CN112202921A - Office equipment remote interaction method and device and online office interaction platform - Google Patents

Abstract

The invention discloses a remote interaction method and device for office equipment and an online office interaction platform. According to the method, firstly, a collected sample equipment identifier is loaded into a target identification code through a preset loading mode to obtain a basic loading sequence, and then a first interaction relation between first office equipment and second office equipment is determined according to the sample equipment identifier and the basic loading sequence. And secondly, acquiring the current equipment coding field information in the target identification code, and further acquiring the target coding field information corresponding to the current equipment coding field information. And then judging whether the first office equipment and the second office equipment are disconnected or not according to the target coding field information. By the design, the situation that the first office equipment and the second office equipment are blocked when control interaction is carried out can be judged according to the situation that the first office equipment and the second office equipment are disconnected, and the experience of a user can not be influenced.

Description

Office equipment remote interaction method and device and online office interaction platform

Technical Field

The invention relates to the technical field of office equipment remote interaction, in particular to a method and a device for office equipment remote interaction and an online office interaction platform.

Background

With the rapid development and breakthrough of internet technology, more and more enterprises gradually realize remote interaction of office equipment in recent years, that is, remote operation is performed through a plurality of computers to realize mobile office or remote office. This can save resources for the company and reduce the cost of operating the company. However, there are many disadvantages when using office equipment for remote interaction, such as: when one computer controls and interacts with another computer, the situation of jamming often exists, which brings a very bad experience to users.

Disclosure of Invention

In order to solve the technical problems in the related art, the invention provides a remote interaction method and device for office equipment and an online office interaction platform.

The invention provides a remote interaction method for office equipment in a first aspect, which comprises the following steps:

determining first IP address information corresponding to first office equipment and second IP address information corresponding to second office equipment, wherein the first IP address information and the second IP address information respectively comprise identification codes of a plurality of different information fields;

acquiring a sample device identifier of one section of identification code of the first office device in the first IP address information, and determining the identification code with the shortest information field in the second IP address information as a target identification code;

loading the sample equipment identifier into the target identification code based on a preset loading mode, obtaining a basic loading sequence in the target identification code, and determining a first interaction relation between the first office equipment and the second office equipment according to the sample equipment identifier and the basic loading sequence;

and acquiring current equipment coding field information in the target identification code by taking the basic loading sequence as a target sequence, loading the current equipment coding field information into the identification code where the sample equipment identifier is located according to a second interaction relation corresponding to the first interaction relation, obtaining the target coding field information corresponding to the current equipment coding field information from the identification code where the sample equipment identifier is located, determining whether the first office equipment and the second office equipment are disconnected according to the target coding field information, and if the first office equipment and the second office equipment are disconnected, judging that the first office equipment and the second office equipment are blocked in the interaction process.

Optionally, the determining first IP address information corresponding to the first office device and second IP address information corresponding to the second office device includes: acquiring the first office equipment and the second office equipment; determining the first IP address information corresponding to the first office equipment according to field distribution information corresponding to information fields; the distribution mode of the equipment information fields between any two adjacent identification codes in the first IP address information is field distribution information corresponding to the information fields; and determining second IP address information corresponding to the second office equipment according to field distribution information corresponding to the information fields, wherein the field distribution information corresponding to the information fields is determined according to the distribution mode of the equipment information fields between any two adjacent identification codes in the second IP address information.

Optionally, the loading the sample device identifier into the target identification code based on a preset loading manner, obtaining the basic loading sequence in the target identification code, and determining a first interaction relationship between the first office device and the second office device according to the sample device identifier and the basic loading sequence includes:

loading the sample device identifier into the target identification code based on the preset loading mode, and obtaining the basic loading sequence in the target identification code;

acquiring key matching points in the identification code of the identifier of the sample equipment; wherein the keypoint match is a keypoint based on the sample device identifier; loading the key matching points into the target identification code based on the preset loading mode, and obtaining key loading points in the target identification code;

and determining a first interaction relation between the first office equipment and the second office equipment according to the corresponding list between the sample equipment identifier and the key matching point, the basic loading sequence and the key loading point.

Optionally, the loading the sample device identifier into the target identification code based on a preset loading manner, and obtaining the basic loading sequence in the target identification code includes: loading the sample equipment identifier into an equipment identification thread to obtain current equipment configuration information based on the loading coefficient in the preset loading mode;

inputting the current equipment configuration information into a corresponding matching position of the second office equipment according to the coordinate information and the association relation matched with each other between the preset loading mode corresponding to the first office equipment and the preset loading mode corresponding to the second office equipment, so as to obtain target matching information;

and inputting variable target matching information into the target identification code according to the preset loading mode to obtain the basic loading sequence.

