CN116701064B

CN116701064B - Mobile equipment lost data processing method and system

Info

Publication number: CN116701064B
Application number: CN202310991299.0A
Authority: CN
Inventors: 林钦松
Original assignee: Xinzhi Technology Jiangsu Co ltd
Current assignee: Xinzhi Technology Jiangsu Co ltd
Priority date: 2023-08-08
Filing date: 2023-08-08
Publication date: 2023-10-10
Anticipated expiration: 2043-08-08
Also published as: CN116701064A

Abstract

The invention provides a lost data processing method and a lost data processing system for mobile equipment, wherein a transmission request is responded to traverse an initial software node in lost equipment to generate a first software list; sequencing the first software list according to a software sequencing strategy to obtain a second software list, obtaining preset type nodes corresponding to all initial software nodes in the second software list to obtain a first transmission list, transmitting data in lost equipment to associated equipment according to the first transmission list, and acquiring the transmitted first software nodes, first type nodes and first data nodes in real time to obtain a first real-time transmission list; based on the scanning completion information of the lost equipment, a detailed list is obtained, and a first customized transmission list is generated according to the selected information of the lost user on the detailed list; updating the first customized transmission list based on the node comparison strategy and the first real-time transmission list to obtain a second customized transmission list, and transmitting the data in the lost equipment to the associated equipment according to the second customized transmission list.

Description

Mobile equipment lost data processing method and system

Technical Field

The present invention relates to data processing technologies, and in particular, to a method and system for processing lost data of a mobile device.

Background

Mobile devices typically contain some important data including contact lists, financial records, location information, photographs, video recordings, and the like. If a mobile device such as a smart phone or tablet is lost, important data in the device may also be lost, resulting in loss.

Statistics of police show that the probability of retrieving the mobile device after losing is less than 5%, so that most people can hardly retrieve the mobile device after losing, and data in the mobile device can be lost. In the prior art, in order to prevent the loss of important data, people often back up the data in the mobile device to a personal computer or a cloud disk, but in this way, some important data users may not have access to back up the data when the mobile device is lost, so that the important data in the mobile device is lost or leaked.

Therefore, how to remotely transmit and back up the data in the mobile device according to the user requirement when the mobile device is lost, so as to reduce the loss caused by the data loss, and the problem to be solved is urgent nowadays.

Disclosure of Invention

The embodiment of the invention provides a method and a system for processing lost data of mobile equipment, which are used for carrying out remote transmission backup on data in the mobile equipment according to user requirements when the mobile equipment is lost, so that the loss caused by the loss of the data is reduced.

In a first aspect of an embodiment of the present invention, a method for processing lost data of a mobile device is provided, including:

receiving a backup request input by a lost user based on associated equipment, calling a screen locking interface corresponding to the lost equipment based on the backup request, receiving unlocking information input by the lost user based on the screen locking interface, generating a transmission request according to the unlocking information and verification information, acquiring the equipment state of the lost equipment, and traversing an initial software node in the lost equipment to generate a first software list in response to the transmission request when the equipment state meets preset transmission conditions;

sequencing the first software list according to a software sequencing strategy to obtain a second software list, obtaining a first transmission list from a preset type node corresponding to each initial software node in the second software list, transmitting data in the lost equipment to associated equipment according to the first transmission list, and acquiring the transmitted first software node, first type node and first data node in real time to obtain a first real-time transmission list;

based on the scanning completion information of the lost equipment, a detailed list of the lost equipment is obtained, wherein the detailed list comprises a second software node, a second type node and a second data node, and a first customized transmission list is generated according to the selected information of a lost user on the detailed list and comprises a customized software node, a customized type node and a customized data node;

Updating the first customized transmission list based on the node comparison strategy and the first real-time transmission list to obtain a second customized transmission list, and transmitting the data in the lost device to the associated device according to the second customized transmission list.

