CN116186744A

CN116186744A - Computer data transmission system and method

Info

Publication number: CN116186744A
Application number: CN202310446108.2A
Authority: CN
Inventors: 王源源; 周紫璇; 王晓玲; 顾城天; 史勤刚; 何晓
Original assignee: Chengdu College of University of Electronic Science and Technology of China
Current assignee: Chengdu College of University of Electronic Science and Technology of China
Priority date: 2023-04-24
Filing date: 2023-04-24
Publication date: 2023-05-30
Anticipated expiration: 2043-04-24
Also published as: CN116186744B

Abstract

The invention relates to a computer data transmission system and a method, which belong to the technical field of electric digital data processing, and can monitor whether an encrypted data transmission line normally operates in the operation process by a matching scheme of a first interface signal output detection module, a data encryption signal input detection module, a data encryption signal output detection module and a second interface signal input detection module, so that privacy leakage and property loss of a user are avoided under the condition of unknowing. Each detection module is designed to be opened in an orderly matched manner, so that most detection modules can be prevented from being in an invalid action state for a long time, the energy consumption of the system is reduced, detection and collection of a large amount of invalid data can be avoided, and the running memory of the system is saved. The detection result of the second interface signal input detection module is used as a system operation triggering condition, so that specific faults of signal transmission and processing processes in the encrypted data transmission line can be accurately positioned, and related personnel can know and react quickly.

Description

Computer data transmission system and method

Technical Field

The invention belongs to the technical field of electric digital data processing, and particularly relates to a computer data transmission system and method.

Background

Data security issues with computers (hard disks and mobile storage devices) have been a focus of social concern. The computer hard disk data security problem mainly has two important links: firstly, data security during the use of the hard disk, such as disclosure caused by theft of the hard disk; another problem is the data destruction of the hard disk, for example, when the hard disk is scrapped or is reused in an unsafe environment, the data destruction process needs to be performed on the original data of the hard disk.

Data encryption in computer data transmission is an extremely important link, and relates to privacy, property safety and the like of users; the existing targeted scheme is to use an encrypted data transmission line, wherein a first interface and a second interface are respectively arranged at two ends of the encrypted data transmission line, a data encryption unit is further arranged in the data transmission line, and the data encryption unit is respectively and electrically connected with the first interface and the second interface, so that the security threat of the storage equipment being stolen can be solved.

However, the user cannot know whether the encrypted data transmission line is normally operated in the operation process in the use process, if the encrypted data transmission line is faulty in the use process, the privacy, property safety and the like of the user cannot be effectively protected, and a corresponding abnormality monitoring scheme of the encrypted data transmission process is not designed for the situation at the present stage.

Therefore, a computer data transmission system, a computer data transmission method and a computer data storage medium are needed to solve the above problems.

Disclosure of Invention

The invention aims to provide a computer data transmission system, a computer data transmission method and a computer data transmission storage medium, which are used for solving the technical problems in the prior art, a user cannot know whether an encrypted data transmission line normally operates in the operation process or not in the use process, if the encrypted data transmission line fails in the use process, the privacy, property safety and the like of the user cannot be effectively protected, and a corresponding abnormal monitoring scheme of the encrypted data transmission process is not designed for the situation at the present stage.

In order to achieve the above purpose, the technical scheme of the invention is as follows:

the computer data transmission system comprises a first interface unit, a first circuit unit, a data encryption unit, a second circuit unit, a second interface unit, a first interface signal output detection module, a data encryption signal input detection module, a data encryption signal output detection module, a second interface signal input detection module and a main control module which are sequentially connected, wherein the main control module is respectively connected with the first interface signal output detection module, the data encryption signal input detection module, the data encryption signal output detection module and the second interface signal input detection module;

the first interface signal output detection module is used for detecting whether the signal output of the first interface unit is abnormal or not;

the data encryption signal input detection module is used for detecting whether the signal input of the data encryption unit is abnormal or not;

the data encryption signal output detection module is used for detecting whether the signal output of the data encryption unit is abnormal or not;

the second interface signal input detection module is used for detecting whether the signal input of the second interface unit is abnormal.

