CN114552314B - Multi-head data line-based data transmission method and data line thereof - Google Patents

Abstract

The application relates to the technical field of electronic equipment, in particular to a data transmission method based on a multi-head data line and a data line thereof; the method comprises the following steps: acquiring transmission data sent by electronic equipment of different operating systems, storing the transmission data in a data system, sending the transmission data to data receiving equipment through a data line based on a preset sending rule, judging whether the transmission data and the data to be transmitted corresponding to the transmission data are consistent, and re-acquiring the transmission data if the transmission data are inconsistent with the data to be transmitted. The application has the effect of facilitating the data transmission between the electronic equipment and the data receiving equipment of different operating systems connected by the multi-head data line.

Description

Multi-head data line-based data transmission method and data line thereof

Technical Field

The present application relates to the field of electronic devices, and in particular, to a data transmission method based on a multi-head data line and a data line thereof.

Background

Along with the progress and development of science and technology, the development of electronic products is quite rapid, the variety and functions of the electronic products are gradually increased, and the work and life of people are increasingly dependent on electronic products such as mobile phones, flat plates and the like. However, the data lines used by the electronic devices of different operating systems (such as IOS, android, etc.) cannot be used commonly, and multiple data lines of different types often need to be configured for different electronic devices.

In the related art, in order to solve the problem that data lines used by electronic devices of different operating systems (such as IOS and android) cannot be commonly used, a data line is generally used to carry connectors of a plurality of different operating systems, so as to match the electronic devices of the different operating systems and further charge the electronic devices of the different operating systems.

In view of the above-mentioned related art, the inventor believes that although the data line in the related art can meet the requirement of charging electronic devices of different operating systems, only one connector of the operating system can perform data transmission, and the other connectors can only be used as charging lines, which brings inconvenience to users.

Disclosure of Invention

In order to enable connectors of a plurality of different operating systems on one data line to perform data transmission, the application provides a data transmission method based on a multi-head data line and the data line thereof.

A data transmission method based on multi-head data line includes:

acquiring transmission data sent by electronic equipment of different operating systems;

Storing the transmission data in a data system;

And transmitting the transmission data to the data receiving equipment through a data line based on a preset transmission rule.

By adopting the technical scheme, the transmission data of the electronic equipment acquired from different operating systems are stored in the data system, and then the transmission data is sent to the data receiving equipment through the data line by the data system, so that the data transmission between the electronic equipment and the data receiving equipment of different operating systems connected by the multi-head data line is realized.

Optionally, after the storing the data in the data system, the method further includes:

judging whether the transmission data and the corresponding data to be transmitted are consistent or not;

And if the transmission data are inconsistent with the data to be transmitted, re-acquiring the transmission data.

By adopting the technical scheme, whether the transmission data and the data to be transmitted corresponding to the transmission data are consistent or not is judged, whether the transmission of the transmission data is wrong or not is judged, and the accuracy of data transmission is improved.

Optionally, the specific step of determining whether the data and the data to be transmitted corresponding to the data are consistent includes:

respectively obtaining a first byte number and a second byte number, wherein the first byte number is the transmission data byte number, and the second byte number is the data byte number to be transmitted corresponding to the transmission data;

Comparing the first byte count with the second byte count;

If the first byte number is inconsistent with the second byte number, judging that the transmission data is inconsistent with the data to be transmitted;

if the number of bytes of the transmission data is consistent with the number of bytes of the data to be transmitted, comparing the transmission data content with the data content to be transmitted;

If the content of the transmission data is inconsistent with the content of the data to be transmitted, judging that the transmission data is inconsistent with the data to be transmitted;

And if the transmission data content is consistent with the data content to be transmitted, judging that the transmission data is consistent with the data to be transmitted.

By adopting the technical scheme, whether the first byte number is consistent with the second byte number is judged, whether the transmission data is consistent with the data to be transmitted is judged, and when the transmission data is consistent with the data to be transmitted in size, whether the storage content of the transmission data is consistent with the storage content of the data to be transmitted is further judged, so that the accuracy of data transmission is further improved.

Optionally, the preset sending rule is a sequence list, and the specific step of sending the transmission data to the data receiving device based on the preset sending rule includes:

comparing the first byte numbers and judging whether the first byte numbers are consistent;

If not, sequentially sending the transmission data to the data receiving equipment through a data line based on the size sequence of the first byte number;

If yes, based on the historical quantity of the transmission data sent by the electronic equipment of different operating systems, the transmission data are sequentially sent to the data receiving equipment through the data line.

