CN114900480B - Communication safety management and control system based on data platform - Google Patents

Abstract

The invention discloses a communication security management and control system based on a data platform, relates to the technical field of data transmission, and solves the technical problems that the transmission rate of transmitted data is too slow and the stolen coefficient in the transmission process is large; the capacity of data transmission is reasonably divided according to the bandwidth of a transmission channel, the data packets are divided into three different groups of data packets, different data packets are transmitted by adopting network channels with different bandwidths, the data packets with redundant capacity are processed again, the processing value is compared with the threshold value U inside a threshold value module, through the comparison result, the data packets with redundant capacity are adopted by adopting a corresponding transmission channel, the division transmission processing work of the data transmission is completed, the transmission mode is adopted, the efficiency is high, the slow data transmission cannot be caused, the encryption effect is improved in the data transmission process, the transmission efficiency is ensured, and the data transmission is enabled to obtain the sufficient transmission effect.

Description

Communication safety management and control system based on data platform

Technical Field

The invention belongs to the technical field of data transmission, and particularly relates to a communication safety management and control system based on a data platform.

Background

Data communication is a new communication mode generated by combining communication technology and computer technology, a transmission channel is necessary for transmitting information between two places, and according to different transmission media, the data communication is divided into wired data communication and wireless data communication, but the wired data communication and the wireless data communication are connected through the transmission channel, so that the data terminals at different places can share software, hardware and information resources.

When the data platform transmits data, the channel bandwidth of the transmission capacity is not suitable for corresponding transmission data when the data capacity is overlarge, so that the transmission rate of the transmission data is too slow, meanwhile, in the data transmission process, a corresponding encryption mode is not set inside, so that the danger coefficient is large when the data is transmitted, and the data is easily stolen by external personnel,

disclosure of Invention

The present invention is directed to solving at least one of the problems of the prior art; therefore, the invention provides a communication safety management and control system based on a data platform, which is used for solving the technical problems that the transmission speed of the transmitted data is too slow and the stealing coefficient is large in the transmission process.

In order to achieve the above object, an embodiment according to a first aspect of the present invention provides a communication security management and control system based on a data platform, including a data acquisition end, a data management and control end, and a network channel transmission end;

the data acquisition end is used for acquiring the data capacity of the transmission data and acquiring the bandwidth of the network channel in the network channel transmission end;

the data management and control end divides the transmission data into a plurality of groups of data packets according to the data capacity and the bandwidth, then adopts three groups of different network channels to transmit the data packets, and encrypts the transmission data in the transmission process;

and the network channel transmission end is internally provided with three groups of network transmission channels, and the internal bandwidths of each group of network transmission channels are different.

Preferably, the data management and control end comprises a processing module, a threshold module and an encryption module, the encryption module comprises a numbering unit, a splitting unit and a management and control unit, the output end of the numbering unit is electrically connected with the input end of the splitting unit, and the output end of the splitting unit is electrically connected with the input end of the management and control unit.

Preferably, the bandwidths of the three groups of network transmission channels are marked as DK1, DK2 and DK3, wherein DK1 is more than DK2 and less than DK3, DK1 has small bandwidth and small transmission capacity, but has high transmission rate, and DK3 has large bandwidth and large transmission capacity but low transmission rate, wherein DK2 is centered.

Preferably, the data management and control end encrypts the transmission data in the following manner:

s1, a numbering unit numbers transmission data in advance, the number value of the number is not lower than three groups of number values, and the numbering unit marks the number of the transmission data as 123;

s2, when the splitting unit splits and splits the transmission data with the serial number of 123, the transmission data are split into three groups of data packets, the internal marks of the three groups of data packets are respectively marked as 1, 2 and 3 according to system settings, and the transmission data with the serial number of 123 are randomly split into three groups of numerical marks;

s3, the management and control unit processes the three groups of numerical value marks again, an encryption value alpha is set in the management and control unit, the expression forms of the three groups of data packet numerical value marks are set to be X, Y and Z, and the marks X, Y and Z are changed into (X + alpha), (Y + alpha) and (Z + alpha);

and S4, the management and control unit generates a memory terminal, the changed numerical markers (X + alpha), (Y + alpha) and (Z + alpha) of the three groups of data packets are memorized, the memory data also comprises the arrangement modes of (X + alpha), (Y + alpha) and (Z + alpha), after the three groups of data packets and the memory terminal are transmitted to the corresponding terminal through the network channel transmission end, the memory terminal arranges and binds the three groups of data packets according to the memorized numerical markers and the arrangement modes, and the transmitted data is arranged in order.

