CN113504869A - Data migration method and system - Google Patents

Abstract

The invention discloses a data migration method and a system, wherein the method comprises the following steps: opening an intelligent data migration function of a sending terminal and a receiving terminal and establishing wireless connection; after receiving an operation instruction of user click data migration, the sending terminal displays a suspension ball collected by migration data in a suspension manner on a display interface of the sending terminal; the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, enters a corresponding functional module according to the selected data, and drags the data to be migrated to the receiving terminal to the floating ball; the sending terminal packs all data in the suspension ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode; and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into the corresponding functional module. The invention can select the data needing to be backed up in the sending terminal to be migrated and sent to the receiving terminal according to the user requirement, thereby improving the data migration efficiency.

Description

Data migration method and system

Technical Field

The present invention relates to the field of data processing technologies, and in particular, to a data migration method and system.

Background

The smart phone is a general name of a type of a mobile phone which has an independent operating system and an independent operating space like a personal computer, can be used by a user to install programs provided by third-party service providers such as software, games and navigation, and can realize wireless network access through a mobile communication network. The development trend of the smart phone from 2019 is to fully add a plurality of patent technologies such as artificial intelligence and 5G, so that the smart phone becomes the most widely used patent product.

Nowadays, with the popularization of smart phones and the increasing powerful functions, great convenience is brought to the daily life of people. Consequently, the update iteration of the product is faster and faster, and when a new mobile phone is replaced, the key data of the old mobile phone is transferred to the new mobile phone, so that many people can not operate the mobile phone easily.

The existing solution is that the whole mirror image is usually imported into a new mobile phone, so that the data volume is large, the time consumed in the data migration process is long, some data users do not really want to migrate the data, and some data are left in the original machine. The migration is either complete or not, and the operation is inconvenient for users.

Accordingly, the prior art is yet to be improved and developed.

Disclosure of Invention

The invention mainly aims to provide a data migration method and a data migration system, and aims to solve the problems that data in an old mobile phone cannot be selectively migrated when the data is migrated to a new mobile phone and the time consumption is long in the prior art.

In order to achieve the above object, the present invention provides a data migration method, including the following steps:

when a sending terminal needs to transfer data to a receiving terminal, an intelligent data transfer function of the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection;

after the sending terminal receives an operation instruction of user click data migration, a suspension ball for collecting migration data is displayed in a suspension mode on a display interface of the sending terminal;

the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, the sending terminal enters a corresponding functional module according to the selected data, and the data to be migrated to the receiving terminal are dragged to the floating ball;

the sending terminal packs all data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode;

and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into a corresponding functional module.

Optionally, the data migration method, where when a sending terminal needs to migrate data to a receiving terminal, an intelligent data migration function between the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish a wireless connection, further includes:

and adding an intelligent data migration function in a system of the sending terminal and the receiving terminal in advance, and setting a virtual switch for selecting to be turned on or turned off for the data migration function.

Optionally, the data migration method, wherein the adding of an intelligent data migration function in the system of the sending terminal and the receiving terminal in advance, and setting a virtual switch to be selectively turned on or off for the data migration function, further includes:

when the sending terminal or the receiving terminal receives that the user starts the data migration function through the virtual switch, the sending terminal or the receiving terminal starts the intelligent data migration function;

when the sending terminal or the receiving terminal receives that the data migration function is closed by a user through the virtual switch, the sending terminal or the receiving terminal closes the intelligent data migration function;

and when the sending terminal and the receiving terminal do not perform data migration operation, the intelligent data migration functions of the sending terminal and the receiving terminal are in a closed state.

Optionally, the data migration method, where when a sending terminal needs to migrate data to a receiving terminal, an intelligent data migration function between the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish a wireless connection, specifically includes:

when the sending terminal needs to migrate data to the receiving terminal for backup, after receiving an operation instruction of clicking the virtual switch by a user, starting an intelligent data migration function of the sending terminal and the receiving terminal;

the sending terminal opens a WIFI function, receives an operation instruction for migrating data clicked by a user, and finds the receiving terminal through searching;

and after the receiving terminal receives the request of the sending terminal for sending data, the receiving terminal establishes WIFI connection with the sending terminal.