Further, the main control module controls the second interface signal input detection module to be normally opened, and controls the first interface signal output detection module, the data encryption signal input detection module and the data encryption signal output detection module to be normally closed;

when the second interface signal input detection module detects that the signal input of the second interface unit is abnormal, the main control module controls the data encryption signal output detection module to be started;

if the data encryption signal output detection module detects that the signal output of the data encryption unit is not abnormal, the main control module judges that the signal transmission in the second circuit unit is faulty, otherwise, the main control module controls the data encryption signal input detection module to be started;

if the data encryption signal input detection module detects that the signal input of the data encryption unit is not abnormal, the main control module judges that the signal processing of the data encryption in the data encryption unit is faulty, otherwise, the main control module controls the first interface signal output detection module to be started;

if the first interface signal output detection module detects that the signal output of the first interface unit is not abnormal, the main control module judges that the signal transmission in the first line unit is faulty, otherwise, the main control module judges that the signal transmission at the first interface unit is faulty.

The system further comprises a first interface power supply output detection module, a data encryption power supply input detection module, a data encryption power supply output detection module and a second interface power supply input detection module, wherein the main control module is respectively connected with the first interface power supply output detection module, the data encryption power supply input detection module, the data encryption power supply output detection module and the second interface power supply input detection module;

the first interface power supply output detection module is used for detecting whether the power supply output of the first interface unit is abnormal or not;

the data encryption power input detection module is used for detecting whether the power input of the data encryption unit is abnormal or not;

the data encryption power supply output detection module is used for detecting whether the power supply output of the data encryption unit is abnormal or not;

the second interface power input detection module is used for detecting whether the power input of the second interface unit is abnormal.

Further, the main control module controls the first interface power supply output detection module, the data encryption power supply input detection module, the data encryption power supply output detection module and the second interface power supply input detection module to be normally closed;

when the second interface unit has a power failure, the main control module controls the second interface power input detection module to be started;

when the second interface power supply input detection module detects that the power supply input of the second interface unit is abnormal, the main control module controls the data encryption power supply output detection module to be started;

if the data encryption power supply output detection module detects that the power supply output of the data encryption unit is not abnormal, the main control module judges that the power supply in the second circuit unit is broken, otherwise, the main control module controls the data encryption power supply input detection module to be started;

if the data encryption power input detection module detects that the power supply input of the data encryption unit is not abnormal, the main control module judges that the power supply in the data encryption unit is broken, otherwise, the main control module controls the first interface power output detection module to be started;

if the first interface power supply output detection module detects that the power supply output of the first interface unit is not abnormal, the main control module judges the power supply open circuit fault in the first circuit unit, otherwise, the main control module judges the power supply open circuit fault at the first interface unit.

The device comprises a main control module, a first vibration generation module, a second vibration generation module, a first loosening detection module, a second loosening detection module, a third loosening detection module and a fourth loosening detection module, wherein the main control module is connected with the first vibration generation module, the second vibration generation module, the first loosening detection module, the second loosening detection module, the third loosening detection module and the fourth loosening detection module respectively;

the first vibration generation module is used for enabling the first line unit to vibrate;

the second vibration generation module is used for enabling the second circuit unit to generate vibration;

the first looseness detection module is used for detecting whether the line connection part of the first interface unit and the first line unit is loosened or not;

the second looseness detection module is used for detecting whether the line connection part of the first line unit and the data encryption unit is loosened or not;

the third looseness detection module is used for detecting whether the line connection part of the data encryption unit and the second line unit is loosened or not

The fourth looseness detection module is used for detecting whether the line connection part of the second line unit and the second interface unit is loosened.

Further, the main control module controls the first vibration generation module, the second vibration generation module, the first looseness detection module, the second looseness detection module, the third looseness detection module and the fourth looseness detection module to be normally closed;

when the main control module judges that the power supply in the second circuit unit is broken, the main control module controls the second vibration generating module and the fourth looseness detection module to be started;

when the main control module judges that the power supply in the data encryption unit is broken, the main control module controls the second vibration generation module and the third looseness detection module to be started;

when the main control module judges that the power supply in the first circuit unit is broken, the main control module controls the first vibration generating module and the second looseness detecting module to be started;

when the main control module judges that the power supply at the first interface unit is broken, the main control module controls the first vibration generating module and the first looseness detecting module to be started.

