CN114928527B - Hierarchical communication system and use equipment thereof - Google Patents

Abstract

The invention discloses a hierarchical communication system and a using device thereof, relating to the technical field of communication management; the problem that the communication data are not screened and the function of allocating the communication data is solved; the system comprises a communication platform, wherein the communication platform consists of a communication statistical unit, a classification management unit for finely distinguishing and classifying the communication statistical unit according to a formulated division principle, a search unit for quickly searching required data information, and a classification control unit for performing targeted management on the classified content of the classification management unit; the communication statistical unit is respectively in communication connection with the classification management unit, the searching unit and the grading control unit. The using equipment of the system comprises a communication mobile terminal, a communication base station and a communication relay station, wherein the communication mobile terminal is in communication connection with a communication platform, and the communication base station is in communication connection with the communication relay station. The invention is convenient for automatically filtering useless communication information and transmission interference items, and ensures the smooth transmission of the communication information.

Description

Hierarchical communication system and use equipment thereof

Technical Field

The invention relates to the technical field of communication management, in particular to a hierarchical communication system and using equipment thereof.

Background

The national communication local area network has wide coverage, and in the traditional communication link, messages are transmitted in sequence in a first-in first-out mode, so that the data sequence is effectively guaranteed. In data transmission, the quantity of some messages is very large, and the delay tolerance is larger than that of other messages, so for a long time, in order to facilitate the management of information and the integration degree of communication information, a hierarchical management mode is generally adopted, which not only can reduce the omission of information, but also can fully utilize the buffering of a message queue to resist the impact of data surge and the like on a communication link under the overload condition, and can carry out information sharing and real-time monitoring on the whole communication management system to ensure the normal operation of the communication information.

At present, a hierarchical management system adopted in China does not have an automatic information allocation function, so that dangerous items are easily mixed in a database during information management, the error rate of the whole data information in the database is high, and when the whole management system shares information, the wrong data information can be displayed along with correct information, so that an operator needs to perform secondary checking work, the workload of the operator is increased, most importantly, the communication information runs slowly, and the information running efficiency is reduced.

Disclosure of Invention

The present invention is directed to a hierarchical communication system and a device using the same, which solve the disadvantages of the prior art.

In order to achieve the purpose, the invention adopts the following technical scheme:

a hierarchical communication system comprises a communication platform, wherein the communication platform consists of a communication statistical unit, a classification management unit for finely distinguishing and classifying the communication statistical unit according to a formulated division principle, a search unit for quickly searching required data information, and a hierarchical control unit for performing targeted management on the classified content of the classification management unit;

the communication statistical unit is respectively in communication connection with the classification management unit, the searching unit and the grading control unit;

the communication statistical unit comprises I-level communication modules, II-level communication modules and III-level communication modules corresponding to different categories, wherein the x-level communication modules of different categories comprise a-z level blocks.

Preferably: the classification management unit formulates a classification principle, and the classification principle comprises classification according to local level distinguishing management, functional level distinguishing management, communication operation enterprise level distinguishing management, different signal area intensity level distinguishing management and communication information transmission magnitude management.

Preferably: the searching unit comprises a searching box for inputting keywords and a list for displaying the categories of the communication statistical units.

Preferably: the hierarchical control unit comprises a data acquisition module for collecting data of the communication channel, an environment monitoring module for monitoring the quality safety of the communication channel, a data processing module for encrypting the communication information through an encryption algorithm, a data backup module for storing and backing up the communication information, and an early warning notification module for warning messages;

the quality safety monitoring comprises signal sending frequency and speed and signal delay/stuck rate.

Preferably: the data processing module comprises an information checking and verifying block for carrying out safety verification on the acquired communication information;

the environment monitoring module comprises a cleaning block for screening and filtering communication information transmission interference items;

the data backup module comprises a rule block for making storage requirements, an information sharing block for displaying communication information in a public mode and an information encryption block for covering the communication information, and the information sharing block comprises a display screen;

the early warning notification module comprises an alarm and a pushing block used for pushing notification information in a background.