Optionally, the data migration method, where after the sending terminal receives an operation instruction for a user to click data migration, a floating ball for collecting migration data is displayed in a floating manner on a display interface of the sending terminal, specifically includes:

setting a floating ball for collecting migration data at the sending terminal in advance, wherein the floating ball is used for temporarily storing the migration data to be sent to the receiving terminal;

and after the sending terminal receives an operation instruction of migrating the data clicked by the user, calling the floating ball, and displaying the collected migration data on a display interface of the sending terminal through the floating ball in a floating manner.

Optionally, the data migration method, where the sending terminal receives an operation instruction that a user selects data that needs to be sent to the receiving terminal, and the sending terminal enters a corresponding functional module according to the selected data and drags the data to be migrated to the receiving terminal to the hover ball, specifically includes:

the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, and enters a functional module corresponding to the selected data;

and the sending terminal calls a functional module corresponding to the selected data to select the data to be transferred to the receiving terminal, and drags the data to the floating ball for temporary storage.

Optionally, the data migration method, where the sending terminal packs all data in the hover ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission manner, specifically includes:

after the transmitting terminal acquires all migration data to be transmitted to the receiving terminal for backup through the floating ball, packaging all data in the floating ball and compressing the data into a data packet;

and the transmitting terminal transmits the data packet to the receiving terminal through a WIFI function.

Optionally, the data migration method, where the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet, and then imports the data packet into a corresponding functional module, specifically includes:

the receiving terminal receives the data packet sent by the sending terminal through a WIFI function;

and the receiving terminal analyzes the data packet and guides the analyzed data into a corresponding functional module to complete the backup of the migration data in the receiving terminal.

Optionally, the data migration method, wherein the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet, and imports the data packet into a corresponding functional module, and then further includes:

and after the sending terminal receives an operation instruction of pressing the floating ball by the user, the sending terminal closes the intelligent data migration function and is disconnected with the receiving terminal in a wireless mode.

In addition, to achieve the above object, the present invention further provides a data migration system, wherein the data migration system includes: a transmitting terminal and a receiving terminal;

when the sending terminal needs to transfer data to the receiving terminal, an intelligent data transfer function between the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection;

after the sending terminal receives an operation instruction of user click data migration, a suspension ball for collecting migration data is displayed in a suspension mode on a display interface of the sending terminal;

the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, the sending terminal enters a corresponding functional module according to the selected data, and the data to be migrated to the receiving terminal are dragged to the floating ball;

the sending terminal packs all data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode;

and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into a corresponding functional module.

In the invention, when a sending terminal needs to migrate data to a receiving terminal, an intelligent data migration function of the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection; after the sending terminal receives an operation instruction of user click data migration, a suspension ball for collecting migration data is displayed in a suspension mode on a display interface of the sending terminal; the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, the sending terminal enters a corresponding functional module according to the selected data, and the data to be migrated to the receiving terminal are dragged to the floating ball; the sending terminal packs all data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode; and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into a corresponding functional module. The invention can select the data needing to be backed up in the sending terminal to be migrated and sent to the receiving terminal according to the user requirement, thereby improving the data migration efficiency.

Drawings

FIG. 1 is a flow chart of a preferred embodiment of a data migration method of the present invention;

FIG. 2 is a flowchart of step S10 in the preferred embodiment of the data migration method of the present invention;

FIG. 3 is a flowchart of step S20 in accordance with a preferred embodiment of the data migration method of the present invention;

FIG. 4 is a flowchart of step S30 in accordance with a preferred embodiment of the data migration method of the present invention;

FIG. 5 is a flowchart of step S40 in accordance with the present invention;

FIG. 6 is a flowchart of step S50 in accordance with a preferred embodiment of the data migration method of the present invention;

FIG. 7 is a flow chart of the data migration process performed by the sending terminal and the receiving terminal in the preferred embodiment of the data migration method of the present invention;

FIG. 8 is a schematic diagram of a data migration system according to a preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer and clearer, the present invention is further described in detail below with reference to the accompanying drawings and examples. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1, the data migration method according to the preferred embodiment of the present invention includes the following steps:

and step S10, when a sending terminal needs to transfer data to a receiving terminal, the intelligent data transfer function of the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection.

