CN115865528B - Multi-device-based user profile operation method, system and readable storage medium - Google Patents

Abstract

The invention discloses a user data operation method, a system and a readable storage medium based on multiple devices, wherein the method comprises the following steps: acquiring user codes of equipment ends, and classifying different equipment ends based on the user codes to obtain equipment groups corresponding to different user attributes; acquiring synchronous data of a device group, storing the synchronous data in a server, and presynchronizing the synchronous data at device ends corresponding to different user codes in the current device group; identifying a synchronous request of the equipment end, and calling storage data in a server based on the synchronous request of the current equipment end to perform data synchronous operation on the current equipment end; and after the data synchronization operation is completed, updating data based on the equipment group corresponding to the current equipment end so as to mark the synchronized equipment and the unsynchronized equipment in the equipment group. The invention can reduce the risk of data loss, can permanently store the data after the user authorization, and ensures the privacy of the data while realizing the information sharing of multiple devices.

Description

Multi-device-based user profile operation method, system and readable storage medium

Technical Field

The present invention relates to the field of data processing technology, and more particularly, to a method, a system, and a readable storage medium for operating user data based on multiple devices.

Background

With the continuous development of internet and big data applications, people can generate a large amount of data in daily life and work, the data can be used for portrait of people and can also be used for recording and storing by people, the data types are also classified into various types, private data of users, shared data shared by public and the like, wherein the private data of users are mostly related to equipment used by the users, such as the use trace of mobile phones to be used as the use data of the users, and the data obtained by the users for chat, shooting, video recording and other activities based on the mobile phones are stored as the private data of the users.

Therefore, most of data of a user are stored in the device, such as a mobile phone, a USB flash disk and the like, and due to the existence of information tightness generated by the use of the device by the user, once the data of the user is lost along with the device, the data is lost, and when the user data are stored by utilizing big data or a cloud disk, the problem that the data are leaked due to the diversity of the device is also caused.

Disclosure of Invention

The invention aims to provide a multi-device-based user data operation method, a multi-device-based user data operation system and a multi-device-based user data operation readable storage medium, which can reduce the risk of data loss, can permanently store data after user authorization, and ensure the privacy of the data while realizing multi-device sharing.

The first aspect of the invention provides a user data operation method based on multiple devices, which comprises the following steps:

acquiring user codes of equipment ends, and classifying different equipment ends based on the user codes to obtain equipment groups corresponding to different user attributes;

acquiring synchronous data of the equipment group, storing the synchronous data in a server, and presynchronizing equipment ends corresponding to different user codes in the current equipment group by utilizing the synchronous data;

identifying a synchronous request of the equipment end, and calling storage data in a server based on the synchronous request of the current equipment end to perform data synchronous operation on the current equipment end;

and after the data synchronization operation is completed, updating data based on the equipment group corresponding to the current equipment end so as to mark the synchronized equipment and the unsynchronized equipment in the equipment group.

In this scheme, the acquiring the user code of the device end classifies different device ends based on the user code to obtain device groups corresponding to different user attributes, and specifically includes:

Acquiring user attribute data of equipment ends to identify the user codes, wherein one user code is matched with at least one equipment end;

and classifying different equipment ends based on the user codes so as to unify the equipment ends with the same user codes to obtain different equipment groups, wherein one equipment group is matched with one user code.

In this solution, the obtaining the synchronization data of the device group is stored in a server, and the presynchronizing is performed on the device ends corresponding to different user codes in the current device group by using the synchronization data, which specifically includes:

acquiring new data of all the equipment ends in the equipment group as the synchronous data and storing the data into a server;

acquiring the newly added data corresponding to each equipment end, and performing data segmentation based on the synchronous data to identify pre-synchronous data corresponding to each equipment end;

and presynchronizing the equipment ends based on the presynchronized data, wherein one presynchronized data at least corresponds to one equipment end.

In this scheme, the identifying the synchronization request of the device end, so as to invoke the stored data in the server to perform the data synchronization operation on the current device end based on the synchronization request of the current device end, specifically includes:

An active request or a passive request at the device side is acquired to identify the synchronization request, wherein,

when the active request is identified, pre-synchronization data stored in a server corresponding to the equipment group to which the current equipment end belongs is obtained, so that synchronous operation is carried out on the current equipment end based on the corresponding pre-synchronization data;

and when the passive request is identified, acquiring the synchronous data stored in the server by the equipment group corresponding to the current equipment end, so that synchronous operation is carried out on the current equipment end based on the corresponding synchronous data.