The invention provides a remote interaction device for office equipment in a second aspect, which comprises:

the system comprises an IP information determining module, a first processing module and a second processing module, wherein the IP information determining module is used for determining first IP address information corresponding to first office equipment and second IP address information corresponding to second office equipment, and the first IP address information and the second IP address information respectively comprise identification codes of a plurality of different information fields;

the equipment identifier acquisition module is used for acquiring a sample equipment identifier of one section of identification code of the first office equipment in the first IP address information and determining the identification code with the shortest information field in the second IP address information as a target identification code;

the interactive relation determining module is used for loading the sample equipment identifier into the target identification code based on a preset loading mode, obtaining a basic loading sequence in the target identification code, and determining a first interactive relation between the first office equipment and the second office equipment according to the sample equipment identifier and the basic loading sequence;

and the equipment blockage judging module is used for acquiring current equipment coding field information in the target identification code by taking the basic loading sequence as a target sequence, loading the current equipment coding field information into the identification code where the sample equipment identifier is located according to a second interactive relation corresponding to the first interactive relation, acquiring the target coding field information corresponding to the current equipment coding field information in the identification code where the sample equipment identifier is located, determining whether the first office equipment and the second office equipment are disconnected according to the target coding field information, and judging that the first office equipment and the second office equipment are blocked in the interaction process if the first office equipment and the second office equipment are disconnected.

Optionally, the IP information determining module is specifically configured to: acquiring the first office equipment and the second office equipment; determining the first IP address information corresponding to the first office equipment according to field distribution information corresponding to information fields; the distribution mode of the equipment information fields between any two adjacent identification codes in the first IP address information is field distribution information corresponding to the information fields; and determining second IP address information corresponding to the second office equipment according to field distribution information corresponding to the information fields, wherein the field distribution information corresponding to the information fields is determined according to the distribution mode of the equipment information fields between any two adjacent identification codes in the second IP address information.

Optionally, the interaction relationship determining module is specifically configured to:

loading the sample device identifier into the target identification code based on the preset loading mode, and obtaining the basic loading sequence in the target identification code;

acquiring key matching points in the identification code of the identifier of the sample equipment; wherein the keypoint match is a keypoint based on the sample device identifier; loading the key matching points into the target identification code based on the preset loading mode, and obtaining key loading points in the target identification code;

and determining a first interaction relation between the first office equipment and the second office equipment according to the corresponding list between the sample equipment identifier and the key matching point, the basic loading sequence and the key loading point.

Optionally, the interaction relationship determining module is further specifically configured to: loading the sample equipment identifier into an equipment identification thread to obtain current equipment configuration information based on the loading coefficient in the preset loading mode;

inputting the current equipment configuration information into a corresponding matching position of the second office equipment according to the coordinate information and the association relation matched with each other between the preset loading mode corresponding to the first office equipment and the preset loading mode corresponding to the second office equipment, so as to obtain target matching information;

and inputting variable target matching information into the target identification code according to the preset loading mode to obtain the basic loading sequence.

A third aspect of the present invention provides an online office interaction platform, comprising a processor and a memory, which are in communication with each other, wherein the processor is configured to retrieve a computer program from the memory and to implement the method according to any one of the first aspect by running the computer program.

A fourth aspect of the present invention provides a computer readable storage medium having stored thereon a computer program which, when executed, implements the method of any one of the first aspects.

The technical scheme provided by the embodiment of the invention can have the following beneficial effects.

The invention provides a remote interaction method and a remote interaction device for office equipment and an online office interaction platform. And secondly, acquiring the current equipment coding field information in the target identification code, and further acquiring the target coding field information corresponding to the current equipment coding field information. And then judging whether the first office equipment and the second office equipment are disconnected or not according to the target coding field information. By the design, the situation that the first office equipment and the second office equipment are blocked when control interaction is carried out can be judged according to the situation that the first office equipment and the second office equipment are disconnected, and the experience of a user can not be influenced.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.

Fig. 1 is a flowchart of an office equipment remote interaction method according to an embodiment of the present invention.

Fig. 2 is a block diagram of an office equipment remote interaction device according to an embodiment of the present invention.

Fig. 3 is a schematic diagram of a hardware structure of an online office interaction platform according to an embodiment of the present invention.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

In order to achieve the above technical problem, please refer to fig. 1 in combination, which provides a flowchart of an office equipment remote interaction method, and when the method is implemented, the following steps S110 to S150 are specifically performed.