The data migration method is applied to two intelligent terminals, namely a sending terminal and a receiving terminal, for example, the sending terminal can be an old (needing to be eliminated) intelligent mobile phone, and the receiving terminal can be a newly bought (needing to be used later) intelligent mobile phone, so that a user has a need to perform data backup on the old intelligent mobile phone after newly buying the intelligent mobile phone.

Before the step S10, the method further includes: adding an intelligent data migration function in a system of the sending terminal and the receiving terminal in advance, and setting a virtual switch for selecting to be turned on or turned off for the data migration function; when the sending terminal or the receiving terminal receives that the user starts the data migration function through the virtual switch, the sending terminal or the receiving terminal starts the intelligent data migration function; when the sending terminal or the receiving terminal receives that the data migration function is closed by a user through the virtual switch, the sending terminal or the receiving terminal closes the intelligent data migration function; when the sending terminal and the receiving terminal do not perform data migration operation, the respective intelligent data migration functions of the sending terminal and the receiving terminal are in a closed state, that is, at ordinary times, the intelligent processing data migration function is closed, and the conventional use of a user is not affected.

Please refer to fig. 2, which is a flowchart of step S10 in the data migration method according to the present invention.

As shown in fig. 2, the step S10 includes:

s11, when the sending terminal needs to migrate data to the receiving terminal for backup, after receiving an operation instruction of clicking the virtual switch by a user, starting an intelligent data migration function of the sending terminal and the receiving terminal;

s12, the sending terminal opens a WIFI function, receives an operation instruction of a user for clicking data to migrate out, and finds the receiving terminal through searching;

and S13, after the receiving terminal receives the request that the sending terminal is to send data, the receiving terminal establishes WIFI connection with the sending terminal.

Specifically, when the sending terminal needs to migrate data to the receiving terminal for backup (for example, migrate part of data on an old smart phone to a new smart phone), after the user can click the virtual switch on the sending terminal, the intelligent data migration function between the sending terminal and the receiving terminal is turned on, the sending terminal opens the WIFI function, receives an operation instruction for the user to click data migration, and finds the receiving terminal by searching (for example, P2P searching), after the receiving terminal receives a request (for example, a data import request from the sending terminal) that the sending terminal is going to send data, the receiving terminal establishes a WIFI connection with the sending terminal, that is, after the receiving terminal agrees with the connection request of the sending terminal, a wireless connection is established.

And step S20, after the sending terminal receives an operation instruction of the user for clicking data migration, suspending and displaying a suspension ball collected by the migration data on a display interface of the sending terminal.

Please refer to fig. 3, which is a flowchart of step S20 in the data migration method according to the present invention.

As shown in fig. 3, the step S20 includes:

s21, arranging a floating ball for collecting migration data in the sending terminal in advance, wherein the floating ball is used for temporarily storing the migration data to be sent to the receiving terminal;

and S22, after the sending terminal receives an operation instruction of data migration clicked by a user, calling the floating ball, and displaying the collected migration data on a display interface of the sending terminal through the floating ball in a floating manner.

Specifically, a floating ball for collecting migration data is arranged on the sending terminal in advance, for example, on a background of the sending terminal, and the floating ball is used for temporarily storing the migration data to be sent to the receiving terminal, and when the sending terminal receives an operation instruction for a user to click data migration, the floating ball is called, and the collected migration data is displayed on a display interface of the sending terminal through the floating ball in a floating manner.

And step S30, the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the data of the receiving terminal, and the sending terminal enters a corresponding functional module according to the selected data and drags the data to be migrated to the receiving terminal to the floating ball.

Please refer to fig. 4, which is a flowchart of step S30 in the data migration method according to the present invention.

As shown in fig. 4, the step S30 includes:

s31, the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the data of the receiving terminal, and enters a functional module which needs to correspond to the selected data;

and S32, the sending terminal calls a functional module corresponding to the selected data to select the data to be transferred to the receiving terminal, and the data is dragged to the floating ball to be temporarily stored.

Specifically, the sending terminal receives an operation instruction that a user selects data to be sent to the receiving terminal, enters a functional module corresponding to the selected data, different data correspond to different functional modules, and the sending terminal calls the functional module corresponding to the selected data to select the data to be migrated to the receiving terminal, for example, selects data of all phone numbers, and drags the data to the floating ball for temporary storage.

And step S40, the sending terminal packs all the data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode.

Please refer to fig. 5, which is a flowchart of step S40 in the data migration method according to the present invention.