In this scheme, after the data synchronization operation is completed, data update is performed based on a device group corresponding to a current device end to mark synchronized devices and unsynchronized devices in the device group, which specifically includes:

acquiring a device end sequence number of the completion of the data synchronization operation, and marking a corresponding device end as synchronized device based on the device end sequence number;

and carrying out reject screening in the equipment group based on the equipment end serial numbers, and marking the equipment ends remained in the equipment group as unsynchronized equipment.

In this scheme, the synchronization data includes schedule data, mail data, note data, and bookshelf data of the user.

The second aspect of the present invention also provides a user data operating system based on multiple devices, including a memory and a processor, where the memory includes a user data operating method program based on multiple devices, and the user data operating method program based on multiple devices, when executed by the processor, implements the following steps:

acquiring user codes of equipment ends, and classifying different equipment ends based on the user codes to obtain equipment groups corresponding to different user attributes;

acquiring synchronous data of the equipment group, storing the synchronous data in a server, and presynchronizing equipment ends corresponding to different user codes in the current equipment group by utilizing the synchronous data;

identifying a synchronous request of the equipment end, and calling storage data in a server based on the synchronous request of the current equipment end to perform data synchronous operation on the current equipment end;

and after the data synchronization operation is completed, updating data based on the equipment group corresponding to the current equipment end so as to mark the synchronized equipment and the unsynchronized equipment in the equipment group.

In this scheme, the acquiring the user code of the device end classifies different device ends based on the user code to obtain device groups corresponding to different user attributes, and specifically includes:

Acquiring user attribute data of equipment ends to identify the user codes, wherein one user code is matched with at least one equipment end;

and classifying different equipment ends based on the user codes so as to unify the equipment ends with the same user codes to obtain different equipment groups, wherein one equipment group is matched with one user code.

In this solution, the obtaining the synchronization data of the device group is stored in a server, and the presynchronizing is performed on the device ends corresponding to different user codes in the current device group by using the synchronization data, which specifically includes:

acquiring new data of all the equipment ends in the equipment group as the synchronous data and storing the data into a server;

acquiring the newly added data corresponding to each equipment end, and performing data segmentation based on the synchronous data to identify pre-synchronous data corresponding to each equipment end;

and presynchronizing the equipment ends based on the presynchronized data, wherein one presynchronized data at least corresponds to one equipment end.

In this scheme, the identifying the synchronization request of the device end, so as to invoke the stored data in the server to perform the data synchronization operation on the current device end based on the synchronization request of the current device end, specifically includes:

An active request or a passive request at the device side is acquired to identify the synchronization request, wherein,

when the active request is identified, pre-synchronization data stored in a server corresponding to the equipment group to which the current equipment end belongs is obtained, so that synchronous operation is carried out on the current equipment end based on the corresponding pre-synchronization data;

and when the passive request is identified, acquiring the synchronous data stored in the server by the equipment group corresponding to the current equipment end, so that synchronous operation is carried out on the current equipment end based on the corresponding synchronous data.

In this scheme, after the data synchronization operation is completed, data update is performed based on a device group corresponding to a current device end to mark synchronized devices and unsynchronized devices in the device group, which specifically includes:

acquiring a device end sequence number of the completion of the data synchronization operation, and marking a corresponding device end as synchronized device based on the device end sequence number;

and carrying out reject screening in the equipment group based on the equipment end serial numbers, and marking the equipment ends remained in the equipment group as unsynchronized equipment.

In this scheme, the synchronization data includes schedule data, mail data, note data, and bookshelf data of the user.

A third aspect of the present invention provides a computer readable storage medium having embodied therein a multi-device based user profile operation method program of a machine, which when executed by a processor, implements the steps of a multi-device based user profile operation method as described in any one of the preceding claims.

The user data operation method, the system and the readable storage medium based on the multiple devices can reduce the risk of data loss when the devices are lost, and can permanently store the user data after the user authorization, thereby realizing the data sharing among the multiple devices of the user; the information tightness of the user data is guaranteed, and the privacy of the user data is further guaranteed.

Drawings

FIG. 1 is a flow chart of a method of multi-device based user profile operation of the present invention;

FIG. 2 illustrates a block diagram of a multi-device based user profile operating system in accordance with the present invention.

Detailed Description

In order that the above-recited objects, features and advantages of the present invention will be more clearly understood, a more particular description of the invention will be rendered by reference to the appended drawings and appended detailed description. It should be noted that, in the case of no conflict, the embodiments of the present application and the features in the embodiments may be combined with each other.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those described herein, and therefore the scope of the present invention is not limited to the specific embodiments disclosed below.

FIG. 1 shows a flow chart of a method of multi-device based user profile operation of the present application.