Step S110, determining first IP address information corresponding to first office equipment and second IP address information corresponding to second office equipment, wherein the first IP address information and the second IP address information respectively comprise identification codes of a plurality of different information fields.

Step S120, collecting a sample device identifier of one section of identifier code of the first office device in the first IP address information, and determining the identifier code with the shortest information field in the second IP address information as a target identifier code.

Step S130, loading the sample device identifier into the target identification code based on a preset loading mode, obtaining a basic loading sequence in the target identification code, and determining a first interaction relationship between the first office device and the second office device according to the sample device identifier and the basic loading sequence.

Step S140, acquiring current equipment coding field information in the target identification code by taking the basic loading sequence as a target sequence, loading the current equipment coding field information into the identification code where the sample equipment identifier is located according to a second interaction relation corresponding to the first interaction relation, acquiring the target coding field information corresponding to the current equipment coding field information from the identification code where the sample equipment identifier is located, determining whether the first office equipment and the second office equipment are disconnected according to the target coding field information, and if the first office equipment and the second office equipment are disconnected, judging that the first office equipment and the second office equipment are blocked in the interaction process.

The following advantageous effects can be achieved when the method described in the above steps S110 to S140 is performed: the method comprises the steps of firstly loading a collected sample equipment identifier into a target identifier in a preset loading mode to obtain a basic loading sequence, and then determining a first interaction relation between first office equipment and second office equipment according to the sample equipment identifier and the basic loading sequence. And secondly, acquiring the current equipment coding field information in the target identification code, and further acquiring the target coding field information corresponding to the current equipment coding field information. And then judging whether the first office equipment and the second office equipment are disconnected or not according to the target coding field information. By the design, the situation that the first office equipment and the second office equipment are blocked when control interaction is carried out can be judged according to the situation that the first office equipment and the second office equipment are disconnected, and the experience of a user can not be influenced.

Optionally, the determining first IP address information corresponding to the first office device and second IP address information corresponding to the second office device includes: acquiring the first office equipment and the second office equipment; determining the first IP address information corresponding to the first office equipment according to field distribution information corresponding to information fields; the distribution mode of the equipment information fields between any two adjacent identification codes in the first IP address information is field distribution information corresponding to the information fields; and determining second IP address information corresponding to the second office equipment according to field distribution information corresponding to the information fields, wherein the field distribution information corresponding to the information fields is determined according to the distribution mode of the equipment information fields between any two adjacent identification codes in the second IP address information.

Optionally, the loading the sample device identifier into the target identification code based on a preset loading manner, obtaining the basic loading sequence in the target identification code, and determining a first interaction relationship between the first office device and the second office device according to the sample device identifier and the basic loading sequence includes:

loading the sample device identifier into the target identification code based on the preset loading mode, and obtaining the basic loading sequence in the target identification code;

acquiring key matching points in the identification code of the identifier of the sample equipment; wherein the keypoint match is a keypoint based on the sample device identifier; loading the key matching points into the target identification code based on the preset loading mode, and obtaining key loading points in the target identification code;

and determining a first interaction relation between the first office equipment and the second office equipment according to the corresponding list between the sample equipment identifier and the key matching point, the basic loading sequence and the key loading point.

Optionally, the loading the sample device identifier into the target identification code based on a preset loading manner, and obtaining the basic loading sequence in the target identification code includes: loading the sample equipment identifier into an equipment identification thread to obtain current equipment configuration information based on the loading coefficient in the preset loading mode;

inputting the current equipment configuration information into a corresponding matching position of the second office equipment according to the coordinate information and the association relation matched with each other between the preset loading mode corresponding to the first office equipment and the preset loading mode corresponding to the second office equipment, so as to obtain target matching information;

and inputting variable target matching information into the target identification code according to the preset loading mode to obtain the basic loading sequence.

On the basis of the above, please refer to fig. 2, the present invention further provides a block diagram of an office equipment remote interaction apparatus 200, which includes:

the IP information determining module 210 is configured to determine first IP address information corresponding to a first office device and second IP address information corresponding to a second office device, where the first IP address information and the second IP address information respectively include identification codes of a plurality of different information fields;

the device identifier acquisition module 220 is configured to acquire a sample device identifier of one segment of the identification code of the first office device in the first IP address information, and determine the identification code having the shortest information field in the second IP address information as a target identification code;

an interaction relationship determining module 230, configured to load the sample device identifier into the target identifier based on a preset loading manner, obtain a basic loading sequence in the target identifier, and determine a first interaction relationship between the first office device and the second office device according to the sample device identifier and the basic loading sequence;

and the equipment jam determining module 240 is configured to acquire current equipment coding field information from the target identification code by using the basic loading sequence as a target sequence, load the current equipment coding field information into the identification code where the sample equipment identifier is located according to a second interaction relationship corresponding to the first interaction relationship, obtain the target coding field information corresponding to the current equipment coding field information from the identification code where the sample equipment identifier is located, determine whether the first office equipment and the second office equipment are disconnected according to the target coding field information, and determine that a jam condition exists between the first office equipment and the second office equipment in an interaction process if the first office equipment and the second office equipment are disconnected.

