CN114244615A - Signal self-encryption system of communication equipment - Google Patents

Abstract

The invention discloses a signal self-encryption system of communication equipment, relating to the technical field of communication equipment and comprising a communication center, the communication center is in communication connection with a signal transmitting module, a signal processing module and a signal receiving module, a user inputs communication information to be transmitted through a temporary communication information input port and then passes through the signal processing module, classifying the communication information input by the user, converting the content of the communication information into data stream, by means of the combined order of the sequences of digitally encoded signals in the data stream, an information encryption sequence is obtained, therefore, the content of the communication information input by the user is encrypted, the safety of the communication information in transmission is improved, the risk of intercepting the communication content midway is reduced, and the communication content is decrypted in the communication connecting channel through the information decryption sequence, so that the interference information in the communication information can be avoided.

Description

Signal self-encryption system of communication equipment

Technical Field

The invention relates to the technical field of communication equipment, in particular to a signal self-encryption system of communication equipment.

Background

Before communication information reaches target communication equipment, the communication information is easily subjected to intervention of external interception or interference information, and then information distortion or loss is caused, so that the information received by a user is abnormal, the communication information is identified in a communication connecting channel through an information access encryption protocol, and non-access information is prevented from entering the communication connecting channel and being mistakenly transmitted to the target communication equipment.

Disclosure of Invention

The invention aims to provide a signal self-encryption system of communication equipment.

The purpose of the invention can be realized by the following technical scheme: a signal self-encryption system of communication equipment comprises a communication center, wherein the communication center is in communication connection with a signal transmitting module, a signal processing module and a signal receiving module;

the signal transmitting module is used for generating communication information according to user requirements and sending the communication information to the signal processing module; the signal processing module is used for processing communication information input by a user, converting the communication information into data stream and finishing encryption of the communication information;

the signal receiving module is used for receiving data streams transmitted by other communication equipment, and verifying and decrypting the received data streams through the signal processing module, so as to judge whether the received data streams contain non-admittance information and interference data streams.

Further, the process of generating the communication information by the signal transmitting module includes:

a user acquires a communication request through a communication center, establishes a temporary communication information input port and acquires the communication type of the user communication request through the temporary communication input port;

generating a communication connection channel according to the communication type, inputting a quasi-access coding sequence of the target communication equipment into the communication connection channel, and then sending the quasi-access coding sequence of the target communication equipment to the target communication equipment through a signal transmitting module;

the user inputs the communication information to be transmitted through the temporary communication information input port.

Further, the processing procedure of the communication information by the signal processing module includes:

acquiring the information type of communication information, generating an information identification tag according to the information type of the communication information, binding the information identification tag with a quasi-access coding sequence of target communication equipment, and then generating an information access encryption protocol according to the information after the information identification tag is bound with the quasi-access coding sequence of the target communication equipment;

and acquiring the information content of the communication information, converting the information content of the communication information into a data stream, and marking the data stream as plaintext information.

Furthermore, the data stream is formed by combining a plurality of digital coding signal sequences according to a certain sequence;

labeling each digital coding signal sequence according to the sequence, then generating an information encryption sequence, encrypting a data stream through the information encryption sequence, then generating an information decryption sequence according to the information encryption sequence, and sending the information decryption sequence and the information access encryption protocol to the target communication equipment together.

Further, the process of processing the data stream received by the signal receiving module by the signal processing module includes:

receiving an information access encryption protocol and an information decryption sequence through a signal receiving module;

and verifying the data stream entering the communication connection channel through the information access encryption protocol, and decrypting the content of the data stream through the information decryption sequence if the verification is passed.

Further, the process of verifying the data stream by the information admission encryption protocol includes:

acquiring whether a data stream entering a communication connection channel contains an information identification label, if the communication information does not contain the information identification label, judging the data stream as non-access-permitting information, and marking the non-access-permitting information;

if the data stream contains the information identification label, identifying the information identification label of the data stream through an information access encryption protocol, if the information identification label cannot be identified through the information access encryption protocol, judging the data stream to be non-access information, and marking the communication information;

and if the information identification tag passes the identification of the information access encryption protocol, determining that the data stream is access information.

Further, the process of decrypting the content of the data stream by the information decryption sequence includes:

acquiring a digital coding signal sequence of a data stream, acquiring a digital coding signal sequence combination sequence of the data stream, and then verifying the digital coding signal sequence combination sequence of the data stream through an information decryption sequence;

if the digital coding signal sequence of the data stream has an unknown digital coding signal sequence, marking the digital coding signal sequence and judging the digital coding signal sequence as an interference data stream;

and eliminating the interference data stream, and converting the data stream extracted by the interference data stream into communication content.