Optionally, in one possible implementation manner of the first aspect, the sorting the first software list according to a software sorting policy to obtain a second software list, obtaining a preset type node corresponding to each initial software node in the second software list to obtain a first transmission list, transmitting data in the lost device to an associated device according to the first transmission list, and collecting the transmitted first software node, first type node and first data node in real time to obtain a first real-time transmission list, including:

acquiring an arrangement weight value corresponding to each initial software node in the first software list, and arranging the initial software nodes in sequence from big to small according to the arrangement weight value to obtain a second software list;

invoking a plurality of preset type nodes corresponding to the initial software nodes in the second software list, generating a sub-transmission list corresponding to the initial software nodes according to the preset type nodes, and sequencing the sub-transmission list according to the sequence of the second software list to obtain a first transmission list;

According to the sequence of the first transmission list, sequentially acquiring data nodes in preset type nodes corresponding to all initial software nodes in the lost equipment, and transmitting the corresponding data nodes to the associated equipment;

the method comprises the steps of collecting a transmitted initial software node in real time as a first software node, taking a transmitted preset type node as a first data node, taking the transmitted data node as the first data node, and obtaining a first real-time transmission list according to the first software node, the first type node and the first data node.

Optionally, in one possible implementation manner of the first aspect, obtaining an arrangement weight value corresponding to each initial software node in the first software list, and arranging each initial software node in sequence from large to small according to the arrangement weight value to obtain a second software list, where the method includes:

invoking a sample set corresponding to a plurality of preset age groups, wherein the sample set comprises data transmission information corresponding to a plurality of sample users in each preset age group, and generating a software weight value set corresponding to each preset age group based on the data transmission information, and the software weight value set comprises a plurality of historical software nodes and historical weight values corresponding to each historical software node;

Receiving the age of a lost user input based on the associated equipment, and acquiring a corresponding preset age bracket as a target age bracket based on the age of the user;

comparing each initial software node with the historical software nodes in the software weight value set corresponding to the target age group, and if the historical software nodes corresponding to the initial software nodes exist in the software weight value set, acquiring the historical weight values corresponding to the corresponding historical software nodes as the sorting weight values of the corresponding initial software nodes;

if the historical software nodes corresponding to the initial software nodes do not exist in the software weight value set, the corresponding initial software nodes are used as analogized software nodes, the historical software nodes with the same type as the analogized software nodes in the software weight value set are used as similar software nodes, the sorting weight values corresponding to the similar software nodes are counted to obtain a total sorting weight value, and the sorting weight values corresponding to the analogized software nodes are obtained according to the average value of the total sorting weight values.

Optionally, in one possible implementation manner of the first aspect, the retrieving a sample set corresponding to a plurality of preset age groups, where the sample set includes data transmission information corresponding to a plurality of sample users in each of the preset age groups, and generating, based on the data transmission information, a set of software weight values corresponding to each of the preset age groups includes:

Analyzing the data transmission information to obtain a history transmission list corresponding to each sample user in each preset age group;

acquiring independent weight values of each historical software node in each historical transmission list, counting independent weight values corresponding to the same historical software node in all the historical transmission lists in each preset age group, obtaining comprehensive weight values corresponding to each historical software node, and obtaining the historical weight values corresponding to the corresponding historical software nodes according to the average value of the comprehensive weight values;

and generating a software weight value set corresponding to each preset age group according to the historical software nodes and the historical weight values.

Optionally, in one possible implementation manner of the first aspect, based on scanning completion information of the lost device, a detailed list of the lost device is obtained, and the generating a first customized transmission list according to selection information of a lost user on the detailed list includes:

obtaining the residual capacity and the network speed corresponding to the lost equipment according to the equipment state of the lost equipment, and obtaining the estimated data transmission quantity based on the residual capacity and the network speed;

generating a first customized transmission list according to the selected information of the lost user on the detailed list, and counting the total data transmission quantity of all first customized data nodes in the first customized transmission list;

When the total data transmission amount is larger than or equal to the estimated data transmission amount, generating transmission reminding information and sending the transmission reminding information to the associated equipment, obtaining an estimated data transmission list according to the estimated data transmission amount and the sub data transmission amount corresponding to each first customized data node in the first customized transmission list, and displaying the estimated transmission list to the associated equipment;

and receiving updating selected information input by the lost user based on the associated equipment, and updating the first customized transmission list according to the updating selected information to obtain an updated first customized transmission list.

Optionally, in one possible implementation manner of the first aspect, obtaining a remaining power and a network speed corresponding to the lost device according to a device state of the lost device, and obtaining the estimated data transmission amount based on the remaining power and the network speed includes:

obtaining a first estimated coefficient based on the ratio of the residual electric quantity to the preset residual electric quantity, and obtaining a second estimated coefficient based on the ratio of the network speed to the preset network speed;

and obtaining the estimated data transmission quantity according to the product of the reference transmission quantity, the first estimated coefficient and the second estimated coefficient.