Preferably: the hierarchical control unit also comprises a patrol module for detecting the utilization rate condition of the communication channel and a regulation and control module for regulating and controlling the priority transmission of the communication channel;

the standard for regulating and controlling the priority transmission of the communication channel comprises the importance of the transmission load condition and the communication information.

Preferably: the method for detecting the utilization rate of the communication channel comprises the following steps:

aa: presetting a standard utilization value;

ab: the patrol module is used for monitoring the use condition of each branch communication module and the lower level chunks thereof, if the actual utilization value is less than or equal to the standard utilization value, the patrol module works as usual, and if the actual utilization value is greater than the standard utilization value, the patrol module transmits a signal to the regulation module.

Preferably: the method for checking the transmission load condition comprises the following steps:

ba: obtaining and analyzing historical data of the current communication channel load to obtain a corresponding historical load change trend value;

bb: predicting future load change values of the current communication channel at a selected time by using the historical load change trend values;

bc: and setting a standard load threshold value of the communication channel, comparing the standard load threshold value with a future load change value, if the standard overload threshold value is less than the future load change value, reducing the load of the corresponding communication channel within a selected time, otherwise, if the standard overload threshold value is more than or equal to the future load change value, not taking the communication channel as the standard overload threshold value.

Preferably: the historical data of the communication channel load comprises data of downlink transmitting power and uplink broadband total receiving power of the communication channel within a certain time.

A using device of a hierarchical communication system comprises a communication mobile terminal, a communication base station and a communication relay station, wherein the communication mobile terminal is in communication connection with a communication platform;

the communication mobile terminal can be a computer and mobile communication equipment.

The invention has the beneficial effects that:

1. the hierarchical control unit of the invention carries out safety verification on the communication information, prevents bad and wrong information from being sent out, monitors the communication channel occupied by each branch type communication module to ensure the safety of transmission, and prompts and warns people through the early warning notification module if dangerous items are found so as to reduce loss, automatically filter useless communication information and transmission interference items and ensure the smoothness of communication information transmission.

2. The communication statistical unit is subdivided into a plurality of I-x class communication modules by the classification management unit, and each class of communication module can comprise a plurality of a-z class blocks, so that the communication modules belonging to the same class are subjected to stepped up-down class management, the failure in place is convenient to trace, and the management flow of each class and class is clear.

3. The classification management unit of the invention formulates the division rule of different communications, and the division rule is used as the basis for classifying the communication statistical unit, thereby facilitating the classification management and reducing the situation of local fault of data information; the storage requirements of different types of communication information are flexibly formulated through the rule block, so that the storage information is automatically and correspondingly processed through the information sharing block and the information encryption block.

4. The invention judges whether the overload condition occurs or not by predicting the future load change value of the current communication channel in the selected time compared with the standard load threshold value of the communication channel, thereby determining the load condition of the current communication channel in the selected time, improving the credibility of the prediction of the load condition of the current communication channel in the selected time and reducing the false alarm of the load condition of the communication channel.

Drawings

Fig. 1 is a schematic view of a flow framework of a hierarchical communication system according to the present invention;

fig. 2 is a schematic diagram of an actual application of a device in a hierarchical communication system according to the present invention.

In the figure: the communication system comprises a communication platform 1, a communication base station 2, a communication relay station 3 and a communication mobile terminal 4.

Detailed Description

The technical solution of the present patent will be further described in detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

Example 1:

a hierarchical communication system, as shown in fig. 1-2, comprising a communication platform 1, wherein the communication platform 1 is composed of a communication statistical unit, a classification management unit for performing detailed classification on the communication statistical unit according to a formulated division principle, a search unit for rapidly searching required data information, a hierarchical control unit for performing targeted management on the classification content of the classification management unit, and the like; the communication statistical unit is respectively in communication connection with the classification management unit, the searching unit and the grading control unit.