As shown in fig. 1, the present application discloses a user profile operation method based on multiple devices, which includes the following steps:

s102, acquiring user codes of equipment ends, and classifying different equipment ends based on the user codes to obtain equipment groups corresponding to different user attributes;

s104, acquiring synchronous data of the equipment group, storing the synchronous data in a server, and presynchronizing equipment ends corresponding to different user codes in the current equipment group by utilizing the synchronous data;

s106, identifying a synchronous request of the equipment end, and calling storage data in a server based on the synchronous request of the current equipment end to perform data synchronous operation on the current equipment end;

s108, after the data synchronization operation is completed, updating data based on the equipment group corresponding to the current equipment end so as to mark the synchronized equipment and the unsynchronized equipment in the equipment group.

It should be noted that, in this embodiment, the user code of the device side is obtained to classify the device side, so that different device sides can be classified based on the user code to obtain device groups corresponding to different user attributes, that is, one user can have a plurality of device sides under the user, and accordingly, one user corresponds to one device group, obtains synchronization data of the device group to store the synchronization data in a server, and performs presynchronization on the device sides corresponding to different user codes in the current device group by using the synchronization data, where the server may be a local server or a cloud server, if the server is a local server, different device sides of the current user may be connected based on the internet of things, if the server is a cloud server, different device sides of the current user may be connected based on the internet, and when the application is performed, a synchronization request of the device sides is identified, so that data stored in the server is called for synchronization operation, and after the synchronization operation is completed, data update is performed based on the device groups corresponding to the current device sides, so as to mark the synchronized device sides in the device group and the device that are not synchronized.

According to an embodiment of the present invention, the acquiring a user code of a device side classifies different device sides based on the user code to obtain a device group corresponding to different user attributes, and specifically includes:

Acquiring user attribute data of equipment ends to identify the user codes, wherein one user code is matched with at least one equipment end;

and classifying different equipment ends based on the user codes so as to unify the equipment ends with the same user codes to obtain different equipment groups, wherein one equipment group is matched with one user code.

It should be noted that, in this embodiment, the user code is specifically obtained by obtaining the user attribute data of the device end to identify, where one user code matches at least one device end, that is, indicates that one user code may correspond to multiple device ends, that is, one user may have a corresponding device end, and categorize different device ends based on different user codes, where the categorizing specific manner is to unify the device ends with the same user code, so as to obtain different device groups, and accordingly, one device group matches one user code, that is, one user corresponds to one device group.

According to an embodiment of the present invention, the obtaining the synchronization data of the device group is stored in a server, and the presynchronizing is performed on device sides corresponding to different user codes in the current device group by using the synchronization data, which specifically includes:

Acquiring new data of all the equipment ends in the equipment group as the synchronous data and storing the data into a server;

acquiring the newly added data corresponding to each equipment end, and performing data segmentation based on the synchronous data to identify pre-synchronous data corresponding to each equipment end;

and presynchronizing the equipment ends based on the presynchronized data, wherein one presynchronized data at least corresponds to one equipment end.

It should be noted that in this embodiment, different device sides correspond to their own newly added data, so that the newly added data of all the device sides in the device group may be obtained as the synchronization data to be stored in the server, where the newly added data corresponding to each device side is obtained, so that data splitting may be performed based on the synchronization data to identify pre-synchronization data corresponding to each device side, where the pre-synchronization data is data remaining after the synchronization data is split into the newly added data of the current device side, and the device sides are pre-synchronized based on the pre-synchronization data, that is, the data remaining after the synchronization data is split into the newly added data of the current device side is indicated to be pre-synchronized with the current device side, and accordingly, not all the device sides have the newly added data, so that one pre-synchronization data corresponds to at least one device side.

According to an embodiment of the present invention, the identifying a synchronization request of a device side to invoke, based on the synchronization request of the current device side, stored data in a server to perform a data synchronization operation on the current device side specifically includes:

an active request or a passive request at the device side is acquired to identify the synchronization request, wherein,

when the active request is identified, pre-synchronization data stored in a server corresponding to the equipment group to which the current equipment end belongs is obtained, so that synchronous operation is carried out on the current equipment end based on the corresponding pre-synchronization data;

and when the passive request is identified, acquiring the synchronous data stored in the server by the equipment group corresponding to the current equipment end, so that synchronous operation is carried out on the current equipment end based on the corresponding synchronous data.

It should be noted that, in this embodiment, the synchronization request includes an active request and a passive request, where when the active request is identified, it indicates that the user needs to synchronize actively, and at this time, pre-synchronization data stored in the server corresponding to the device group to which the current device side belongs is obtained, so that a synchronization operation is performed on the current device side based on the corresponding pre-synchronization data; when the passive request is identified, the device end is indicated to be in a time of periodically needing to be synchronized, and at the moment, the synchronous data stored in the server corresponding to the device group to which the current device end belongs is acquired, so that the current device end is synchronized based on the corresponding synchronous data.