Further, the intelligent terminal comprises a wireless communication module and an intelligent terminal, and the main control module is connected with the intelligent terminal through the wireless communication module in a network mode.

A computer data transmission method adopts the computer data transmission system to carry out computer data transmission.

A storage medium having stored thereon a computer program which when executed performs a computer data transmission method as described above.

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

one of the beneficial effects of this scheme lies in, through the cooperation scheme of first interface signal output detection module, data encryption signal input detection module, data encryption signal output detection module, second interface signal input detection module, can monitor whether encryption data transmission line (signal transmission and encryption processing etc.) normal operating in the operation in-process, avoids the user to appear privacy revealing and loss of property under unknowingly condition. Each detection module is designed to be opened in an orderly matched manner, so that most detection modules can be prevented from being in an invalid action state for a long time, the energy consumption of the system is reduced, detection and collection of a large amount of invalid data can be avoided, and the running memory of the system is saved. The detection result of the second interface signal input detection module is used as a system operation triggering condition, so that specific faults of signal transmission and processing processes in the encrypted data transmission line can be accurately positioned, and related personnel can know and react quickly.

Drawings

Fig. 1 is a schematic system configuration diagram of the embodiment.

Fig. 2 is a schematic diagram of a system optimization structure according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of another system optimization structure according to the embodiment.

Detailed Description

For the purpose of making the technical solution and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings and examples. It should be understood that the particular embodiments described herein are illustrative only and are not intended to limit the invention, i.e., the embodiments described are merely some, but not all, of the embodiments of the invention. The components of the embodiments of the present invention generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the invention, as presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be made by a person skilled in the art without making any inventive effort, are intended to be within the scope of the present invention. It is noted that relational terms such as "first" and "second", and the like, are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising one … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

As shown in fig. 1, a computer data transmission system is provided, which comprises a first interface unit, a first circuit unit, a data encryption unit, a second circuit unit, a second interface unit, a first interface signal output detection module, a data encryption signal input detection module, a data encryption signal output detection module, a second interface signal input detection module, and a main control module, wherein the first interface signal output detection module, the data encryption signal input detection module, the data encryption signal output detection module, and the second interface signal input detection module are sequentially connected;

In the scheme, through the cooperation scheme of the first interface signal output detection module, the data encryption signal input detection module, the data encryption signal output detection module and the second interface signal input detection module, whether the encrypted data transmission line (signal transmission, encryption processing and the like) normally operates in the operation process can be monitored, and privacy leakage and property loss of a user under the unknowing condition are avoided.

In the scheme, the first interface signal output detection module, the data encryption signal input detection module, the data encryption signal output detection module and the second interface signal input detection module are designed to be orderly matched and opened, so that most detection modules can be prevented from being in an invalid action state for a long time, the energy consumption of a system is reduced, detection and collection of a large amount of invalid data can be avoided, and the running memory of the system is saved. The detection result of the second interface signal input detection module is used as a system operation triggering condition, so that specific faults of signal transmission and processing processes in the encrypted data transmission line can be accurately positioned, and related personnel can know and react quickly.

Further, as shown in fig. 2, the system further comprises a first interface power output detection module, a data encryption power input detection module, a data encryption power output detection module and a second interface power input detection module, wherein the main control module is respectively connected with the first interface power output detection module, the data encryption power input detection module, the data encryption power output detection module and the second interface power input detection module;

In the scheme, through the cooperation scheme of the first interface signal output detection module, the data encryption signal input detection module, the data encryption signal output detection module and the second interface signal input detection module, whether the encrypted data transmission line (power supply) normally operates in the operation process can be monitored, so that a user can clearly know whether the power supply of each link of the encrypted data transmission line fails.

