryption client tools for some document catalogs, and the encryption and decryption client tools can automatically encrypt and decrypt the whole document catalogs.

In the data transmission process, a monitoring alarm system is arranged, the monitoring alarm system monitors data in every data transmission process, the monitored data are packaged and then sent to the inside of a server of a monitoring center, once the monitored data are in fault in the transmission process, an alarm is generated, the data transmission is timely terminated through alarm information, and meanwhile, the alarm information is fed back to the inside of the server of the monitoring center, so that an operator can perform first time fault elimination, and the safety and reliability of data transmission are guaranteed to the greatest extent.

While certain exemplary embodiments of the present application have been described above by way of illustration only, it will be apparent to those of ordinary skill in the art that modifications may be made to the described embodiments in various different ways without departing from the spirit and scope of the application. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive of the scope of the application, which is defined by the appended claims.

Claims (5)

1. The data transmission monitoring system based on the Internet is characterized by comprising a receiving unit (1), a storage unit (2), an analysis unit (3) and a statistics unit (4), wherein the receiving unit (1) is composed of data acquisition modules (11), and data acquired by the data acquisition modules (11) of each monitoring end at regular time are transmitted to a server of a monitoring center through the receiving unit (1) and used for monitoring data transmission in real time;

meanwhile, when the server of the monitoring center receives data, the data are automatically stored in the storage unit (2), so that the real-time inspection is facilitated, and the data in the corresponding transmission channel are obtained according to different authorities through a local area network connected with the server of the monitoring center;

and providing recorded data according to a server of a monitoring center, integrating the obtained data into daily data, month data and reports through the statistics unit (4), transmitting the integrated data into the analysis unit (3) for analysis, and integrating an analysis chart for displaying the data transmission states in a plurality of time ends.

2. An internet-based data transmission monitoring system according to claim 1, wherein the data acquisition module (11) is configured to continuously and faithfully acquire and record various data, and display and record monitoring information in real time in a text, digital, graphic, and tabular manner.

3. An internet-based data transmission monitoring system according to claim 1, characterized in that the data stored in the storage unit (3) can be automatically stored, backed up and archived at regular time by recording the real-time status of each monitoring terminal as required.

4. An internet-based data transmission monitoring system according to claim 1, wherein a server of the monitoring center sends out a telemetry and remote control command, data is transmitted to the inside of the data acquisition module (11) through a GPRS wireless communication mode, the control command is analyzed and executed, measurement data or response is returned to the server of the monitoring center, and the returned data is returned to the server of the monitoring center in the original path, so that the transmitted data is monitored.

5. The internet-based data transmission monitoring system according to claim 1, wherein a protection module is provided at a server connection end of the monitoring center, and the data in transmission is protected by the protection module.