Preferably, the data management and control end divides the transmission data into a plurality of groups of data packets according to the data capacity and the bandwidth in a processing manner that:

w1, a data acquisition end firstly acquires bandwidths of three groups of network channels, wherein the bandwidths of the three groups of network channels are respectively marked as DK1, DK2 and DK3, the data capacity of transmission data is acquired and marked as RL;

w2, adopt

Obtaining a capacity residual value SY, wherein

Is a correction factor, has a value of 0.98562, as described above

Is a factor for the change of the integer number,

is a positive integer;

w3, again processing the capacity residual value SY, adopting

And

obtaining three groups of channel determination values QD1, QD2 and QD3;

w4, comparing the three groups of channel determination values QD1, QD2 and QD3 with an internal threshold value U of the threshold module, extracting a channel determination value lower than the internal threshold value U, then performing comparison processing on the channel determination values, extracting the minimum value of the channel determination values, then extracting corresponding channel marks, determining a transmission channel, and transmitting a data packet with a capacity residual value SY by using the transmission channel;

w5, when the three channel determination values QD1, QD2 and QD3 are all larger than the threshold module internal threshold value U, repeating the steps W2 and W3 to ensure that

And performing the calculation again until the three channel determination values QD1, QD2 and QD3 are all less than or equal to the internal threshold U of the threshold module, and stopping the calculation.

Preferably, a corresponding threshold U is arranged inside the threshold module, and a comparison unit is arranged inside the threshold module, and the comparison unit is used for comparing the three sets of channel determination values QD1, QD2, and QD3 with the threshold U.

Compared with the prior art, the invention has the beneficial effects that: the method comprises the steps that firstly, the capacity of transmission data and the bandwidth of a transmission channel are obtained through a data obtaining end, wherein different network channels are provided with different bandwidths, the different bandwidths represent different transmission rates, the smaller bandwidth is suitable for the transmission of the data with the smaller capacity, the transmission rate is high, and when the channel with the smaller bandwidth transmits the data with the larger capacity, the data transmission is slow;

the capacity of the transmission data is reasonably divided according to the bandwidth of the transmission channel, the transmission data is divided into three groups of different data packets, the data packets with redundant capacity are processed again, the processing value is compared with the threshold value U inside the threshold value module, and the data packets with redundant capacity are transmitted through the corresponding transmission channel according to the comparison result to finish the division transmission processing work of the transmission data;

divide into three data packets with the data package, mark respectively three data packets of group again, adopt corresponding memory terminal to remember, transmit to corresponding equipment end after, arrange the arrangement to three data packets of group, this kind of transmission encryption mode, effectively promote the encryption nature, avoid outside personnel to steal data, adopt the multiunit passageway to transmit, simultaneously in transmission process, the mark to data changes, can effectively avoid outside personnel to extract according to the data serial number and obtain corresponding data, guarantee that data can not be stolen, promote encryption effect.

Drawings

Fig. 1 is a schematic diagram of the principle framework of the present invention.

Detailed Description

The technical solutions of the present invention will be described clearly and completely with reference to the following embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1, the present application provides a communication security management and control system based on a data platform, including a data acquisition end, a data management and control end, and a network channel transmission end, where the data acquisition end and the data management and control end are both connected to the network channel transmission end in a bidirectional manner, and an output end of the data acquisition end is electrically connected to an input end of the data management and control end;

the data management and control end comprises a processing module, a threshold module and an encryption module, wherein the processing module is in bidirectional connection with the threshold module, and the processing module is in bidirectional connection with the encryption module;

the encryption module comprises a numbering unit, a splitting unit and a control unit, wherein the output end of the numbering unit is electrically connected with the input end of the splitting unit, and the output end of the splitting unit is electrically connected with the input end of the control unit;

the data acquisition terminal is used for acquiring the data capacity of the transmission data and acquiring the bandwidths of a plurality of groups of network channels, wherein the plurality of groups of network channels can be three groups;

the data management and control end divides the transmission data into a plurality of groups of data packets according to the data capacity and the bandwidth, then adopts three groups of different network channels to transmit the data packets, and encrypts the transmission data in the transmission process;

the data management and control end encrypts the transmission data in the following modes:

s1, a numbering unit numbers the transmission data in advance, the number value is not lower than three groups of number values, the numbering unit marks the number of the transmission data as 123, 123 is one of the expression forms, and can be 124, 125 or other values;

s2, when the splitting unit splits and splits the transmission data with the number of 123, the transmission data are split into three groups of data packets, the internal marks of the three groups of data packets are respectively marked as 1, 2 and 3 according to system settings, if the number is 1234, the internal marks of the three groups of data packets can be split into 1, 2 and 34, or 12, 3 and 4, or can be split into 1, 23 and 4, and the transmission data with the number of 123 are randomly split into three groups of numerical marks;

s3, the management and control unit processes the three groups of numerical value marks again, an encryption value alpha is set inside the numerical value marks, the expression forms of the numerical value marks of the three groups of data packets are set to be X, Y and Z, and the marks X, Y and Z are changed into (X + alpha), (Y + alpha) and (Z + alpha);

and S4, the management and control unit generates a memory terminal, the changed numerical markers (X + alpha), (Y + alpha) and (Z + alpha) of the three groups of data packets are memorized, the memory data also comprises the arrangement modes of (X + alpha), (Y + alpha) and (Z + alpha), after the three groups of data packets and the memory terminal are transmitted to the corresponding terminal through the network channel transmission end, the memory terminal arranges and binds the three groups of data packets according to the memorized numerical markers and the arrangement modes, and the transmitted data is arranged in order.