As shown in fig. 5, the step S40 includes:

s41, after the sending terminal obtains all migration data to be sent to the receiving terminal for backup through the floating ball, packaging all the data in the floating ball and compressing the data into data packets;

and S42, the sending terminal sends the data packet to the receiving terminal through the WIFI function.

Specifically, after the transmitting terminal acquires all migration data to be transmitted to the receiving terminal for backup through the floating ball, all data in the floating ball are packed and compressed into data packets, the compressed data packets are more beneficial to data transmission, and the transmitting terminal transmits the data packets to the receiving terminal through the WIFI function.

Step S50, the receiving terminal receives the data packet sent by the sending terminal, and imports the data packet into a corresponding functional module after parsing the data packet.

Please refer to fig. 6, which is a flowchart of step S50 in the data migration method according to the present invention.

As shown in fig. 6, the step S50 includes:

s51, the receiving terminal receives the data packet sent by the sending terminal through a WIFI function;

and S52, the receiving terminal analyzes the data packet, and guides the analyzed data into a corresponding functional module to complete the backup of the migration data in the receiving terminal.

Specifically, the receiving terminal receives the data packet sent by the sending terminal through a WIFI function, for example, the data packet is a data packet in which all address books are packaged, the receiving terminal analyzes the data packet, and guides the analyzed data into a corresponding functional module, for example, the data packet including the address book is analyzed and then guided into the address book of the receiving terminal, so as to complete backup of migration data in the receiving terminal, and in addition, after the sending terminal receives an operation instruction that the user presses the floating ball, the sending terminal closes the intelligent data migration function and disconnects a wireless connection with the receiving terminal.

For example, for short message content migration, after an intelligent data migration function of a sending terminal (e.g., an old smart phone) is started, based on Wi-Fi P2P, a user is prompted to select an opposite terminal device (i.e., to select a corresponding receiving terminal), a migration data collection float ball is displayed in a floating manner, the mobile terminal enters a specific functional module to be subjected to data migration, a plurality of specific short message items to be migrated are selected, then the mobile terminal is dragged to the floating ball, the content to be migrated is automatically started to be transmitted to the receiving terminal (e.g., a new smart phone) through Wi-Fi, and the receiving terminal receives a data packet to analyze the data packet and import the data packet to the corresponding functional module. In addition, before multi-selection, keyword search can be performed, for example, if the search box inputs 'address', all short message bars containing 'address' are displayed, the user can select more from the short message bars, and then data migration is performed.

Further, as shown in fig. 7, the new and old smartphones open the "intelligent processing data migration" function, open Wi-Fi, and the old smartphone selects "data migration", finds the new smartphone through P2P, and selects the new smartphone. And the new smart phone receives a request of 'data import from XXX (equipment name)', clicks to accept, and establishes Wi-Fi connection with the new smart phone and the old smart phone. The old smart phone displays the migration data collection floating ball in a floating mode, a user specifically operates to enter each functional module, specifically selects data content to be migrated, drags the data content to the floating ball, and the data are transmitted to the new smart phone through Wi-Fi. And the new smart phone receives the data packet, analyzes the data packet and guides the data packet into the corresponding functional module. And after the data migration is finished, the old smart phone can select the closing function by long-time pressing of the floating ball, and the old smart phone is disconnected from the new smart phone.

The invention does not need to increase hardware cost, the user can select the function to be turned on or turned off according to the needs, compared with the existing whole data migration scheme of a large package, the invention provides a scheme for temporarily packaging data and subdividing the data migration according to the needs, the operation is simple, the dragging can be selected according to the needs, and the pain point of daily life is solved.

Further, as shown in fig. 8, based on the above data migration method, the present invention also provides a data migration system, wherein the data migration system includes: a transmitting terminal and a receiving terminal.

Specifically, when the sending terminal needs to migrate data to the receiving terminal, an intelligent data migration function between the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection; after the sending terminal receives an operation instruction of user click data migration, a suspension ball for collecting migration data is displayed in a suspension mode on a display interface of the sending terminal; the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, the sending terminal enters a corresponding functional module according to the selected data, and the data to be migrated to the receiving terminal are dragged to the floating ball; the sending terminal packs all data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode; and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into a corresponding functional module.