According to an embodiment of the present invention, after the data synchronization operation is completed, data update is performed based on a device group corresponding to a current device side, so as to mark synchronized devices and unsynchronized devices in the device group, including:

acquiring a device end sequence number of the completion of the data synchronization operation, and marking a corresponding device end as synchronized device based on the device end sequence number;

and carrying out reject screening in the equipment group based on the equipment end serial numbers, and marking the equipment ends remained in the equipment group as unsynchronized equipment.

It should be noted that, in this embodiment, different device ends in the device group correspond to device end serial numbers, so that the device end serial numbers of the data synchronization operation can be obtained, the corresponding device ends are marked as synchronized devices based on the device end serial numbers, correspondingly, rejection screening is performed in the device group based on the device end serial numbers, the device ends remaining in the device group are marked as unsynchronized devices, and after the device end serial numbers marked as synchronized devices in the same device group are rejected, the device ends corresponding to the rest unsynchronized device end serial numbers are the unsynchronized devices.

According to the embodiment of the invention, the synchronous data comprises schedule data, mail data, note data and bookshelf data of a user.

It should be noted that, in this embodiment, the synchronization data is newly added data generated by different device ends, including, for example, schedule data, mail data, note data, and bookshelf data, where the corresponding device ends include mobile devices such as a mobile phone and a computer.

It should be noted that the method further includes performing date splitting according to the presynchronized data, and specifically includes:

pre-synchronization data corresponding to each equipment end is obtained;

splitting the date based on the presynchronization data so as to obtain presynchronization data options corresponding to each synchronization date division;

the presynchronized data is divided according to the synchronous date based on presynchronized data options to be output to the equipment side.

In this embodiment, when the device side sends an active request, when the device side obtains the pre-synchronization data stored correspondingly to perform the synchronization operation, the pre-synchronization data of the device side may be divided according to the date, so as to provide the device side with the selection, and then perform the synchronization operation based on the pre-synchronization data selected by the device side, so as to selectively synchronize, thereby simplifying the process of screening the target content in the synchronization content by the device side user, reducing unnecessary time cost, for example, the user needs to check the note data before "3" days, then only needs to select the date before "3" days according to the synchronization date, and then output the pre-synchronization data corresponding to the synchronization date to the device side to perform the synchronization operation.

It is worth mentioning that the method further includes type splitting based on the pre-synchronization data, specifically including:

pre-synchronization data corresponding to each equipment end is obtained;

splitting the data types based on the presynchronization data so as to obtain presynchronization data options corresponding to each data type division;

the presynchronized data is divided according to data types based on presynchronized data options to be output to the equipment side.

It should be noted that in this embodiment, the foregoing embodiment describes that the pre-synchronization data is divided based on the synchronization date, but in this embodiment describes that the pre-synchronization data is divided based on the data type, so as to be supplied to the device side for selection, and then the pre-synchronization data is divided according to the data type based on the pre-synchronization data option selected by the device side for output to the device side, so as to achieve accuracy of the device side user in the synchronization operation of the data type, for example, the user needs to synchronize the image data in the bookshelf data, so that the multimedia data can be synchronized on the data type level, and further the corresponding image data can be obtained.

It should be noted that the method further includes obtaining feedback data of the device side, which specifically includes:

Acquiring feedback data of the equipment end to identify corresponding presynchronization data, wherein,

acquiring a date option of the equipment end, and further acquiring corresponding presynchronization data based on the date option and outputting the presynchronization data to the equipment end;

and acquiring type options of the equipment end, and further acquiring corresponding presynchronized data based on the type options and outputting the presynchronized data to the equipment end.

It should be noted that in this embodiment, the foregoing embodiment describes that the pre-synchronization data may be divided based on the date and the type, so as to obtain the corresponding option of the pre-synchronization data, and correspondingly, the device side performs feedback after selecting based on different options, so that the pre-synchronization data needed by the device side is identified after acquiring the feedback data, which specifically includes identifying the pre-synchronization data corresponding to the date and the corresponding type.

It should be noted that the method further includes obtaining passive synchronization definition data of the device side, which specifically includes:

the method comprises the steps of obtaining passive synchronization definition data of the equipment end, wherein the passive synchronization definition data comprise a synchronization period, a synchronization type and a synchronization date;

and completing the synchronous operation according to the synchronous type and/or the synchronous date in the corresponding time based on the synchronous period.