Optionally, in one possible implementation manner of the first aspect, when the total data transmission amount is greater than or equal to the estimated data transmission amount, generating transmission reminding information and sending the transmission reminding information to the association device, obtaining an estimated data transmission list according to the estimated data transmission amount and sub data transmission amounts corresponding to each first customized data node in the first customized transmission list, and displaying the estimated transmission list to the association device, where the method includes:

sequentially acquiring the sub-data transmission amounts corresponding to all the first customized data nodes according to the first customized transmission list, and counting the acquired sub-data transmission amounts corresponding to all the first customized data nodes in real time to acquire real-time data transmission amounts;

and stopping obtaining when the real-time data transmission amount is greater than or equal to the estimated data transmission amount, taking the obtained first customized data node as an estimated customized data node, generating an estimated data transmission list according to the estimated customized data node, and displaying the estimated transmission list to the associated equipment.

Optionally, in one possible implementation manner of the first aspect, updating the first customized transmission list based on a node ratio policy and the first real-time transmission list to obtain a second customized transmission list, and transmitting data in the lost device to an associated device according to the second customized transmission list, including:

Acquiring a first data node which completes data transmission in the first real-time transmission list as a completion transmission node, and acquiring a first data node which is currently transmitting data in the first real-time transmission list as a current transmission node;

comparing the finished transmission node with the custom data nodes in the first custom transmission list, and if the custom data nodes corresponding to the finished transmission node exist in the first custom transmission list, acquiring the corresponding custom data nodes to delete and update to obtain a second custom transmission list;

comparing the current transmission node with the custom data nodes in the second custom transmission list, and if custom data nodes corresponding to the current transmission node exist in the second custom transmission list, transmitting the data in the lost equipment to the associated equipment according to the second custom transmission list after the data of the corresponding custom data nodes are completely transmitted to the associated equipment;

if the second customized transmission list does not contain the customized data node corresponding to the current transmission node, stopping the data transmission of the current transmission node, and directly transmitting the data in the lost device to the associated device according to the second customized transmission list.

Optionally, in one possible implementation manner of the first aspect, the method further includes:

receiving locking information input by the associated equipment, and calling a transparent graph layer to be overlapped above a software interface corresponding to the lost equipment in response to the locking information;

receiving a trigger trace input by a lost user based on the transparent layer, generating a first shielding interface comprising a first shielding area according to the trigger trace, and updating the pixel value of the first shielding area based on a preset pixel value to obtain a second shielding interface comprising a second shielding area;

and transmitting the second shielding interface to the lost equipment, displaying the second shielding interface above the corresponding software interface in a superposition manner, and shielding and locking the corresponding area of the software interface.

In a second aspect of an embodiment of the present invention, there is provided a mobile device lost data processing system, including:

the backup module is used for receiving a backup request input by a lost user based on associated equipment, calling a screen locking interface corresponding to the lost equipment based on the backup request, receiving unlocking information input by the lost user based on the screen locking interface, generating a transmission request according to the unlocking information and the verification information, acquiring the equipment state of the lost equipment, and traversing an initial software node in the lost equipment to generate a first software list in response to the transmission request when the equipment state meets preset transmission conditions;

The transmission module is used for sequencing the first software list according to a software sequencing strategy to obtain a second software list, obtaining a first transmission list from preset type nodes corresponding to all initial software nodes in the second software list, transmitting data in the lost equipment to associated equipment according to the first transmission list, and acquiring the transmitted first software nodes, first type nodes and first data nodes in real time to obtain a first real-time transmission list;

the customization module is used for obtaining a detailed list of the lost equipment based on the scanning completion information of the lost equipment, wherein the detailed list comprises a second software node, a second type node and a second data node, and a first customization transmission list is generated according to the selected information of the lost user on the detailed list and comprises a customization software node, a customization type node and a customization data node;

and the comparison module is used for updating the first customized transmission list based on the node comparison strategy and the first real-time transmission list to obtain a second customized transmission list, and transmitting the data in the lost equipment to the associated equipment according to the second customized transmission list.