By adopting the technical scheme, the priority order of transmission data transmission is adjusted according to the size order of the first digital unit, so that the smaller transmission data of the digital unit can be preferentially transmitted, and the occurrence of the condition that other transmission data are delayed to be transmitted due to larger byte number of single transmission data and long transmission time can be reduced.

Optionally, the specific step of sending the transmission data to the data receiving device through a data line based on the historical number of the transmission data sent by the electronic devices of different operating systems includes:

classifying the transmission data;

Based on the classification, respectively acquiring the historical quantities;

Comparing the historical quantity, and generating a historical quantity comparison result;

And based on the historical quantity comparison result, the transmission data is sent to the data receiving equipment through a data line.

By adopting the technical scheme, the history quantity is larger to indicate that the electronic equipment of the operating system corresponding to the transmission data is more used, and when the condition that the first byte quantity is the same exists, the order of preferentially sending the transmission data is selected according to the history quantity of the transmission data sent by the electronic equipment of different operating systems, so that the priority sending of the transmission data according to the use habit of users is facilitated.

Optionally, the preset sending rule is a sequence list, and the specific step of sending the transmission data to the data receiving device based on the preset sending rule includes:

respectively acquiring first numbers of different operating systems, wherein the first numbers are numbers of the transmission data consistent with the data to be transmitted;

comparing the first quantity and generating a first quantity comparison result;

And based on the first quantity comparison result, sequentially sending the transmission data to the data receiving equipment through a data line.

By adopting the technical scheme, the transmission priority sequence of the transmission data is selected according to the first quantity comparison result, so that transmission interruption of the transmission data caused by errors in the transmission process of the transmission data is reduced, and the condition transmission of other transmission data is influenced.

Optionally, the preset sending rule is a sequence list, and the specific step of sending the transmission data to the data receiving device based on the preset sending rule includes:

Numbering the transmission data to form a transmission sequence number;

Forming the sequence list based on the transmission sequence number;

And sequentially sending the transmission data to the data receiving equipment through a data line based on the sequence list.

By adopting the technical scheme, when a user needs a certain transmission data in an emergency, the transmission data priority sending sequence can be selected according to the number, so that the emergency situation of the user can be solved.

A multi-headed data line, the multi-headed data line comprising:

the acquisition module is used for acquiring transmission data sent by electronic equipment of different operating systems;

The storage module is used for storing the transmission data in a data system;

and the sending module is used for sending the transmission data to the data receiving equipment through a data line based on a preset sending rule.

By adopting the technical scheme, the transmission data of the electronic equipment acquired from different operating systems are stored in the data system, and then the transmission data is sent to the data receiving equipment through the data line by the data system, so that the data transmission between the electronic equipment and the data receiving equipment of different operating systems connected by the multi-head data line is realized.

A machine-readable storage medium for storing machine-executable program code that is executed to perform a multi-headed data line based data transmission method.

In summary, the present application includes at least one of the following beneficial technical effects:

the transmission data of the electronic equipment obtained from different operating systems are stored in the data system, and then the transmission data are sent to the data receiving equipment through the data line by the data system, so that the data transmission between the electronic equipment and the data receiving equipment of different operating systems connected by the multi-head data line is realized.

Drawings

FIG. 1 is a main flow chart of a data transmission method based on a multi-head data line according to an embodiment of the present application;

Fig. 2 is a flowchart of specific steps for determining whether transmission data and corresponding data to be transmitted are consistent in a data transmission method based on a multi-head data line according to an embodiment of the present application.

Fig. 3 is a flowchart showing specific steps of transmitting transmission data to a data receiving device through a data line in a data transmission method based on a multi-head data line according to an embodiment of the present application;

FIG. 4 is a flowchart showing the steps of transmitting transmission data to a data receiving device via a data line based on the historical number of transmission data transmitted by electronic devices of different operating systems in a data transmission method based on a multi-head data line according to an embodiment of the present application;

Fig. 5 is a flowchart of a specific step of sending transmission data to a data receiving device through a data line in a data transmission method based on a multi-head data line according to an embodiment of the present application;

fig. 6 is a flowchart of a specific step of transmitting transmission data to a data receiving device through a data line in a data transmission method based on a multi-head data line according to an embodiment of the present application;

fig. 7 is a block diagram illustrating a multi-headed data line in accordance with an embodiment of the present application.

Reference numerals illustrate:

1. An acquisition module; 2. a storage module; 3. and a transmitting module.

Detailed Description

The embodiment of the application discloses a data transmission method based on a multi-head data line.

