阅读说明：本技术 一种可防止信息误传的通讯传输系统 (Communication transmission system capable of preventing information from being mistransmitted ) 是由 黄永权 李锦基 龙泽 付长财 曾洋林 于 2019-10-29 设计创作，主要内容包括：本发明公开了一种可防止信息误传的通讯传输系统,涉及通讯技术领域。本发明包括上传端、规则库、数据传输端、校验端、反馈单元、本地单元、显示单元、接收端。本发明通过校验端根据规则库内的校验规则对待传输信息目标输出端进行校验,将通用校验值分别与通用核验值、专用核验值相比较,或将专用校验值分别与通用核验值、专用核验值相比较,待传输信息的目标输出端为正确输出端时,对信息继续进行传输,否则,目标输出端为误传端,显示单元接收到反馈单元传输的误传信息时显示“信息误传”字样,极大程度的防止因信息错传、误传、信息泄密造成的安全问题,在网络化、信息化的进程不可逆转的形势下,为信息的传输规避风险。(The invention discloses a communication transmission system capable of preventing information from being mistakenly transmitted, and relates to the technical field of communication. The invention comprises an uploading end, a rule base, a data transmission end, a checking end, a feedback unit, a local unit, a display unit and a receiving end. The invention checks the target output end of the information to be transmitted through the checking end according to the checking rule in the rule base, compares the general checking value with the general checking value and the special checking value respectively, or compares the special checking value with the general checking value and the special checking value respectively, and continuously transmits the information when the target output end of the information to be transmitted is the correct output end, otherwise, the target output end is the error transmission end, and the display unit displays the 'information error transmission' word when receiving the error transmission information transmitted by the feedback unit, thereby greatly preventing the safety problem caused by information error transmission, error transmission and information leakage, and avoiding the risk of information transmission under the condition that the networking and informatization process is irreversible.)

1. A communication transmission system capable of preventing information from being mistakenly transmitted is characterized by comprising an uploading end, a rule base, a data transmission end, a verification end, a feedback unit, a local unit, a display unit and a receiving end;

the uploading end is used for transmitting the information to be transmitted and the jitter standard value

the data transmission end transmits the information to be transmittedMean value of breath and beat

the checking terminal checks the target output terminal Sj of the information to be transmitted according to the checking rule in the rule base, wherein j is an integer, j =1, 2, 3, … and n, and a plurality of target output terminals Sj can be transmitted at one time;

the local unit is used for uploading the verification rule to the verification end;

the check rule is as follows:

SS 01: according to the information to be transmitted, the jitter criterionOr a universal standard value

SS 02: calculating a general verification value H and a special verification value Hz according to a verification rule uploaded by a local unit, wherein Hz represents a verification value corresponding to a receiving terminal n, and n is an integer;

SS 03: respectively comparing the general check value K with the general check value H and the special check value Hz, or respectively comparing the special check value Kj with the general check value H and the special check value Hz;

when in use

wherein the content of the first and second substances,

and the display unit displays the character of 'information misdelivery' when receiving the misdelivery information transmitted by the feedback unit.

2. The communication transmission system according to claim 1, wherein in step SS01, the method for obtaining the general check value K of the information to be transmitted or the special check value Kj of the target output Sj comprises:

SS 011: obtaining the time point X of uploading information to be transmitted₁X₂When X₃X₄Dividing;

SS 012: calculating a universal check value K according to the time point uploaded by the information to be transmitted, wherein,

wherein the content of the first and second substances,

3. The communication transmission system according to claim 1, wherein the method for calculating the general verification value H and the special verification value Hz in step SS02 comprises:

SS 021: acquiring time point X of calling verification rule by verification terminal₅X₆When X₇X₈Dividing;

SS 022: calculating a generic verification value H according to a verification rule, wherein,i is an integer; or a special verification value Hz is calculated according to a verification rule, wherein,

wherein the content of the first and second substances,

4. The communication transmission system according to claim 1, wherein the communication transmission system is capable of preventing the information from being mistransmitted, and comprises:

the target output ends Sj correspond to receiving ends one by one, and the receiving ends comprise a receiving end 1, a receiving end 2, receiving ends 3 and … and a receiving end n;

the jitter threshold

5. A communication transmission system for preventing misdelivery of information according to claim 2 or 3, wherein:

the values of r are:

Technical Field

The invention belongs to the technical field of communication, and particularly relates to a communication transmission system capable of preventing information from being mistakenly transmitted.