It should be noted that, in this embodiment, during passive synchronization, that is, the automatic synchronization operation of the device end is indicated, different data may be synchronized by setting different passive synchronization definition data packets, so as to achieve the goal of data classification synchronization, and facilitate the user to review.

FIG. 2 illustrates a block diagram of a multi-device based user profile operating system in accordance with the present invention.

As shown in fig. 2, the present invention discloses a user data operating system based on multiple devices, which comprises a memory and a processor, wherein the memory comprises a user data operating method program based on multiple devices, and the user data operating method program based on multiple devices realizes the following steps when being executed by the processor:

acquiring user codes of equipment ends, and classifying different equipment ends based on the user codes to obtain equipment groups corresponding to different user attributes;

acquiring synchronous data of the equipment group, storing the synchronous data in a server, and presynchronizing equipment ends corresponding to different user codes in the current equipment group by utilizing the synchronous data;

Identifying a synchronous request of the equipment end, and calling storage data in a server based on the synchronous request of the current equipment end to perform data synchronous operation on the current equipment end;

and after the data synchronization operation is completed, updating data based on the equipment group corresponding to the current equipment end so as to mark the synchronized equipment and the unsynchronized equipment in the equipment group.

It should be noted that, in this embodiment, the user code of the device side is obtained to classify the device side, so that different device sides can be classified based on the user code to obtain device groups corresponding to different user attributes, that is, one user can have a plurality of device sides under the user, and accordingly, one user corresponds to one device group, obtains synchronization data of the device group to store the synchronization data in a server, and performs presynchronization on the device sides corresponding to different user codes in the current device group by using the synchronization data, where the server may be a local server or a cloud server, if the server is a local server, different device sides of the current user may be connected based on the internet of things, if the server is a cloud server, different device sides of the current user may be connected based on the internet, and when the application is performed, a synchronization request of the device sides is identified, so that data stored in the server is called for synchronization operation, and after the synchronization operation is completed, data update is performed based on the device groups corresponding to the current device sides, so as to mark the synchronized device sides in the device group and the device that are not synchronized.

According to an embodiment of the present invention, the acquiring a user code of a device side classifies different device sides based on the user code to obtain a device group corresponding to different user attributes, and specifically includes:

acquiring user attribute data of equipment ends to identify the user codes, wherein one user code is matched with at least one equipment end;

and classifying different equipment ends based on the user codes so as to unify the equipment ends with the same user codes to obtain different equipment groups, wherein one equipment group is matched with one user code.

It should be noted that, in this embodiment, the user code is specifically obtained by obtaining the user attribute data of the device end to identify, where one user code matches at least one device end, that is, indicates that one user code may correspond to multiple device ends, that is, one user may have a corresponding device end, and categorize different device ends based on different user codes, where the categorizing specific manner is to unify the device ends with the same user code, so as to obtain different device groups, and accordingly, one device group matches one user code, that is, one user corresponds to one device group.

According to an embodiment of the present invention, the obtaining the synchronization data of the device group is stored in a server, and the presynchronizing is performed on device sides corresponding to different user codes in the current device group by using the synchronization data, which specifically includes:

acquiring new data of all the equipment ends in the equipment group as the synchronous data and storing the data into a server;

acquiring the newly added data corresponding to each equipment end, and performing data segmentation based on the synchronous data to identify pre-synchronous data corresponding to each equipment end;

and presynchronizing the equipment ends based on the presynchronized data, wherein one presynchronized data at least corresponds to one equipment end.

It should be noted that in this embodiment, different device sides correspond to their own newly added data, so that the newly added data of all the device sides in the device group may be obtained as the synchronization data to be stored in the server, where the newly added data corresponding to each device side is obtained, so that data splitting may be performed based on the synchronization data to identify pre-synchronization data corresponding to each device side, where the pre-synchronization data is data remaining after the synchronization data is split into the newly added data of the current device side, and the device sides are pre-synchronized based on the pre-synchronization data, that is, the data remaining after the synchronization data is split into the newly added data of the current device side is indicated to be pre-synchronized with the current device side, and accordingly, not all the device sides have the newly added data, so that one pre-synchronization data corresponds to at least one device side.

According to an embodiment of the present invention, the identifying a synchronization request of a device side to invoke, based on the synchronization request of the current device side, stored data in a server to perform a data synchronization operation on the current device side specifically includes:

an active request or a passive request at the device side is acquired to identify the synchronization request, wherein,

when the active request is identified, pre-synchronization data stored in a server corresponding to the equipment group to which the current equipment end belongs is obtained, so that synchronous operation is carried out on the current equipment end based on the corresponding pre-synchronization data;

and when the passive request is identified, acquiring the synchronous data stored in the server by the equipment group corresponding to the current equipment end, so that synchronous operation is carried out on the current equipment end based on the corresponding synchronous data.