The beneficial effects of the invention are as follows:

1. the invention can carry out remote transmission backup on the data in the mobile equipment when the mobile equipment is lost, reduces the loss caused by the data loss, and can sequentially transmit the software data in the mobile equipment while scanning the detailed data in the mobile equipment when carrying out remote backup on the data in the mobile equipment, thereby saving the time during data transmission and improving the efficiency of data transmission. When the software data in the mobile device are sequentially transmitted, the initial software nodes in the lost device are firstly sequenced to obtain the software list, then a first transmission list is generated according to the preset type node corresponding to each initial software node in the software list, the data of the data nodes in the preset type node under each initial software node are sequentially transmitted through the first transmission list, the detailed data in the lost device are scanned while the data of the initial software nodes in the first transmission list are transmitted, and the scanned detailed data are sent to a user for selecting customized data, so that the scanning time during data transmission can be reduced, and the efficiency during data transmission can be improved. After a custom transmission list is generated according to the selected information of a user, the invention compares the finished transmission node in the real-time transmission list with the current transmission node with the custom data node in the custom transmission list, and deletes and updates the custom data node corresponding to the finished transmission node in the custom transmission list, so that repeated transmission of data can be reduced, the efficiency of data transmission is improved, when the custom data node corresponding to the current transmission node exists in the updated custom transmission list, the invention firstly completes transmission of the corresponding timing data node, and then transmits the data in the lost equipment to the associated equipment according to the updated custom transmission list, when the custom data node corresponding to the current transmission node does not exist in the updated custom transmission list, the invention stops data transmission of the real-time transmission list, and directly transmits the data according to the updated custom transmission list, so that the data in the lost equipment can be transmitted according to the requirement of the user.

2. When the initial software nodes in the lost equipment are ordered, the ordering weight value corresponding to each initial software node is obtained through the historical sample data, so that the initial software nodes with higher backup heat can be arranged in front through the ordering weight value preferentially, and the data with higher backup heat can be transmitted preferentially when the data corresponding to each initial software node is transmitted according to the first transmission list. After the software list generated by the ordered initial software nodes is obtained, the invention also obtains a plurality of preset type nodes corresponding to each initial software node to generate a sub-transmission list corresponding to each initial software node, then arranges each sub-transmission list according to the software list to obtain a first transmission list, and when data transmission is carried out according to the first transmission list, the invention does not scan specific data in each preset type node in advance and then carries out transmission, but carries out side scanning and side transmission according to the first transmission list, thus saving the time during transmission and improving the efficiency during transmission.

3. When the scanned detailed data is sent to a user to select customized data, the data transmission amount is estimated according to the residual capacity of the lost equipment and the network data, the estimated data transmission amount is obtained, customized data in a first customized transmission list selected by the user is estimated according to the estimated data transmission amount, when the total data transmission amount of the customized data in the first customized transmission list is larger than the estimated data transmission amount, reminding information is generated to remind the user, and the estimated data transmission list is also generated to be sent to the user for reference when the user reselects, so that the data transmission amount in the first customized transmission list selected by the user is estimated according to the equipment state of the lost equipment, and when the data transmission amount in the first customized transmission list exceeds the estimated data transmission amount, the corresponding estimated data transmission list is generated to be displayed for the lost user for reference, and the lost user can select the first customized data node again according to the estimated data transmission list.

Drawings

Fig. 1 is a flow chart of a method for processing lost data of a mobile device according to an embodiment of the present application;

FIG. 2 is a schematic diagram of a lost data processing system of a mobile device according to an embodiment of the present application;

fig. 3 is a schematic hardware structure of an electronic device according to an embodiment of the present application.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more apparent, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

Referring to fig. 1, a flow chart of a method for processing lost data of a mobile device according to an embodiment of the present application is shown, where an execution body of the method shown in fig. 1 may be a software and/or hardware device. The execution body of the present application may include, but is not limited to, at least one of: user equipment, network equipment, etc. The user equipment may include, but is not limited to, computers, smart phones, personal digital assistants (Personal Digital Assistant, abbreviated as PDA), and the above-mentioned electronic devices. The network device may include, but is not limited to, a single network server, a server group of multiple network servers, or a cloud of a large number of computers or network servers based on cloud computing, where cloud computing is one of distributed computing, and a super virtual computer consisting of a group of loosely coupled computers. This embodiment is not limited thereto. The method comprises the steps S1 to S4, and specifically comprises the following steps:

S1, receiving a backup request input by a lost user based on associated equipment, calling a screen locking interface corresponding to the lost equipment based on the backup request, receiving unlocking information input by the lost user based on the screen locking interface, generating a transmission request according to the unlocking information and verification information, acquiring the equipment state of the lost equipment, and traversing an initial software node in the lost equipment to generate a first software list in response to the transmission request when the equipment state meets preset transmission conditions.