Referring to fig. 1, a data transmission method based on a multi-head data line includes S100 to S300:

S100: and acquiring transmission data sent by electronic equipment of different operating systems.

Specifically, in this embodiment, the multi-head data line may be connected to electronic devices between multiple different operating systems at the same time, or may be connected to an electronic device of a certain operating system separately.

In this embodiment, the transmission data refers to a data file received by a multi-head data line, including a text file, a video file, and an image file.

S200: the transmission data is stored in a data system.

Specifically, in this embodiment, the data storage system includes a processor and a memory, where the memory is used to store transmission data acquired from electronic devices of different operating systems, and the memory may be set as a hard disk or the like; the processor is used for classifying, numbering and the like of the transmission data, and the processor can be configured as a chip or the like.

S300: and transmitting the transmission data to the data receiving equipment through the data line based on a preset transmission rule.

Specifically, in this embodiment, the preset transmission rule includes a transmission priority order, and the default transmission priority order is preset in advance when the multi-head data line leaves the factory; the data receiving apparatus is for receiving transmission data sent from the data system, and the data receiving apparatus may be provided as a computer, a printer, or the like.

In one implementation manner of the embodiment, after S300, S400 to S500 are further included:

s400: and judging whether the transmission data and the data to be transmitted corresponding to the transmission data are consistent.

Specifically, in this embodiment, the data to be transmitted is a data file to be transmitted, which corresponds to the data to be transmitted and is sent to the memory from the electronic device of the different operating systems. Judging whether the data transmission is completely accurate by judging whether the transmission data and the data to be transmitted corresponding to the transmission data are consistent, if so, judging that no error exists in the data transmission process, and the data transmission is accurate; if the data transmission errors are inconsistent, the data transmission inaccuracy caused by errors in the data transmission process is judged.

S500: if the transmission data is inconsistent with the data to be transmitted, returning to the initial step so as to acquire the transmission data again.

Specifically, in this embodiment, when the transmission data is inconsistent with the data to be transmitted, the storage address of the transmission data on the electronic device may be found by acquiring the transmission path of the erroneous transmission data, so as to directly re-acquire the transmission data; when errors occur in multiple (e.g., three) acquisitions, an error report can be sent to the electronic device, and the same transmission data acquired multiple times can be automatically combined after the acquisitions are stopped, and the transmission data with the largest memory is used as the final combined file, so that the accuracy of file transmission is improved, and the storage space in storage is not wasted.

Referring to fig. 2, in one implementation of the present embodiment, the specific steps of S400 include S410 to S460:

s410: the first byte number and the second byte number are acquired respectively.

Specifically, in this embodiment, the first byte number is the number of bytes of the transmission data, and the second byte number is the number of bytes of the data to be transmitted corresponding to the transmission data; bytes (bytes), commonly used as a unit of computer information measure, do not differentiate data types. One byte represents eight bits.

S420: the first number of bytes is compared to the second number of bytes.

Specifically, in this embodiment, whether the transmission data and the data to be transmitted corresponding to the transmission data are consistent is determined by comparing whether the first byte number is consistent with the second byte number.

S430: if the first byte number is inconsistent with the second byte number, the transmission data is not consistent with the data to be transmitted.

Specifically, in the embodiment, when the first byte number is inconsistent with the second byte number, it is indicated that an error occurs in the data transmission process, so that the transmission data and the data to be transmitted are not identical.

S440: and if the byte number is consistent with the byte number of the data to be transmitted, comparing the data content with the data content to be transmitted.

Specifically, in this embodiment, when the first byte count is consistent with the second byte count, that is, the size of the transmission data is consistent with the size of the data to be transmitted, the accuracy of data transmission is further improved by comparing the transmission data content with the data content to be transmitted; in this embodiment, the processor may compare the transmission data content with the data content to be transmitted to determine whether the content of the transmission data file is consistent with the content of the data file to be transmitted, for example, by programming.

S450: if the transmission data content is inconsistent with the data content to be transmitted, judging that the transmission data is inconsistent with the data to be transmitted.

Specifically, in this embodiment, when the content of the transmission data is inconsistent with the content of the data to be transmitted, it indicates that an error occurs in the data transmission of the data to be transmitted, so that the transmission data acquired by the processor is not identical to the data to be transmitted.

S460: and if the transmission data content is consistent with the data content to be transmitted, judging that the transmission data is consistent with the data to be transmitted.

Specifically, in this example, when the number of bytes and the content of the transmission data are consistent with those of the data to be transmitted, it means that no error occurs in the data transmission of the data to be transmitted, that is, it is determined that the transmission data are consistent with the data to be transmitted corresponding to the transmission data.