It should be noted that, in this embodiment, the synchronization request includes an active request and a passive request, where when the active request is identified, it indicates that the user needs to synchronize actively, and at this time, pre-synchronization data stored in the server corresponding to the device group to which the current device side belongs is obtained, so that a synchronization operation is performed on the current device side based on the corresponding pre-synchronization data; when the passive request is identified, the device end is indicated to be in a time of periodically needing to be synchronized, and at the moment, the synchronous data stored in the server corresponding to the device group to which the current device end belongs is acquired, so that the current device end is synchronized based on the corresponding synchronous data.

According to an embodiment of the present invention, after the data synchronization operation is completed, data update is performed based on a device group corresponding to a current device side, so as to mark synchronized devices and unsynchronized devices in the device group, including:

acquiring a device end sequence number of the completion of the data synchronization operation, and marking a corresponding device end as synchronized device based on the device end sequence number;

and carrying out reject screening in the equipment group based on the equipment end serial numbers, and marking the equipment ends remained in the equipment group as unsynchronized equipment.

It should be noted that, in this embodiment, different device ends in the device group correspond to device end serial numbers, so that the device end serial numbers of the data synchronization operation can be obtained, the corresponding device ends are marked as synchronized devices based on the device end serial numbers, correspondingly, rejection screening is performed in the device group based on the device end serial numbers, the device ends remaining in the device group are marked as unsynchronized devices, and after the device end serial numbers marked as synchronized devices in the same device group are rejected, the device ends corresponding to the rest unsynchronized device end serial numbers are the unsynchronized devices.

According to the embodiment of the invention, the synchronous data comprises schedule data, mail data, note data and bookshelf data of a user.

It should be noted that, in this embodiment, the synchronization data is newly added data generated by different device ends, including, for example, schedule data, mail data, note data, and bookshelf data, where the corresponding device ends include mobile devices such as a mobile phone and a computer.

It should be noted that the method further includes performing date splitting according to the presynchronized data, and specifically includes:

pre-synchronization data corresponding to each equipment end is obtained;

splitting the date based on the presynchronization data so as to obtain presynchronization data options corresponding to each synchronization date division;

the presynchronized data is divided according to the synchronous date based on presynchronized data options to be output to the equipment side.

In this embodiment, when the device side sends an active request, when the device side obtains the pre-synchronization data stored correspondingly to perform the synchronization operation, the pre-synchronization data of the device side may be divided according to the date, so as to provide the device side with the selection, and then perform the synchronization operation based on the pre-synchronization data selected by the device side, so as to selectively synchronize, thereby simplifying the process of screening the target content in the synchronization content by the device side user, reducing unnecessary time cost, for example, the user needs to check the note data before "3" days, then only needs to select the date before "3" days according to the synchronization date, and then output the pre-synchronization data corresponding to the synchronization date to the device side to perform the synchronization operation.

It is worth mentioning that the method further includes type splitting based on the pre-synchronization data, specifically including:

pre-synchronization data corresponding to each equipment end is obtained;

splitting the data types based on the presynchronization data so as to obtain presynchronization data options corresponding to each data type division;

the presynchronized data is divided according to data types based on presynchronized data options to be output to the equipment side.

It should be noted that in this embodiment, the foregoing embodiment describes that the pre-synchronization data is divided based on the synchronization date, but in this embodiment describes that the pre-synchronization data is divided based on the data type, so as to be supplied to the device side for selection, and then the pre-synchronization data is divided according to the data type based on the pre-synchronization data option selected by the device side for output to the device side, so as to achieve accuracy of the device side user in the synchronization operation of the data type, for example, the user needs to synchronize the image data in the bookshelf data, so that the multimedia data can be synchronized on the data type level, and further the corresponding image data can be obtained.

It should be noted that the method further includes obtaining feedback data of the device side, which specifically includes:

Acquiring feedback data of the equipment end to identify corresponding presynchronization data, wherein,

acquiring a date option of the equipment end, and further acquiring corresponding presynchronization data based on the date option and outputting the presynchronization data to the equipment end;

and acquiring type options of the equipment end, and further acquiring corresponding presynchronized data based on the type options and outputting the presynchronized data to the equipment end.

It should be noted that in this embodiment, the foregoing embodiment describes that the pre-synchronization data may be divided based on the date and the type, so as to obtain the corresponding option of the pre-synchronization data, and correspondingly, the device side performs feedback after selecting based on different options, so that the pre-synchronization data needed by the device side is identified after acquiring the feedback data, which specifically includes identifying the pre-synchronization data corresponding to the date and the corresponding type.