The communication statistical unit comprises a plurality of I-level communication modules, II-level communication modules and III-level communication modules corresponding to different categories, x-level communication modules, and a plurality of a-z level blocks can be arranged below the communication modules of different categories; the communication statistical unit is subdivided into a plurality of I-x class communication modules by the classification management unit, and each class of communication module can comprise a plurality of a-z class blocks, so that the communication modules belonging to the same class are subjected to stepped up-down class management, the failure in place is convenient to trace, and the management flow of each class and class is clear.

The classification management unit makes a classification principle, including but not limited to classification according to local level differentiation management, function level differentiation management, communication operation enterprise level differentiation management, different signal area intensity level differentiation management, communication information transmission magnitude management and the like; the classification management unit formulates different communication division rules which are used as a basis for classifying the communication statistical unit, thereby facilitating classification management and reducing the condition that data information has local faults.

The search unit comprises a search box for inputting keywords, a list for displaying the categories of the communication statistical units and the like; the searching unit is arranged, so that people can select different modes to quickly check and lock the communication information to be inquired.

The hierarchical control unit comprises a data acquisition module for collecting data of the communication channel, an environment monitoring module for monitoring the quality safety of the communication channel, a data processing module for encrypting the communication information through an encryption algorithm, a data backup module for storing and backing up the communication information, and an early warning notification module for warning messages; when the system is used, the data acquisition module is used for acquiring information of each branch type communication module, the data processing module is used for encrypting the acquired communication information to ensure the confidentiality of later-period communication information transmission, the data backup module is used for storing target communication information, the environment monitoring module is used for monitoring a communication channel occupied by each branch type communication module to ensure the transmission safety, and if dangerous items are found, the early warning module is used for prompting and warning people to reduce the loss.

Preferably, the data processing module comprises an information checking and checking block for performing security verification on the acquired communication information; the information checking and verifying block is arranged, so that the safety verification of the communication information is facilitated, and bad and wrong information is prevented from being sent out.

Preferably, the environment monitoring module comprises a cleaning block for screening and filtering communication information transmission interference items; the cleaning block is arranged, so that useless communication information and transmission interference items can be automatically filtered, and the smooth transmission of the communication information is ensured.

Preferably, the quality safety monitoring comprises signal transmission frequency and speed, signal delay/stuck rate and the like.

Preferably, the data backup module comprises a rule block for setting storage requirements, an information sharing block for displaying communication information in a public mode and an information encryption block for covering the communication information, the information sharing block comprises a display screen, and during storage of the data backup module, the storage requirements of different types of communication information are flexibly set through the rule block so that corresponding processing can be automatically carried out on the stored information through the information sharing block and the information encryption block.

Preferably, the early warning notification module includes an alarm, a push block for pushing notification information in the background, and the like.

The hierarchical control unit also comprises a patrol module for detecting the utilization rate condition of the communication channel and a regulation and control module for regulating and controlling the priority transmission of the communication channel;

preferably, the method for detecting the utilization rate of the communication channel includes the following steps:

aa: presetting a standard utilization value;

ab: the patrol module is used for monitoring the use condition of each branch communication module and the lower level chunks thereof, if the actual utilization value is less than or equal to the standard utilization value, the patrol module works as usual, and if the actual utilization value is greater than the standard utilization value, the patrol module transmits a signal to the regulation module. When the patrol module detects that each branch communication module and the lower level chunk thereof are in an idle state or are less than or equal to the standard utilization value, the patrol module can send service data as usual, otherwise, the patrol module transmits a signal to the regulation module to perform priority sequencing on the transmission communication channels.