Referring to fig. 3, in one implementation manner of this embodiment, the specific steps of S300 include S310 to S330:

S310: comparing the first byte numbers, and judging whether the first byte numbers are consistent.

The preset sending rule is a sequential list, specifically, in this embodiment, the byte numbers of the transmission data obtained from the electronic devices of different operating systems are compared to determine whether two or more byte numbers are equal.

S320: if not, the transmission data are sequentially sent to the data receiving device through the data line based on the size sequence of the first byte number.

When the byte numbers of all the transmission data are different, the priority sequence of transmission data transmission is determined according to the byte number size sequence, specifically, in the implementation, the transmission data with smaller byte numbers are preferentially transmitted, so that the transmission time is long due to the fact that the byte number of single transmission data is larger, other transmission data are delayed to be transmitted, the transmission data with smaller byte numbers are transmitted first, and then a user can receive the transmission data on the data receiving device as soon as possible, and the user operation is facilitated.

S330: if yes, based on the historical quantity of the transmission data sent by the electronic equipment of different operating systems, the transmission data is sent to the data receiving equipment through the data line.

In this embodiment, the historical number of transmission data transmitted by each electronic device with different operating systems, that is, the total amount of transmission data transmitted in the past, is calculated only once by transmitting one transmission data multiple times; specifically, the history number only includes the operating system electronic device that is establishing data connection with the multi-head data line, and if the history number of the transmission data sent by the electronic device of a certain operating system is the largest, but the data connector of the operating system is not connected with the electronic device, the history number of the transmission data sent by the electronic device of the operating system is not counted.

Specifically, in this embodiment, transmission data transmitted by the electronic device of the operating system having a large number of transmission data histories is selected to be preferentially transmitted.

Referring to fig. 4, in one implementation manner of this embodiment, the specific steps of S330 include S331 to S334:

S331: the transmission data is classified.

Specifically, in this embodiment, the transmission data obtained from the electronic devices of different operating systems are classified according to the operating systems, such as IOS, android, and hong-mo.

S332: based on the classification, the number of histories is acquired, respectively.

After the transmission data obtained from the electronic devices of different operating systems are classified according to the operating systems, the historical quantity of the transmission data obtained from the electronic devices of each operating system can be calculated, and therefore the transmission data can be obtained conveniently.

S333: and comparing the historical quantity, and generating a historical quantity comparison result.

Specifically, the comparison result of the historical quantity in this embodiment is the result of the historical quantity of the transmission data sent by the electronic devices of different operating systems.

S334: based on the historical quantity comparison result, the transmission data is sent to the data receiving equipment through the data line.

Referring to fig. 5, in one implementation of the present embodiment, the specific steps of S300 include S340 to S360:

S340: a first number of different operating systems is obtained, respectively.

Presetting a sending rule as a sequence list; specifically, the first number in this embodiment is the number of transmission data consistent with the data to be transmitted.

S350: and comparing the first quantity, and generating a first quantity comparison result.

Specifically, in this embodiment, the first number of comparison results are the first number of size results.

S360: based on the first quantity comparison result, the transmission data is sent to the data receiving equipment through the data line.

Specifically, in this embodiment, transmission data sent by the electronic device of the first operating system with a larger number is selected to be sent preferentially.

Referring to fig. 6, in one implementation manner of the present embodiment, specific steps of S300 include S370 to S390:

S370: and numbering the transmission data to form a transmission sequence number.

Presetting a sending rule as a sequence list; specifically, in this embodiment, the numbering may be performed according to different systems, for example: ios.1, ios.2 … …, android.1, android.2 … …, hong mo.1, hong mo.2 … …, may also be numbered directly by a number, for example: 1,2,3 … ….

S380: a sequential list is formed based on the transmission sequence numbers.

S390: the transmission data are sequentially transmitted to the data receiving apparatus through the data line based on the sequential list.

Specifically, in this embodiment, when a user needs a certain transmission data in an emergency, the transmission data priority sending sequence may be selected according to the number, so as to help solve the emergency situation of the user.

The implementation principle of the data transmission method based on the multi-head data line in the embodiment of the application is as follows: and acquiring transmission data sent by electronic equipment of different operating systems, storing the transmission data in a data system, and sending the transmission data to data receiving equipment through a data line based on a preset sending rule.

The application further discloses a multi-head data line based on the multi-head data line based data transmission method.