It should be noted that the method further includes obtaining passive synchronization definition data of the device side, which specifically includes:

the method comprises the steps of obtaining passive synchronization definition data of the equipment end, wherein the passive synchronization definition data comprise a synchronization period, a synchronization type and a synchronization date;

and completing the synchronous operation according to the synchronous type and/or the synchronous date in the corresponding time based on the synchronous period.

It should be noted that, in this embodiment, during passive synchronization, that is, the automatic synchronization operation of the device end is indicated, different data may be synchronized by setting different passive synchronization definition data packets, so as to achieve the goal of data classification synchronization, and facilitate the user to review.

A third aspect of the present invention provides a computer-readable storage medium having embodied therein a multi-device based user profile operation method program which, when executed by a processor, implements the steps of a multi-device based user profile operation method as described in any one of the preceding claims.

The user data operation method, the system and the readable storage medium based on the multiple devices can reduce the risk of data loss when the devices are lost, and can permanently store the user data after the user authorization, thereby realizing the data sharing among the multiple devices of the user; the information tightness of the user data is guaranteed, and the privacy of the user data is further guaranteed.

In the several embodiments provided in this application, it should be understood that the disclosed apparatus and method may be implemented in other ways. The above described device embodiments are only illustrative, e.g. the division of the units is only one logical function division, and there may be other divisions in practice, such as: multiple units or components may be combined or may be integrated into another system, or some features may be omitted, or not performed. In addition, the various components shown or discussed may be coupled or directly coupled or communicatively coupled to each other via some interface, whether indirectly coupled or communicatively coupled to devices or units, whether electrically, mechanically, or otherwise.

The units described above as separate components may or may not be physically separate, and components shown as units may or may not be physical units; can be located in one place or distributed to a plurality of network units; some or all of the units may be selected according to actual needs to achieve the purpose of the solution of this embodiment.

In addition, each functional unit in each embodiment of the present invention may be integrated in one processing unit, or each unit may be separately used as one unit, or two or more units may be integrated in one unit; the integrated units may be implemented in hardware or in hardware plus software functional units.

Those of ordinary skill in the art will appreciate that: all or part of the steps for implementing the above method embodiments may be implemented by hardware related to program instructions, and the foregoing program may be stored in a computer readable storage medium, where the program, when executed, performs steps including the above method embodiments; and the aforementioned storage medium includes: a mobile storage device, a Read-Only Memory (ROM), a random access Memory (RAM, random Access Memory), a magnetic disk or an optical disk, or the like, which can store program codes.

Alternatively, the above-described integrated units of the present invention may be stored in a computer-readable storage medium if implemented in the form of software functional modules and sold or used as separate products. Based on such understanding, the technical solutions of the embodiments of the present invention may be embodied in essence or a part contributing to the prior art in the form of a software product stored in a storage medium, including several instructions for causing a computer device (which may be a personal computer, a server, or a network device, etc.) to execute all or part of the methods described in the embodiments of the present invention. And the aforementioned storage medium includes: a removable storage device, ROM, RAM, magnetic or optical disk, or other medium capable of storing program code.

Claims (8)

1. A method of operating user profile based on multiple devices, comprising the steps of:

acquiring user codes of equipment ends, and classifying different equipment ends based on the user codes to obtain equipment groups corresponding to different user attributes;

acquiring synchronous data of the equipment group, storing the synchronous data in a server, and presynchronizing equipment ends corresponding to different user codes in the current equipment group by utilizing the synchronous data; the method specifically comprises the following steps: acquiring new data of all the equipment ends in the equipment group as the synchronous data and storing the data into a server; acquiring the newly added data corresponding to each equipment end, and performing data segmentation based on the synchronous data to identify pre-synchronous data corresponding to each equipment end; presynchronizing the equipment ends based on the presynchronizing data, wherein one presynchronizing data at least corresponds to one equipment end;

date splitting is carried out according to presynchronization data, wherein the method specifically comprises the following steps: pre-synchronization data corresponding to each equipment end is obtained; splitting the date based on the presynchronization data so as to obtain presynchronization data options corresponding to each synchronization date division; dividing presynchronized data according to the synchronization date based on presynchronized data options to output to the equipment end;

Identifying a synchronous request of the equipment end, and calling storage data in a server based on the synchronous request of the current equipment end to perform data synchronous operation on the current equipment end; the method specifically comprises the following steps: acquiring an active request or a passive request of the equipment end to identify the synchronous request, wherein when the active request is identified, pre-synchronous data stored in a server by the current equipment end corresponding to the equipment group is acquired, so that synchronous operation is carried out on the current equipment end based on the corresponding pre-synchronous data; when the passive request is identified, synchronous data stored in a server corresponding to the equipment group to which the current equipment end belongs are obtained, so that synchronous operation is carried out on the current equipment end based on the corresponding synchronous data;

and after the data synchronization operation is completed, updating data based on the equipment group corresponding to the current equipment end so as to mark the synchronized equipment and the unsynchronized equipment in the equipment group.