In the scheme, the first interface power output detection module, the data encryption power input detection module, the data encryption power output detection module and the second interface power input detection module are designed to be orderly matched and started, so that most detection modules can be prevented from being in an invalid action state for a long time, the energy consumption of a system is reduced, detection and collection of a large amount of invalid data can be avoided, and the running memory of the system is saved. The specific fault of the power supply process in the encrypted data transmission line can be accurately positioned by taking the power failure of the second interface unit as a system operation triggering condition, so that related personnel can know and react quickly.

Further, as shown in fig. 3, the vibration detection device further comprises a first vibration generation module, a second vibration generation module, a first loosening detection module, a second loosening detection module, a third loosening detection module and a fourth loosening detection module, wherein the main control module is respectively connected with the first vibration generation module, the second vibration generation module, the first loosening detection module, the second loosening detection module, the third loosening detection module and the fourth loosening detection module;

In the scheme, after the encrypted data transmission line is assembled, the encrypted data transmission line is not transferred or detached in a long period of time; therefore, when the power supply circuit breaking fault occurs to the encrypted data transmission line, the matching scheme of the first vibration generation module, the second vibration generation module, the first looseness detection module, the second looseness detection module, the third looseness detection module and the fourth looseness detection module is designed, whether looseness occurs to each connecting position of the encrypted data transmission line can be rapidly judged on the basis of the power supply circuit breaking fault, and if looseness occurs, the fact that the current encrypted data transmission line is scrapped is indicated, and corresponding replacement is needed. And moreover, the vibration module and the looseness detection module correspondingly cooperate and operate according to specific power supply break faults, so that accurate detection can be realized.

Further, the intelligent terminal comprises a wireless communication module and an intelligent terminal, wherein the main control module is connected with the intelligent terminal through the wireless communication module in a network manner, so that remote data interaction is realized.

The above is a preferred embodiment of the present invention, and all changes made according to the technical solution of the present invention belong to the protection scope of the present invention when the generated functional effects do not exceed the scope of the technical solution of the present invention.

Claims

1. The computer data transmission system comprises a first interface unit, a first circuit unit, a data encryption unit, a second circuit unit and a second interface unit which are sequentially connected, and is characterized by further comprising a first interface signal output detection module, a data encryption signal input detection module, a data encryption signal output detection module, a second interface signal input detection module and a main control module, wherein the main control module is respectively connected with the first interface signal output detection module, the data encryption signal input detection module, the data encryption signal output detection module and the second interface signal input detection module;

2. The computer data transmission system according to claim 1, wherein the main control module controls the second interface signal input detection module to be normally opened and controls the first interface signal output detection module, the data encryption signal input detection module and the data encryption signal output detection module to be normally closed;

3. The computer data transmission system according to claim 2, further comprising a first interface power output detection module, a data encryption power input detection module, a data encryption power output detection module, and a second interface power input detection module, wherein the main control module is connected to the first interface power output detection module, the data encryption power input detection module, the data encryption power output detection module, and the second interface power input detection module, respectively;

4. A computer data transmission system according to claim 3, wherein the main control module controls the first interface power output detection module, the data encryption power input detection module, the data encryption power output detection module, and the second interface power input detection module to be normally closed;

5. The computer data transmission system of claim 4, further comprising a first vibration generating module, a second vibration generating module, a first looseness detecting module, a second looseness detecting module, a third looseness detecting module, and a fourth looseness detecting module, wherein the main control module is respectively connected with the first vibration generating module, the second vibration generating module, the first looseness detecting module, the second looseness detecting module, the third looseness detecting module, and the fourth looseness detecting module;

6. The computer data transmission system of claim 5, wherein the main control module controls the first vibration generating module, the second vibration generating module, the first looseness detecting module, the second looseness detecting module, the third looseness detecting module, and the fourth looseness detecting module to be normally closed;

7. The computer data transmission system according to claim 6, further comprising a wireless communication module and an intelligent terminal, wherein the main control module is in network connection with the intelligent terminal through the wireless communication module.

8. A computer data transmission method, characterized in that a computer data transmission system according to any one of claims 1-7 is used for computer data transmission.