Preferably, the criteria for regulating the priority transmission of the communication channel include, but are not limited to, transmission load conditions, importance of communication information, and the like;

further preferably, the method for checking the transmission load condition includes the following steps:

ba: obtaining and analyzing historical data of the current communication channel load to obtain a corresponding historical load change trend value;

bb: predicting a future load change value of the current communication channel at a selected time by using the historical load change trend value;

bc: and setting a standard load threshold value of the communication channel, comparing the standard load threshold value with a future load change value, if the standard overload threshold value is less than the future load change value, reducing the load of the corresponding communication channel within a selected time, otherwise, if the standard overload threshold value is more than or equal to the future load change value, not acting, and enabling the communication channel to work as usual.

Still further preferably, the historical data of the communication channel load includes data of downlink transmitting power and uplink broadband total receiving power of the communication channel within a certain time;

the calculation formula of the historical load change trend value is as follows:

wherein, TR is a historical load change trend, n is a time point for sampling downlink transmitting power and uplink broadband total receiving power data, m is an integer larger than zero and smaller than n, and Δ P (I) is a change value of low-frequency components of the downlink transmitting power and uplink broadband total receiving power data at the time point I.

Wherein,

sp is a sampling period for sampling data of downlink transmitting power and uplink broadband total receiving power, and FP is a low-frequency component of the data of the downlink transmitting power and the uplink broadband total receiving power. />

Wherein,

p (i) is sampling data of downlink transmitting power and uplink broadband total receiving power; by predicting the future load change value of the current communication channel at the selected time, whether the overload condition occurs or not compared with the standard load threshold value of the communication channel is judged, the load condition of the current communication channel at the selected time is determined, and the prediction is improvedThe credibility of the load condition of the current communication channel in the selected time reduces the false alarm of the load condition of the communication channel.

When the communication statistical unit is used, the communication statistical unit is subdivided into a plurality of I-x class communication modules by the classification management unit, and each class of communication module can comprise a plurality of a-z class blocks, so that the communication modules belonging to the same class are subjected to stepped up-down class management, the failure can be traced back in place, and the management flow of each class and class is clear. The hierarchical control unit directly manages the communication statistical unit and each branch below the communication statistical unit, and specifically comprises the following steps: the data acquisition module is used for acquiring information of the branch type communication modules, the data processing module is used for encrypting the acquired communication information to ensure the confidentiality of later-period communication information transmission, the data backup module is used for storing target communication information, the environment monitoring module is used for monitoring communication channels occupied by the branch type communication modules to ensure the transmission safety, and if dangerous items are found, the early warning module is used for prompting and warning people to reduce loss. And during the use period of each communication channel, when the patrol module detects that each branch communication module and the lower level block thereof are in an idle state or are less than or equal to the standard utilization value, the patrol module can send service data as usual, otherwise, the patrol module transmits a signal to the regulation and control module to perform priority sequencing on the transmission communication channels. And in the later period, the searching unit is convenient for people to select different modes to quickly check and lock the communication information to be inquired.

The method has the advantages of realizing interconnection and intercommunication and information sharing of data information of the whole system, improving the management capability of the communication network of each branch, facilitating unified allocation and control of communication modules of each branch, being simple to operate, enabling the hierarchical management flow to be clear and the responsibility to be clear, and reducing the error rate of communication information data.

Example 2:

an apparatus for using the hierarchical communication system according to embodiment 1 is shown in fig. 2, and includes a communication mobile terminal 4, a communication base station 2, a communication relay station 3, and the like, which establish a communication connection with a communication platform 1, where the communication base station 2 is in a communication connection with the communication relay station 3, and a mobile apparatus establishes a connection with the communication platform 1 through the communication relay station 3 and the communication base station 2; by arranging the communication base station 2 and the communication relay station 3, a connection bridge is conveniently provided for the communication mobile terminal 4 and the communication platform 1, so that the quality of transmission signals is ensured.

The communication mobile terminal 4 may be a computer, a mobile communication device, or the like, and the number of the communication mobile terminals 4 may be plural, and is used for receiving and transmitting signals.