2. The method for operating user data based on multiple devices according to claim 1, wherein the obtaining the user code of the device side classifies different device sides based on the user code to obtain the device group corresponding to different user attributes, specifically includes:

Acquiring user attribute data of equipment ends to identify the user codes, wherein one user code is matched with at least one equipment end;

and classifying different equipment ends based on the user codes so as to unify the equipment ends with the same user codes to obtain different equipment groups, wherein one equipment group is matched with one user code.

3. The method for operating user data based on multiple devices according to claim 1, wherein after the data synchronization operation is completed, updating data based on a device group corresponding to a current device end to mark synchronized devices and unsynchronized devices in the device group, specifically comprising:

acquiring a device end sequence number of the completion of the data synchronization operation, and marking a corresponding device end as synchronized device based on the device end sequence number;

and carrying out reject screening in the equipment group based on the equipment end serial numbers, and marking the equipment ends remained in the equipment group as unsynchronized equipment.

4. The multi-device based user profile operation method of claim 1, wherein the synchronization data comprises at least schedule data, mail data, note data, and bookshelf data of the user.

5. A multi-device based user profile operating system comprising a memory and a processor, the memory including a multi-device based user profile operating method program therein, the multi-device based user profile operating method program when executed by the processor performing the steps of:

acquiring user codes of equipment ends, and classifying different equipment ends based on the user codes to obtain equipment groups corresponding to different user attributes;

acquiring synchronous data of the equipment group, storing the synchronous data in a server, and presynchronizing equipment ends corresponding to different user codes in the current equipment group by utilizing the synchronous data; the method specifically comprises the following steps: acquiring new data of all the equipment ends in the equipment group as the synchronous data and storing the data into a server; acquiring the newly added data corresponding to each equipment end, and performing data segmentation based on the synchronous data to identify pre-synchronous data corresponding to each equipment end; presynchronizing the equipment ends based on the presynchronizing data, wherein one presynchronizing data at least corresponds to one equipment end;

date splitting is carried out according to presynchronization data, wherein the method specifically comprises the following steps: pre-synchronization data corresponding to each equipment end is obtained; splitting the date based on the presynchronization data so as to obtain presynchronization data options corresponding to each synchronization date division; dividing presynchronized data according to the synchronization date based on presynchronized data options to output to the equipment end;

Identifying a synchronous request of the equipment end, and calling storage data in a server based on the synchronous request of the current equipment end to perform data synchronous operation on the current equipment end; the method specifically comprises the following steps: acquiring an active request or a passive request of the equipment end to identify the synchronous request, wherein when the active request is identified, pre-synchronous data stored in a server by the current equipment end corresponding to the equipment group is acquired, so that synchronous operation is carried out on the current equipment end based on the corresponding pre-synchronous data; when the passive request is identified, synchronous data stored in a server corresponding to the equipment group to which the current equipment end belongs are obtained, so that synchronous operation is carried out on the current equipment end based on the corresponding synchronous data;

and after the data synchronization operation is completed, updating data based on the equipment group corresponding to the current equipment end so as to mark the synchronized equipment and the unsynchronized equipment in the equipment group.

6. The system of claim 5, wherein the obtaining the user code of the device side classifies different device sides based on the user code to obtain device groups corresponding to different user attributes, and specifically comprises:

Acquiring user attribute data of equipment ends to identify the user codes, wherein one user code is matched with at least one equipment end;

and classifying different equipment ends based on the user codes so as to unify the equipment ends with the same user codes to obtain different equipment groups, wherein one equipment group is matched with one user code.

7. The system of claim 6, wherein the step of obtaining the synchronization data of the device group, storing the synchronization data in a server, and pre-synchronizing the synchronization data at the device end corresponding to different user codes in the device group, includes:

acquiring new data of all the equipment ends in the equipment group as the synchronous data and storing the data into a server;

acquiring the newly added data corresponding to each equipment end, and performing data segmentation based on the synchronous data to identify pre-synchronous data corresponding to each equipment end;

and presynchronizing the equipment ends based on the presynchronized data, wherein one presynchronized data at least corresponds to one equipment end.

8. A computer readable storage medium, characterized in that it comprises a multi-device based user profile operation method program, which when executed by a processor, implements the steps of a multi-device based user profile operation method according to any one of claims 1 to 4.

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