Background

Information transmission is an important link in the modern communication process, and in the information transmission process, the accuracy rate of information transmission is required to be high, the requirement speed is high, and the connection process is simple. Because of the openness and universality of the internet, all information on the internet is public to all people, and therefore the problem of information security on the network is increasingly highlighted.

How to protect information security and network security, and reduce or avoid economic loss and influence on enterprise image caused by security problems such as information mistransmission, information divulgence to the maximum extent are the problems that need to be solved urgently before people.

The communication transmission system capable of preventing the information from being mistakenly transmitted is provided, and the safe and accurate transmission of the information is ensured.

Disclosure of Invention

The invention aims to provide a communication transmission system capable of preventing information from being mistakenly transmitted, a target output end Sj of information to be transmitted is verified by a verifying end according to a verifying rule in a rule base, the information is continuously transmitted when the target output end Sj of the information to be transmitted is a correct output end, otherwise, the target output end Sj is a mistaken transmission end, a display unit displays an 'information mistaken transmission' word when receiving the mistaken transmission information transmitted by a feedback unit, and the safety problem caused by information mistaken transmission, mistaken transmission and information disclosure is greatly prevented.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a communication transmission system capable of preventing information from being mistakenly transmitted, which comprises an uploading end, a rule base, a data transmission end, a verification end, a feedback unit, a local unit, a display unit and a receiving end, wherein the uploading end is connected with the rule base; the uploading end is used for transmitting the information to be transmitted and the jitter standard valueOr a universal standard value

Uploading to a data transmission end; the data transmission end transmits the information to be transmitted and the jitter standard value

Or a universal standard value

Transmitting to a checking end; the checking terminal checks the target output terminal Sj of the information to be transmitted according to the checking rule in the rule base, wherein j is an integer, j =1, 2, 3, … and n, a plurality of target output terminals Sj can be transmitted at one time, and a plurality of corresponding uploading terminals are provided; the local unit is used for uploading the verification rule to the verification end; the check rule is as follows:

SS 01: according to the information to be transmitted, the jitter criterionOr a universal standard value

Acquiring a general check value K of information to be transmitted or a special check value Kj of a target output end Sj;

SS 02: calculating a general verification value H and a special verification value Hz according to a verification rule uploaded by a local unit, wherein Hz represents a verification value corresponding to a receiving terminal n, and n is an integer;

SS 03: respectively comparing the general check value K with the general check value H and the special check value Hz, or respectively comparing the special check value Kj with the general check value H and the special check value Hz;

when in use

Or

If so, the target output end Sj of the information to be transmitted is a correct output end, otherwise, the target output end Sj is a mistransmission end, and the check end transmits the mistransmission information to the display unit through the feedback unit for display; the display unitWhen misdelivery information transmitted by the feedback unit is received, displaying the word of 'information misdelivery';

。

further, in step SS01, the method for obtaining the general check value K of the information to be transmitted or the special check value Kj of the target output terminal Sj includes:

SS 011: obtaining the time point X of uploading information to be transmitted₁X₂When X₃X₄Dividing;

SS 012: calculating a universal check value K according to the time point uploaded by the information to be transmitted, wherein,

i is an integer; or calculating the special check value Kj of the target output end Sj according to the time point uploaded by the information to be transmitted, wherein,

；

wherein the content of the first and second substances,

the jitter criterion corresponding to the target output terminal Sj,

r general criteria.