Referring to fig. 7, a multi-headed data line includes:

The acquisition module 1 is used for acquiring transmission data sent by electronic equipment of different operating systems;

The storage module 2 is used for storing transmission data in the data system based on preset sending rules;

And the sending module 3 is used for sending the transmission data to the data receiving equipment through the data line based on a preset sending rule.

The implementation principle of the multi-head data line in the embodiment of the application is as follows: the method comprises the steps of acquiring transmission data sent by electronic equipment of different operating systems through an acquisition module 1, storing the transmission data in a data system through a storage module 2, and sending the transmission data to data receiving equipment through a data line through a sending module 3 based on preset sending rules.

Based on a data transmission method based on the multi-head data line, the application also discloses a storage medium.

A machine-readable storage medium for storing machine-executable program code that is executed to perform an omnidirectional camera-based surveillance method.

The above embodiments are not intended to limit the scope of the present application, so: all equivalent changes in structure, shape and principle of the application should be covered in the scope of protection of the application.

Claims (7)

1. A data transmission method based on a multi-head data line, comprising:

acquiring transmission data sent by electronic equipment of different operating systems;

Storing the transmission data in a data system;

Based on a preset sending rule, sending the transmission data to data receiving equipment through a data line;

wherein after the storing the transmission data in the data system, the method further comprises:

judging whether the transmission data and the corresponding data to be transmitted are consistent or not;

If the transmission data are inconsistent with the data to be transmitted, returning to the initial step so as to acquire the transmission data again;

The specific step of judging whether the transmission data and the corresponding data to be transmitted are consistent comprises the following steps:

respectively obtaining a first byte number and a second byte number, wherein the first byte number is the transmission data byte number, and the second byte number is the data byte number to be transmitted corresponding to the transmission data;

Comparing the first byte count with the second byte count;

If the first byte number is inconsistent with the second byte number, judging that the transmission data is inconsistent with the data to be transmitted;

if the number of bytes of the transmission data is consistent with the number of bytes of the data to be transmitted, comparing the transmission data content with the data content to be transmitted;

If the content of the transmission data is inconsistent with the content of the data to be transmitted, judging that the transmission data is inconsistent with the data to be transmitted;

And if the transmission data content is consistent with the data content to be transmitted, judging that the transmission data is consistent with the data to be transmitted.

2. The method for transmitting data based on a multi-head data line according to claim 1, wherein the preset transmission rule is a sequential list, and the specific step of transmitting the transmission data to the data receiving apparatus based on the preset transmission rule comprises:

comparing the first byte numbers and judging whether the first byte numbers are consistent;

If not, sequentially sending the transmission data to the data receiving equipment through a data line based on the size sequence of the first byte number;

If yes, based on the historical quantity of the transmission data sent by the electronic equipment of different operating systems, the transmission data are sequentially sent to the data receiving equipment through the data line.

3. The method for transmitting data based on multiple data lines according to claim 2, wherein the specific step of transmitting the transmission data to the data receiving device via the data line based on the historical number of transmission data transmitted by different operating system electronic devices comprises:

classifying the transmission data;

Based on the classification, respectively acquiring the historical quantities;

Comparing the historical quantity, and generating a historical quantity comparison result;

And based on the historical quantity comparison result, the transmission data is sent to the data receiving equipment through a data line.

4. The method for transmitting data based on a multi-head data line according to claim 1, wherein the preset transmission rule is a sequential list, and the specific step of transmitting the transmission data to the data receiving apparatus based on the preset transmission rule comprises:

respectively acquiring first numbers of different operating systems, wherein the first numbers are numbers of the transmission data consistent with the data to be transmitted;

comparing the first quantity and generating a first quantity comparison result;

And based on the first quantity comparison result, sequentially sending the transmission data to the data receiving equipment through a data line.

5. The method for transmitting data based on a multi-head data line according to claim 1, wherein the preset transmission rule is a sequential list, and the specific step of transmitting the transmission data to the data receiving apparatus based on the preset transmission rule comprises:

Numbering the transmission data to form a transmission sequence number;

Forming the sequence list based on the transmission sequence number;

And sequentially sending the transmission data to the data receiving equipment through a data line based on the sequence list.

6. A multi-headed data line for performing the method of any one of claims 1 to 5, the multi-headed data line comprising:

The system comprises an acquisition module (1), wherein the acquisition module (1) is used for acquiring transmission data sent by electronic equipment of different operating systems;

A storage module (2), the storage module (2) being configured to store the transmission data in a data system;

And the sending module (3) is used for sending the transmission data to the data receiving equipment through a data line based on a preset sending rule.

7. A machine-readable storage medium for storing machine-executable program code that is run to perform the method of any one of claims 1-5.