In practical applications, an association may be established for a plurality of mobile devices, and when one of the mobile devices is lost, the data in the lost mobile device may be backed up by the mobile device associated with the mobile device. For example, if the user has two mobile devices, an association may be established between the two mobile devices, or the user may establish an association between the user's mobile device and the user's home's mobile device.

When the mobile equipment of the user is lost, a backup request for the lost equipment can be input through the associated equipment, in practical application, when the user inputs the backup request, the user can be authenticated, and after the authentication information passes, a series of later operations are performed to backup the data in the lost equipment.

The above device state may be network data and electric quantity data of the lost device, and the preset transmission condition may be an electric quantity condition and a network condition required for data transmission set in advance, and it may be understood that if the device state does not meet the preset transmission condition, the data in the lost device may not be transmitted to the associated device, so that the data in the lost device may be backed up to the associated device, for example, the lost device may not be capable of performing transmission backup when the lost device is powered off or has no network, and therefore, when the device state meets the preset transmission condition, the transmission backup may be performed on the data in the lost device in response to the transmission request.

Specifically, after responding to a transmission request, the scheme traverses an initial software node in the lost device to generate a first software list, wherein the initial software node refers to software existing in the lost device.

S2, sorting the first software list according to a software sorting strategy to obtain a second software list, obtaining a first transmission list from a preset type node corresponding to each initial software node in the second software list, transmitting data in the lost equipment to associated equipment according to the first transmission list, and acquiring the transmitted first software node, first type node and first data node in real time to obtain a first real-time transmission list.

It can be understood that, since the data in the lost device may be too much, the time spent on scanning the detailed data in the lost device may also be too much, if the detailed data in the lost device is scanned and then sent to the user for selection, and then the data is transmitted according to the selection of the user, much time may be wasted, so in order to save the time in backup, the efficiency in data backup is improved, the data in the lost device may be transmitted while the detailed data in the lost device is scanned, and thus the custom data in the custom transmission list selected by the user can be updated according to the transmitted data later, the time in custom data transmission is reduced, and the transmission efficiency is improved.

Specifically, when transmitting data in the lost device, the scheme firstly sorts the initial software nodes in the first software list according to the software sorting strategy to obtain the second software list, so that data corresponding to important initial software nodes can be transmitted preferentially, after the second software list is obtained, the scheme can obtain preset type nodes corresponding to each initial software node to obtain a first transmission list, and the data in the lost device is transmitted to the associated device through the first transmission list.

For example, when the initial software node is an album, its corresponding preset type node may be a photo and a video.

It can be understood that, since there may be many initial software nodes in the missing device, when transmitting, data in the initial software node with larger backup heat may be preferentially transmitted, and when transmitting, each initial software node may correspond to a plurality of different preset type nodes, so that a first transmission list may be generated according to the plurality of different preset type nodes corresponding to each initial software node, and data in the plurality of preset type nodes corresponding to the important initial software node may be preferentially transmitted through the first transmission list.

The specific implementation manner of step S2 based on the above embodiment may be:

s21, obtaining arrangement weight values corresponding to the initial software nodes in the first software list, and arranging the initial software nodes in sequence from large to small according to the arrangement weight values to obtain a second software list.

The arrangement weight value can correspond to the backup heat value of each initial software node, and the larger the arrangement weight value is, the larger the backup heat of the corresponding initial software node is possibly, so that the corresponding initial software node can be arranged more forward during arrangement, and data corresponding to the corresponding initial software node can be transmitted preferentially subsequently.

In some embodiments, the arrangement weight value of each initial software node may be obtained by the following steps, and the initial software nodes are ordered by the arrangement weight value to obtain the second software list:

s211, a sample set corresponding to a plurality of preset age groups is called, the sample set comprises data transmission information corresponding to a plurality of sample users in each preset age group, and a software weight value set corresponding to each preset age group is generated based on the data transmission information, wherein the software weight value set comprises a plurality of historical software nodes and historical weight values corresponding to each historical software node.