The method comprises the steps that an intelligent data migration function is added in a system of a sending terminal and a receiving terminal in advance, and a virtual switch which is selectively turned on or off is set for the data migration function; when the sending terminal or the receiving terminal receives that the user starts the data migration function through the virtual switch, the sending terminal or the receiving terminal starts the intelligent data migration function; when the sending terminal or the receiving terminal receives that the data migration function is closed by a user through the virtual switch, the sending terminal or the receiving terminal closes the intelligent data migration function; and when the sending terminal and the receiving terminal do not perform data migration operation, the intelligent data migration functions of the sending terminal and the receiving terminal are in a closed state.

When the sending terminal needs to migrate data to the receiving terminal for backup, after receiving an operation instruction of clicking the virtual switch by a user, starting an intelligent data migration function of the sending terminal and the receiving terminal; the sending terminal opens a WIFI function, receives an operation instruction for migrating data clicked by a user, and finds the receiving terminal through searching; and after the receiving terminal receives the request of the sending terminal for sending data, the receiving terminal establishes WIFI connection with the sending terminal.

The method comprises the steps that a floating ball used for collecting migration data is arranged in the sending terminal in advance, and the floating ball is used for temporarily storing the migration data needing to be sent to the receiving terminal; and after the sending terminal receives an operation instruction of migrating the data clicked by the user, calling the floating ball, and displaying the collected migration data on a display interface of the sending terminal through the floating ball in a floating manner.

The sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, and enters a functional module which needs to correspond to the selected data; and the sending terminal calls a functional module corresponding to the selected data to select the data to be transferred to the receiving terminal, and drags the data to the floating ball for temporary storage.

After the sending terminal obtains all migration data to be sent to the receiving terminal for backup through the floating ball, all data in the floating ball are packaged and compressed into data packets; and the transmitting terminal transmits the data packet to the receiving terminal through a WIFI function.

The receiving terminal receives the data packet sent by the sending terminal through a WIFI function; the receiving terminal analyzes the data packet, and guides the analyzed data into a corresponding functional module to complete the backup of the migration data in the receiving terminal; and after the sending terminal receives an operation instruction of pressing the floating ball by the user, the sending terminal closes the intelligent data migration function and is disconnected with the receiving terminal in a wireless mode.

In summary, the present invention provides a data migration method and system, where the method includes: when a sending terminal needs to transfer data to a receiving terminal, an intelligent data transfer function of the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection; after the sending terminal receives an operation instruction of user click data migration, a suspension ball for collecting migration data is displayed in a suspension mode on a display interface of the sending terminal; the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, the sending terminal enters a corresponding functional module according to the selected data, and the data to be migrated to the receiving terminal are dragged to the floating ball; the sending terminal packs all data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode; and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into a corresponding functional module. The invention can select the data needing to be backed up in the sending terminal to be migrated and sent to the receiving terminal according to the user requirement, thereby improving the data migration efficiency.

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

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the embodiments described above can be implemented by instructing relevant hardware (such as a processor, a controller, etc.) through a computer program, and the program can be stored in a computer readable storage medium, and when executed, the program can include the processes of the embodiments of the methods described above. The computer readable storage medium may be a memory, a magnetic disk, an optical disk, etc.

It is to be understood that the invention is not limited to the examples described above, but that modifications and variations may be effected thereto by those of ordinary skill in the art in light of the foregoing description, and that all such modifications and variations are intended to be within the scope of the invention as defined by the appended claims.

Claims (10)

1. A data migration method, characterized in that the data migration method comprises:

when a sending terminal needs to transfer data to a receiving terminal, an intelligent data transfer function of the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection;

after the sending terminal receives an operation instruction of user click data migration, a suspension ball for collecting migration data is displayed in a suspension mode on a display interface of the sending terminal;

the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, the sending terminal enters a corresponding functional module according to the selected data, and the data to be migrated to the receiving terminal are dragged to the floating ball;

the sending terminal packs all data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode;

and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into a corresponding functional module.

2. The data migration method according to claim 1, wherein when a sending terminal needs to migrate data to a receiving terminal, an intelligent data migration function between the sending terminal and the receiving terminal is turned on, and the sending terminal and the receiving terminal establish a wireless connection, before further comprising:

and adding an intelligent data migration function in a system of the sending terminal and the receiving terminal in advance, and setting a virtual switch for selecting to be turned on or turned off for the data migration function.