Further, the information access encryption protocol is used as a communication protocol of the communication connection channel.

Compared with the prior art, the invention has the beneficial effects that:

after a user inputs communication information to be transmitted through the temporary communication information input port, the communication information input by the user is classified through the signal processing module, the content of the communication information is converted into a data stream, an information encryption sequence is obtained through the combination sequence of digital coding signal sequences in the data stream, the content of the communication information input by the user is encrypted, the safety of the communication information during transmission is improved, the risk of intercepting the communication content midway is reduced, the communication content is decrypted in a communication connecting channel through the information decryption sequence, and therefore the phenomenon that interference information exists in the communication information can be avoided.

Drawings

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

Detailed Description

As shown in fig. 1, a signal self-encryption system of a communication device includes a communication center, which is communicatively connected with a signal transmitting module, a signal processing module and a signal receiving module;

the signal transmitting module is used for generating communication signals according to user requirements, and the specific process comprises the following steps:

a user acquires a communication request through a communication center, establishes a temporary communication information input port and acquires the communication type of the user communication request through the temporary communication input port;

generating a communication connection channel according to the communication type, inputting a quasi-access coding sequence of the target communication equipment into the communication connection channel, and then sending the quasi-access coding sequence of the target communication equipment to the target communication equipment through a signal transmitting module;

it should be further explained that, in the specific implementation process, when the target communication device refuses to receive the quasi-access coding sequence, the quasi-access coding sequence is returned to the user, and the communication connection channel is cancelled; when the target communication equipment receives the quasi-access coding sequence, the communication equipment of the user is in communication connection with the target communication equipment through the communication connection channel;

the user inputs the communication information to be transmitted through the temporary communication information input port, then the communication information input by the user is marked and sent to the signal processing module.

The signal processing module is used for processing the communication information input by the user, and the specific processing process comprises the following steps:

acquiring the information type of communication information, wherein the information type comprises sound recording information, video information, character information, real-time voice information and real-time video information;

generating an information identification tag according to the information type of the communication information, binding the information identification tag with a quasi-access coding sequence of the target communication equipment, and then generating an information access encryption protocol according to the information after the information identification tag is bound with the quasi-access coding sequence of the target communication equipment;

acquiring information content of communication information, and converting the information content of the communication information into data stream;

marking a data stream as plaintext information, wherein in a specific implementation process, the data stream is formed by combining a plurality of digital coding signal sequences according to a certain sequence;

labeling each digital coding signal sequence according to the sequence, then generating an information encryption sequence, encrypting a data stream through the information encryption sequence, then generating an information decryption sequence according to the information encryption sequence, and sending the information decryption sequence and the information access encryption protocol to the target communication equipment together.

It should be further noted that, in the specific implementation process, after the user inputs the communication information to be transmitted through the temporary communication information input port, the communication information input by the user is classified through the signal processing module, the content of the communication information is converted into a data stream, and an information encryption sequence is obtained through the combination sequence of the digital coding signal sequences in the data stream, so that the content of the communication information input by the user is encrypted, the security of the communication information during transmission is improved, and the risk of intercepting the communication content in midway is reduced.

The signal receiving module is used for receiving data streams transmitted by other communication devices, the signal processing module is further used for processing the data streams received by the signal receiving module, and the specific processing process comprises the following steps:

receiving an information access encryption protocol and an information decryption sequence through a signal receiving module, and then using the information access encryption protocol as a communication protocol of a communication connection channel;

the data flow entering the communication connection channel is verified through an information access encryption protocol, and the specific verification process comprises the following steps:

acquiring whether a data stream entering a communication connection channel contains an information identification label, if the communication information does not contain the information identification label, judging the data stream as non-access-permitting information, and marking the non-access-permitting information;

if the data stream contains the information identification label, identifying the information identification label of the data stream through an information access encryption protocol, if the information identification label cannot be identified through the information access encryption protocol, judging the data stream to be non-access information, and marking the communication information;

if the information identification tag passes the identification of the information access encryption protocol, the data stream is judged to be access information, and then the content of the data stream is decrypted through an information decryption sequence, wherein the specific decryption process comprises the following steps:

acquiring a digital coding signal sequence of a data stream, acquiring a digital coding signal sequence combination sequence of the data stream, and then verifying the digital coding signal sequence combination sequence of the data stream through an information decryption sequence;

if the digital coding signal sequence of the data stream has an unknown digital coding signal sequence, marking the digital coding signal sequence and judging the digital coding signal sequence as an interference data stream;

and eliminating the interference data stream, and converting the data stream extracted by the interference data stream into communication content.