The data transmission mode can effectively improve the encryption property, avoids the stealing of data by external personnel, adopts a plurality of groups of channels for transmission, and simultaneously changes the marks of the data in the transmission process, thereby effectively avoiding the external personnel from extracting corresponding data according to the data serial number, ensuring that the data can not be stolen and improving the encryption effect;

the data management and control end divides the transmission data into a plurality of groups of data packets according to the data capacity and the bandwidth in a processing mode that:

w1, a data acquisition end firstly acquires bandwidths of three groups of network channels, and marks the bandwidths of the three groups of network channels as DK1, DK2 and DK3 respectively, wherein DK1 is more than DK2 and less than DK3, the bandwidth of the DK1 network channel is small, the transmission capacity is small, but the transmission rate is high, the bandwidth of the DK3 network channel is large, the transmission capacity is large, but the transmission rate is low, and the DK2 is centered, acquires the data capacity of transmission data, and marks the data capacity as RL;

w2, adopt

Obtaining a capacity residual value SY, wherein

Is a correction factor, has a value of 0.98562, as described above

Is a factor for the change of the integer number,

is a positive integer;

w3, processing the capacity surplus value SY again, adopting

And

obtaining three groups of channel determination values QD1, QD2 and QD3;

w4, comparing the three groups of channel determination values QD1, QD2 and QD3 with an internal threshold value U of the threshold module, extracting a channel determination value lower than the internal threshold value U, then performing comparison processing on the channel determination values, extracting the minimum value of the channel determination values, then extracting corresponding channel marks, determining a transmission channel, and transmitting a data packet with a capacity residual value SY by using the transmission channel;

w5, when the three channel determination values QD1, QD2 and QD3 are all larger than the threshold module internal threshold value U, repeating the steps W2 and W3 to ensure that

And performing the calculation again until the three channel determination values QD1, QD2 and QD3 are all less than or equal to the internal threshold U of the threshold module, and stopping the calculation.

The threshold module is internally provided with a corresponding threshold U, and the threshold module is internally provided with a comparison unit which is used for comparing the three groups of channel determination values QD1, QD2 and QD3 with the threshold U;

the method comprises the steps that firstly, the capacity of transmission data and the bandwidth of a transmission channel are obtained through a data obtaining end, wherein different network channels are provided with different bandwidths, the different bandwidths represent different transmission rates, the smaller bandwidth is suitable for the transmission of the data with the smaller capacity, the transmission rate is high, and when the channel with the smaller bandwidth transmits the data with the larger capacity, the data transmission is slow;

the capacity of data transmission is reasonably divided according to the bandwidth of a transmission channel, the data packets are divided into three different groups of data packets, the data packets with redundant capacity are processed again, the processing value is compared with the threshold value U inside the threshold value module, the corresponding transmission channel is adopted for the data packets with redundant capacity through the comparison result, the division transmission processing work of the data transmission is completed, the transmission mode is adopted, the efficiency is high, the data transmission is slow, the encryption effect is improved in the data transmission process, the transmission efficiency is guaranteed simultaneously, and the data transmission is enabled to obtain the sufficient transmission effect.

Part of data in the formula is obtained by removing dimensions and calculating the numerical value of the data, and the formula is a formula which is closest to the real condition and obtained by simulating a large amount of collected data through software; the preset parameters and the preset threshold values in the formula are set by those skilled in the art according to actual conditions or obtained through simulation of a large amount of data.

The working principle of the invention is as follows: the method comprises the steps that firstly, the capacity of transmission data and the bandwidth of a transmission channel are obtained through a data obtaining end, wherein different network channels are provided with different bandwidths, the different bandwidths represent different transmission rates, the smaller bandwidth is suitable for the transmission of the data with the smaller capacity, the transmission rate is high, and when the channel with the smaller bandwidth transmits the data with the larger capacity, the data transmission is slow;

the capacity of the transmission data is reasonably divided according to the bandwidth of the transmission channel, the transmission data is divided into three groups of different data packets, the data packets with redundant capacity are processed again, the processing value is compared with the threshold value U inside the threshold value module, and the data packets with redundant capacity are transmitted through the corresponding transmission channel according to the comparison result to finish the division transmission processing work of the transmission data;

divide into three data packets with the data package, mark respectively three data packets of group again, adopt corresponding memory terminal to remember, transmit to corresponding equipment end after, arrange the arrangement to three data packets of group, this kind of transmission encryption mode, effectively promote the encryption nature, avoid outside personnel to steal data, adopt the multiunit passageway to transmit, simultaneously in transmission process, the mark to data changes, can effectively avoid outside personnel to extract according to the data serial number and obtain corresponding data, guarantee that data can not be stolen, promote encryption effect.