Further, in step SS02, the method for calculating the general verification value H and the special verification value Hz includes:

SS 021: acquiring time point X of calling verification rule by verification terminal₅X₆When X₇X₈Dividing;

SS 022: calculating a generic verification value H according to a verification rule, wherein,

i is an integer; or a special verification value Hz is calculated according to a verification rule, wherein,

；

wherein the content of the first and second substances,

a corresponding preset verification criterion value for the receiving end n,

the values are r check criteria.

Further, the target output ends Sj correspond to receiving ends one to one, and the receiving ends include a receiving end 1, a receiving end 2, receiving ends 3 and …, and a receiving end n; the jitter threshold

And the verification of the standard value

One-to-one correspondence being equal, the common norm value

And the verification of the standard value

The one-to-one correspondence is equal;

、

、

、are all larger than 1, and the values of r are as follows:

，

r, corresponding to at least two of the n receiving terminals respectively,the number of the target output ends is r, the target output ends correspond to at least two target output ends in the number of j, and one-to-one correct transmission can be realized while one-to-many correct transmission can be realized.

The invention has the following beneficial effects:

the invention checks the target output end Sj of the information to be transmitted through the check end according to the check rule in the rule base, compares the general check value K with the general check value H and the special check value Hz respectively, or compares the special check value Kj with the general check value H and the special check value Hz respectively, and continuously transmits the information when the target output end Sj of the information to be transmitted is the correct output end, otherwise, the target output end Sj is the error transmission end, and the display unit displays the character of 'information error transmission' when receiving the error transmission information transmitted by the feedback unit, thereby greatly preventing the safety problems caused by information error transmission, error transmission and information leakage, and avoiding the risk of information transmission under the condition that the networking and informatization process is not reversible.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a communication transmission system capable of preventing information from being mistransmitted according to the present invention.

Detailed Description

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

Referring to fig. 1, the present invention is a communication transmission system capable of preventing information from being erroneously transmitted, including an uploading end, a rule base, a data transmission end, a verification end, a feedback unit, a local unit, a display unit, and a receiving end; the uploading end is used for transmitting the information to be transmitted and the jitter standard value

Or a universal standard value

Uploading to data transmission terminal, and obtaining jitter standard value

General standard value

According to the verification criteria respectively

Checking the standard value

Making a preset value; the target output ends Sj correspond to the receiving ends one by one, and the receiving ends comprise a receiving end 1, a receiving end 2, receiving ends 3 and … and a receiving end n; standard value of run-out

And the verification of the standard value

Equal one-to-one correspondence, universal quasi-value

And the verification of the standard value

The one-to-one correspondence is equal;

、

、

、

are all larger than 1, and the values of r are as follows:

，

r, corresponding to at least two of the n receiving terminals respectively,

and the number of the target output ends is r, and the target output ends respectively correspond to at least two target output ends in the j target output ends.

Specifically, if there are four receiving ends that need to perform information transmission, namely, receiving end 1, receiving end 2, receiving end 3, and receiving end 4, there are four corresponding target output ends, namely, target output end 1, target output end 2, target output end 3, and target output end 4; standard value of run-outAnd the verification of the standard value

One-to-one correspondence is equal to each other, respectively(ii) a General standard value

And the verification of the standard value

The one-to-one correspondence is equal,

=11，

the number of the active carbon sources is 11,

respectively correspond to a receiving end 2 of a receiving end 1, a receiving end 3 of the receiving end 1, a receiving end 4 of the receiving end 1, a receiving end 3 of the receiving end 2, a receiving end 4 of the receiving end 3, a receiving end 3 of the receiving end 1, a receiving end 4 of the receiving end 2, a receiving end 4 of the receiving end 1, a receiving end 3 of the receiving end 3, a receiving end 3 of the receiving end 2, a receiving end 4 of the receiving end 3, a,

the number of the transmission modes is 11, so that the 11 one-to-many transmission modes can be realized while one-to-one correct transmission is realized.