When the communication base station 2 and the communication relay station 3 are arranged, the communication mobile terminal 4 and the communication platform 1 can be conveniently connected through a bridge, and therefore the quality of transmission signals is ensured.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (6)

1. A hierarchical communication system comprises a communication platform (1), and is characterized in that the communication platform (1) consists of a communication statistical unit, a classification management unit for finely distinguishing and classifying the communication statistical unit according to a formulated division principle, a search unit for rapidly searching required data information, and a hierarchical control unit for pertinently managing the division content of the classification management unit;

the communication statistical unit is respectively in communication connection with the classification management unit, the searching unit and the grading control unit;

the communication statistical unit comprises a first-level communication module, a second-level communication module and a third-level communication module which correspond to different categories, wherein a-z level blocks are arranged under the communication modules of the different categories;

the classification management unit makes a classification principle, which comprises the following steps of classifying according to local level differentiation management, function level differentiation management, communication operation enterprise level differentiation management, different signal area intensity level differentiation management and communication information transmission magnitude management;

the search unit comprises a search box for inputting keywords and a list for displaying the category of the communication statistical unit;

the hierarchical control unit comprises a data acquisition module for collecting data of the communication channel, an environment monitoring module for monitoring the quality safety of the communication channel, a data processing module for encrypting the communication information through an encryption algorithm, a data backup module for storing and backing up the communication information and an early warning notification module for warning messages;

the quality safety monitoring comprises signal sending frequency and speed, signal delay and a blockage rate;

the data processing module comprises an information checking and verifying block for carrying out safety verification on the acquired communication information;

the environment monitoring module comprises a cleaning block for screening and filtering communication information transmission interference items;

the data backup module comprises a rule block for making storage requirements, an information sharing block for displaying communication information in a public mode and an information encryption block for covering the communication information, and the information sharing block comprises a display screen;

the early warning notification module comprises an alarm and a pushing module used for pushing notification information in a background.

2. The hierarchical communication system according to claim 1, wherein the hierarchical control unit further comprises a patrol module for detecting a utilization status of the communication channel and a control module for controlling priority transmission of the communication channel;

the standard for regulating and controlling the priority transmission of the communication channel comprises the transmission load condition and the importance of communication information.

3. The hierarchical communication system according to claim 2, wherein the method for detecting the utilization of the communication channel comprises the following steps:

aa: presetting a standard utilization value;

ab: the patrol module is used for monitoring the use condition of each branch communication module and the lower level chunks thereof, if the actual utilization value is less than or equal to the standard utilization value, the patrol module works as usual, and if the actual utilization value is greater than the standard utilization value, the patrol module transmits a signal to the regulation module.

4. The hierarchical communication system according to claim 3, wherein the method for checking the transmission load condition comprises the following steps:

ba: acquiring and analyzing historical data of the current communication channel load to obtain a corresponding historical load change trend value;

bb: predicting a future load change value of the current communication channel at a selected time by using the historical load change trend value;

bc: and setting a standard load threshold of the communication channel, comparing the standard load threshold with a future load change value, if the standard load threshold is less than the future load change value, reducing the load of the corresponding communication channel within a selected time, otherwise, if the standard load threshold is more than or equal to the future load change value, not taking the communication channel as the standard load threshold.

5. The hierarchical communication system according to claim 4, wherein the historical data of the communication channel load includes downlink transmission power and uplink broadband total received power data of the communication channel during a certain time.

6. An equipment for use in the hierarchical communication system according to any one of claims 1 to 5, comprising a communication mobile terminal (4) for establishing a communication connection with the communication platform (1), a communication base station (2) and a communication relay station (3), wherein the communication base station (2) is in communication connection with the communication relay station (3), and the communication mobile terminal (4) is connected with the communication platform (1) through the communication relay station (3) and the communication base station (2);

the communication mobile terminal (4) can be a computer or mobile communication equipment.

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