Although the present invention has been described in detail with reference to the preferred embodiments, it will be understood by those skilled in the art that various changes may be made and equivalents may be substituted for elements thereof without departing from the spirit and scope of the present invention.

Claims (2)

1. The communication safety management and control system based on the data platform is characterized by comprising a data acquisition end, a data management and control end and a network channel transmission end;

the data acquisition end is used for acquiring the data capacity of the transmission data and acquiring the bandwidth of the internal network channel of the network channel transmission end;

the data management and control end divides the transmission data into a plurality of groups of data packets according to the data capacity and the bandwidth, then adopts three groups of different network channels to transmit the data packets, and encrypts the transmission data in the transmission process;

the network channel transmission end is internally provided with three groups of network transmission channels, and the internal bandwidths of each group of network transmission channels are different;

the data management and control end comprises a processing module, a threshold module and an encryption module, the encryption module internally comprises a numbering unit, a splitting unit and a management and control unit, the output end of the numbering unit is electrically connected with the input end of the splitting unit, and the output end of the splitting unit is electrically connected with the input end of the management and control unit;

the bandwidths of the three groups of network transmission channels are marked as DK1, DK2 and DK3, wherein DK1 is more than DK2 and less than DK3, the bandwidth of the DK1 network channel is small, the transmission capacity is small, but the transmission rate is high, the bandwidth of the DK3 network channel is large, the transmission capacity is large, but the transmission rate is low, and the DK2 is centered;

the data management and control end encrypts the transmission data in the following way:

s1, a numbering unit numbers transmission data in advance, the number value of the number is not lower than three groups of number values, and the numbering unit marks the number of the transmission data as 123;

s2, when the splitting unit splits and splits the transmission data with the serial number of 123, the transmission data are split into three groups of data packets, the internal marks of the three groups of data packets are respectively marked as 1, 2 and 3 according to system settings, and the transmission data with the serial number of 123 are randomly split into three groups of numerical marks;

s3, the management and control unit processes the three groups of numerical value marks again, an encryption value alpha is set in the management and control unit, the expression forms of the three groups of data packet numerical value marks are set to be X, Y and Z, and the marks X, Y and Z are changed into (X + alpha), (Y + alpha) and (Z + alpha);

s4, the management and control unit generates a memory terminal, the changed numerical markers (X + alpha), (Y + alpha) and (Z + alpha) of the three groups of data packets are memorized, the memory data also comprises the arrangement modes of (X + alpha), (Y + alpha) and (Z + alpha), after the three groups of data packets and the memory terminal are transmitted to a corresponding terminal through a network channel transmission end, the memory terminal arranges and binds the three groups of data packets according to the memorized numerical markers and the arrangement modes, and the transmitted data is arranged in an arranging mode;

the data management and control end divides the transmission data into a plurality of groups of data packets according to the data capacity and the bandwidth in a processing mode that:

w1, a data acquisition end firstly acquires bandwidths of three groups of network channels, wherein the bandwidths of the three groups of network channels are respectively marked as DK1, DK2 and DK3, the data capacity of transmission data is acquired and marked as RL;

w2, adopt

Obtaining a capacity residual value SY, wherein

Is a correction factor, has a value of 0.98562, as described above

Is a factor for the change of the integer number,

is a positive integer;

w3, processing the capacity surplus value SY again, adopting

And

obtaining three groups of channel determination values QD1, QD2 and QD3;

w4, comparing the three groups of channel determination values QD1, QD2 and QD3 with an internal threshold value U of the threshold module, extracting a channel determination value lower than the internal threshold value U, then performing comparison processing on the channel determination values, extracting the minimum value of the channel determination values, then extracting corresponding channel marks, determining a transmission channel, and transmitting a data packet with a capacity residual value SY by using the transmission channel;

w5, when the three channel determination values QD1, QD2 and QD3 are all larger than the threshold module internal threshold value U, repeating the steps W2 and W3 to ensure that

And performing the calculation again until the three channel determination values QD1, QD2 and QD3 are all less than or equal to the internal threshold U of the threshold module, and stopping the calculation.

2. The data platform-based communication security management and control system of claim 1, wherein a corresponding threshold U is disposed inside the threshold module, and a comparison unit is disposed inside the threshold module, and the comparison unit is configured to compare the three channel determination values QD1, QD2, and QD3 with the threshold U.

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