Optionally, the IP information determining module is specifically configured to: acquiring the first office equipment and the second office equipment; determining the first IP address information corresponding to the first office equipment according to field distribution information corresponding to information fields; the distribution mode of the equipment information fields between any two adjacent identification codes in the first IP address information is field distribution information corresponding to the information fields; and determining second IP address information corresponding to the second office equipment according to field distribution information corresponding to the information fields, wherein the field distribution information corresponding to the information fields is determined according to the distribution mode of the equipment information fields between any two adjacent identification codes in the second IP address information.

Optionally, the interaction relationship determining module is specifically configured to:

loading the sample device identifier into the target identification code based on the preset loading mode, and obtaining the basic loading sequence in the target identification code;

acquiring key matching points in the identification code of the identifier of the sample equipment; wherein the keypoint match is a keypoint based on the sample device identifier; loading the key matching points into the target identification code based on the preset loading mode, and obtaining key loading points in the target identification code;

and determining a first interaction relation between the first office equipment and the second office equipment according to the corresponding list between the sample equipment identifier and the key matching point, the basic loading sequence and the key loading point.

Optionally, the interaction relationship determining module is further specifically configured to: loading the sample equipment identifier into an equipment identification thread to obtain current equipment configuration information based on the loading coefficient in the preset loading mode;

inputting the current equipment configuration information into a corresponding matching position of the second office equipment according to the coordinate information and the association relation matched with each other between the preset loading mode corresponding to the first office equipment and the preset loading mode corresponding to the second office equipment, so as to obtain target matching information;

and inputting variable target matching information into the target identification code according to the preset loading mode to obtain the basic loading sequence.

On the basis of the above, please refer to fig. 3 in combination, an online office interactive platform 300 is provided, which includes a processor 310, a memory 320 connected to the processor 310, and a bus 330; wherein, the processor 310 and the memory 320 communicate with each other through the bus 330; the processor 310 is used to call the program instructions in the memory 320 to execute the above-mentioned method.

Further, a readable storage medium is provided, on which a program is stored, which when executed by a processor implements the method described above.

It will be understood that the invention is not limited to the precise arrangements described above and shown in the drawings and that various modifications and changes may be made without departing from the scope thereof. The scope of the invention is limited only by the appended claims.

Claims (10)

1. An office equipment remote interaction method, characterized in that the method comprises:

determining first IP address information corresponding to first office equipment and second IP address information corresponding to second office equipment, wherein the first IP address information and the second IP address information respectively comprise identification codes of a plurality of different information fields;

acquiring a sample device identifier of one section of identification code of the first office device in the first IP address information, and determining the identification code with the shortest information field in the second IP address information as a target identification code;

loading the sample equipment identifier into the target identification code based on a preset loading mode, obtaining a basic loading sequence in the target identification code, and determining a first interaction relation between the first office equipment and the second office equipment according to the sample equipment identifier and the basic loading sequence;

and acquiring current equipment coding field information in the target identification code by taking the basic loading sequence as a target sequence, loading the current equipment coding field information into the identification code where the sample equipment identifier is located according to a second interaction relation corresponding to the first interaction relation, obtaining the target coding field information corresponding to the current equipment coding field information from the identification code where the sample equipment identifier is located, determining whether the first office equipment and the second office equipment are disconnected according to the target coding field information, and if the first office equipment and the second office equipment are disconnected, judging that the first office equipment and the second office equipment are blocked in the interaction process.

2. The method of claim 1, wherein determining first IP address information corresponding to a first office device and second IP address information corresponding to a second office device comprises: acquiring the first office equipment and the second office equipment; determining the first IP address information corresponding to the first office equipment according to field distribution information corresponding to information fields; the distribution mode of the equipment information fields between any two adjacent identification codes in the first IP address information is field distribution information corresponding to the information fields; and determining second IP address information corresponding to the second office equipment according to field distribution information corresponding to the information fields, wherein the field distribution information corresponding to the information fields is determined according to the distribution mode of the equipment information fields between any two adjacent identification codes in the second IP address information.