It should be further noted that, in the specific implementation process, after the information processing module completes the processing of the data stream received by the signal receiving module, the information processing module intercepts the non-access-permitted information in the communication connection channel, then uploads the access-permitted information to the communication center, and the user acquires the received communication content through the communication center;

in the specific implementation process, before the communication information reaches the target communication equipment, the communication information is easily subjected to the intervention of external interception or interference information, and then the information is distorted or lost, so that the information received by a user is abnormal, the communication information is identified in the communication connecting channel through an information access encryption protocol, so that the situation that non-access information enters the communication connecting channel and is mistakenly transmitted to the target communication equipment is avoided, and meanwhile, the communication content is decrypted in the communication connecting channel through an information decryption sequence, so that the situation that the interference information exists in the communication information can be avoided.

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 (8)

1. A signal self-encryption system of communication equipment comprises a communication center, and is characterized in that the communication center is in communication connection with a signal transmitting module, a signal processing module and a signal receiving module;

the signal transmitting module is used for generating communication information according to user requirements and sending the communication information to the signal processing module; the signal processing module is used for processing communication information input by a user, converting the communication information into data stream and finishing encryption of the communication information;

the signal receiving module is used for receiving data streams transmitted by other communication equipment, and verifying and decrypting the received data streams through the signal processing module, so as to judge whether the received data streams contain non-admittance information and interference data streams.

2. The signal self-encryption system of communication equipment according to claim 1, wherein the process of generating the communication information by the signal transmitting module comprises:

a user acquires a communication request through a communication center, establishes a temporary communication information input port and acquires the communication type of the user communication request through the temporary communication input port;

generating a communication connection channel according to the communication type, inputting a quasi-access coding sequence of the target communication equipment into the communication connection channel, and then sending the quasi-access coding sequence of the target communication equipment to the target communication equipment through a signal transmitting module;

the user inputs the communication information to be transmitted through the temporary communication information input port.

3. The signal self-encryption system of communication equipment according to claim 2, wherein the processing procedure of the communication information by the signal processing module comprises:

acquiring the information type of communication information, generating an information identification tag according to the information type of the communication information, binding the information identification tag with a quasi-access coding sequence of target communication equipment, and then generating an information access encryption protocol according to the information after the information identification tag is bound with the quasi-access coding sequence of the target communication equipment;

and acquiring the information content of the communication information, converting the information content of the communication information into a data stream, and marking the data stream as plaintext information.

4. The signal self-encryption system of a communication device as claimed in claim 3, wherein said data stream is composed of a plurality of digital coded signal sequences in a certain order;

labeling each digital coding signal sequence according to the sequence, then generating an information encryption sequence, encrypting a data stream through the information encryption sequence, then generating an information decryption sequence according to the information encryption sequence, and sending the information decryption sequence and the information access encryption protocol to the target communication equipment together.

5. The signal self-encryption system of communication equipment according to claim 4, wherein the processing of the data stream received by the signal receiving module by the signal processing module comprises:

receiving an information access encryption protocol and an information decryption sequence through a signal receiving module;

and verifying the data stream entering the communication connection channel through the information access encryption protocol, and decrypting the content of the data stream through the information decryption sequence if the verification is passed.

6. The signal self-encryption system of communication equipment as claimed in claim 5, wherein the procedure of authenticating the data stream by the information admission encryption protocol comprises:

acquiring whether a data stream entering a communication connection channel contains an information identification label, if the communication information does not contain the information identification label, judging the data stream as non-access-permitting information, and marking the non-access-permitting information;

if the data stream contains the information identification label, identifying the information identification label of the data stream through an information access encryption protocol, if the information identification label cannot be identified through the information access encryption protocol, judging the data stream to be non-access information, and marking the communication information;

and if the information identification tag passes the identification of the information access encryption protocol, determining that the data stream is access information.

7. The signal self-encryption system of communication equipment according to claim 6, wherein the process of decrypting the content of the data stream by the information decryption sequence comprises:

acquiring a digital coding signal sequence of a data stream, acquiring a digital coding signal sequence combination sequence of the data stream, and then verifying the digital coding signal sequence combination sequence of the data stream through an information decryption sequence;

if the digital coding signal sequence of the data stream has an unknown digital coding signal sequence, marking the digital coding signal sequence and judging the digital coding signal sequence as an interference data stream;

and eliminating the interference data stream, and converting the data stream extracted by the interference data stream into communication content.

8. The signal self-encryption system of communication equipment according to claim 6, wherein the information admission encryption protocol is used as a communication protocol of the communication connection channel.

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