3. The data migration method according to claim 2, wherein the adding of the intelligent data migration function in the system of the sending terminal and the receiving terminal in advance and setting of a virtual switch for selecting on or off to the data migration function further comprise:

when the sending terminal or the receiving terminal receives that the user starts the data migration function through the virtual switch, the sending terminal or the receiving terminal starts the intelligent data migration function;

when the sending terminal or the receiving terminal receives that the data migration function is closed by a user through the virtual switch, the sending terminal or the receiving terminal closes the intelligent data migration function;

and when the sending terminal and the receiving terminal do not perform data migration operation, the intelligent data migration functions of the sending terminal and the receiving terminal are in a closed state.

4. The data migration method according to claim 2, wherein when a sending terminal needs to migrate data to a receiving terminal, an intelligent data migration function between the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish a wireless connection, specifically comprising:

when the sending terminal needs to migrate data to the receiving terminal for backup, after receiving an operation instruction of clicking the virtual switch by a user, starting an intelligent data migration function of the sending terminal and the receiving terminal;

the sending terminal opens a WIFI function, receives an operation instruction for migrating data clicked by a user, and finds the receiving terminal through searching;

and after the receiving terminal receives the request of the sending terminal for sending data, the receiving terminal establishes WIFI connection with the sending terminal.

5. The data migration method according to claim 4, wherein after the sending terminal receives an operation instruction for a user to click data migration, a floating ball for collecting migration data is displayed in a floating manner on a display interface of the sending terminal, and specifically includes:

setting a floating ball for collecting migration data at the sending terminal in advance, wherein the floating ball is used for temporarily storing the migration data to be sent to the receiving terminal;

and after the sending terminal receives an operation instruction of migrating the data clicked by the user, calling the floating ball, and displaying the collected migration data on a display interface of the sending terminal through the floating ball in a floating manner.

6. The data migration method according to claim 5, wherein the sending terminal receives an operation instruction that a user selects data that needs to be sent to the receiving terminal, and the sending terminal enters the corresponding functional module according to the selected data and drags the data to be migrated to the receiving terminal to the hover ball, specifically comprising:

the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, and enters a functional module corresponding to the selected data;

and the sending terminal calls a functional module corresponding to the selected data to select the data to be transferred to the receiving terminal, and drags the data to the floating ball for temporary storage.

7. The data migration method according to claim 6, wherein the sending terminal packs all data in the hover ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission manner, and specifically comprises:

after the transmitting terminal acquires all migration data to be transmitted to the receiving terminal for backup through the floating ball, packaging all data in the floating ball and compressing the data into a data packet;

and the transmitting terminal transmits the data packet to the receiving terminal through a WIFI function.

8. The data migration method according to claim 7, wherein the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet, and then imports the data packet into a corresponding functional module, and specifically includes:

the receiving terminal receives the data packet sent by the sending terminal through a WIFI function;

and the receiving terminal analyzes the data packet and guides the analyzed data into a corresponding functional module to complete the backup of the migration data in the receiving terminal.

9. The data migration method according to claim 2, wherein the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet, and then imports the data packet into a corresponding functional module, and then further comprising:

and after the sending terminal receives an operation instruction of pressing the floating ball by the user, the sending terminal closes the intelligent data migration function and is disconnected with the receiving terminal in a wireless mode.

10. A data migration system, characterized in that the data migration system comprises: a transmitting terminal and a receiving terminal;

when the sending terminal needs to transfer data to the receiving terminal, an intelligent data transfer function between the sending terminal and the receiving terminal is started, and the sending terminal and the receiving terminal establish wireless connection;

after the sending terminal receives an operation instruction of user click data migration, a suspension ball for collecting migration data is displayed in a suspension mode on a display interface of the sending terminal;

the sending terminal receives an operation instruction which is selected by a user and needs to be sent to the receiving terminal data, the sending terminal enters a corresponding functional module according to the selected data, and the data to be migrated to the receiving terminal are dragged to the floating ball;

the sending terminal packs all data in the floating ball into a data packet and transmits the data packet to the receiving terminal in a wireless transmission mode;

and the receiving terminal receives the data packet sent by the sending terminal, analyzes the data packet and then guides the data packet into a corresponding functional module.

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