3. The method of claim 1, wherein the loading the sample device identifier into the target identification code based on a preset loading manner, obtaining the basic loading sequence in the target identification code, and determining the first interaction relationship between the first office device and the second office device according to the sample device identifier and the basic loading sequence comprises:

loading the sample device identifier into the target identification code based on the preset loading mode, and obtaining the basic loading sequence in the target identification code;

acquiring key matching points in the identification code of the identifier of the sample equipment; wherein the keypoint match is a keypoint based on the sample device identifier; loading the key matching points into the target identification code based on the preset loading mode, and obtaining key loading points in the target identification code;

and determining a first interaction relation between the first office equipment and the second office equipment according to the corresponding list between the sample equipment identifier and the key matching point, the basic loading sequence and the key loading point.

4. The method of claim 3, wherein the loading the sample device identifier into the target identification code based on a predetermined loading manner, and obtaining the basic loading sequence in the target identification code comprises: loading the sample equipment identifier into an equipment identification thread to obtain current equipment configuration information based on the loading coefficient in the preset loading mode;

inputting the current equipment configuration information into a corresponding matching position of the second office equipment according to the coordinate information and the association relation matched with each other between the preset loading mode corresponding to the first office equipment and the preset loading mode corresponding to the second office equipment, so as to obtain target matching information;

and inputting variable target matching information into the target identification code according to the preset loading mode to obtain the basic loading sequence.

5. An office equipment remote interaction apparatus, comprising:

the system comprises an IP information determining module, a first processing module and a second processing module, wherein the IP information determining module is used for determining first IP address information corresponding to first office equipment and second IP address information corresponding to second office equipment, and the first IP address information and the second IP address information respectively comprise identification codes of a plurality of different information fields;

the equipment identifier acquisition module is used for acquiring a sample equipment identifier of one section of identification code of the first office equipment in the first IP address information and determining the identification code with the shortest information field in the second IP address information as a target identification code;

the interactive relation determining module is used for loading the sample equipment identifier into the target identification code based on a preset loading mode, obtaining a basic loading sequence in the target identification code, and determining a first interactive relation between the first office equipment and the second office equipment according to the sample equipment identifier and the basic loading sequence;

and the equipment blockage judging module is used for acquiring current equipment coding field information in the target identification code by taking the basic loading sequence as a target sequence, loading the current equipment coding field information into the identification code where the sample equipment identifier is located according to a second interactive relation corresponding to the first interactive relation, acquiring the target coding field information corresponding to the current equipment coding field information in the identification code where the sample equipment identifier is located, determining whether the first office equipment and the second office equipment are disconnected according to the target coding field information, and judging that the first office equipment and the second office equipment are blocked in the interaction process if the first office equipment and the second office equipment are disconnected.

6. The apparatus according to claim 5, wherein the IP information determining module is specifically configured to: acquiring the first office equipment and the second office equipment; determining the first IP address information corresponding to the first office equipment according to field distribution information corresponding to information fields; the distribution mode of the equipment information fields between any two adjacent identification codes in the first IP address information is field distribution information corresponding to the information fields; and determining second IP address information corresponding to the second office equipment according to field distribution information corresponding to the information fields, wherein the field distribution information corresponding to the information fields is determined according to the distribution mode of the equipment information fields between any two adjacent identification codes in the second IP address information.

7. The apparatus of claim 5, wherein the interaction relationship determining module is specifically configured to:

loading the sample device identifier into the target identification code based on the preset loading mode, and obtaining the basic loading sequence in the target identification code;

acquiring key matching points in the identification code of the identifier of the sample equipment; wherein the keypoint match is a keypoint based on the sample device identifier; loading the key matching points into the target identification code based on the preset loading mode, and obtaining key loading points in the target identification code;

and determining a first interaction relation between the first office equipment and the second office equipment according to the corresponding list between the sample equipment identifier and the key matching point, the basic loading sequence and the key loading point.

8. The apparatus of claim 7, wherein the interaction relationship determining module is further configured to: loading the sample equipment identifier into an equipment identification thread to obtain current equipment configuration information based on the loading coefficient in the preset loading mode;

inputting the current equipment configuration information into a corresponding matching position of the second office equipment according to the coordinate information and the association relation matched with each other between the preset loading mode corresponding to the first office equipment and the preset loading mode corresponding to the second office equipment, so as to obtain target matching information;

and inputting variable target matching information into the target identification code according to the preset loading mode to obtain the basic loading sequence.

9. An online office interaction platform, comprising a processor and a memory in communication with each other, the processor being configured to retrieve a computer program from the memory and to implement the method of any one of claims 1 to 4 by running the computer program.

10. A computer-readable storage medium, on which a computer program is stored which, when executed, implements the method of any of claims 1-4.

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