It will be appreciated that the emphasis on software backup hotness may also be different for users of different ages, for example, users of older ages may use address books more often to communicate with others, data in address books may backup hotness more for such users than data in chat software such as WeChat, and users of younger ages may use chat software such as WeChat more often to communicate with others, data in chat software such as WeChat may backup hotness more for such users than data in address books.

Therefore, when obtaining the arrangement weight value corresponding to each initial software node in the lost device, the scheme can call sample sets corresponding to a plurality of age groups, generate a software weight value set corresponding to each age group according to the sample sets, then find the software weight value set of the age group corresponding to the user according to the age of the user, and obtain the arrangement weight value corresponding to each initial software node in the lost device through the historical weight values corresponding to a plurality of historical software nodes in the software weight value set.

Specifically, step S211 includes steps S2111 to S2113:

s2111, analyzing the data transmission information to obtain a history transmission list corresponding to each sample user in each preset age group.

The history transfer list may include history data of the corresponding sample user when transferred, for example, may include a history software node of the corresponding sample user when transferred.

S2112, obtaining independent weight values of all the historical software nodes in each historical transmission list, counting independent weight values corresponding to the same historical software nodes in all the historical transmission lists in each preset age group, obtaining comprehensive weight values corresponding to all the historical software nodes, and obtaining the historical weight values corresponding to the corresponding historical software nodes according to the average value of the comprehensive weight values.

In practical application, the individual weight value of each historical software node in the historical transmission list can be obtained by adding by a sample user, or can be obtained by automatically calculating by a system.

It can be understood that, because the requirements of each sample user in the preset age groups may be different, the individual weight values of the same historical software node in the historical transmission lists corresponding to different sample users may also be different, so when the historical weight values of the plurality of historical software nodes corresponding to each preset age group are calculated, the individual weight values corresponding to the same historical software node in all the historical transmission lists corresponding to the corresponding preset age groups may be summed first to obtain a comprehensive weight value corresponding to the corresponding historical software node, and then the historical weight value corresponding to the corresponding historical software node is obtained according to the average value of the comprehensive weight values.

S2113, generating a software weight value set corresponding to each preset age group according to the historical software nodes and the historical weight values.

After the historical weight value corresponding to each historical software node is obtained, a software weight value set corresponding to the corresponding preset age group can be generated.

S212, receiving the age of the lost user input based on the associated equipment, and acquiring a corresponding preset age bracket based on the age of the user as a target age bracket.

In order to obtain the age bracket corresponding to the lost user, the lost user can input the user age through the association device, and then find the target age bracket corresponding to the lost user age through the user age.

S213, comparing each initial software node with the historical software nodes in the software weight value set corresponding to the target age group, and if the historical software nodes corresponding to the initial software nodes exist in the software weight value set, acquiring the historical weight values corresponding to the corresponding historical software nodes as the sorting weight values of the corresponding initial software nodes.

After the target age group corresponding to the lost user is obtained, the initial software nodes in the lost software and the historical software nodes in the software weight value set corresponding to the target age group can be compared, and when the historical software nodes corresponding to the initial software nodes exist in the software weight value set, the historical weight values corresponding to the corresponding historical software nodes can be directly used as the sorting weight values of the corresponding initial software nodes.

And S214, if the historical software nodes corresponding to the initial software nodes do not exist in the software weight value set, taking the corresponding initial software nodes as analogized software nodes, acquiring the historical software nodes with the same type as the analogized software nodes in the software weight value set as similar software nodes, counting the sorting weight values corresponding to the similar software nodes to obtain a total sorting weight value, and obtaining the sorting weight value corresponding to the analogized software nodes according to the average value of the total sorting weight values.

It will be appreciated that, since historical sample data is used in generating the software weight value set corresponding to each preset age group, the historical software nodes in the software weight value set may not include all software due to limited sample data, which may result in that some initial software nodes in the lost device may not have corresponding historical software nodes in the software weight value set.

Therefore, when the historical software node corresponding to the initial software node does not exist in the software weight value set, the scheme can acquire similar software nodes with the same type as the initial software node in the software weight value set, and the sorting weight value of the initial software node is obtained through the sorting weight value of the similar software nodes.

Specifically, the scheme counts the sorting weight values of all similar software nodes to obtain a total sorting weight value, and then obtains the sorting weight value of the initial software node through the average value of the total sorting weight values.

By the method, the arrangement weight value corresponding to each initial software node can be obtained through the historical sample data, so that the initial software nodes with higher backup heat can be arranged in front through the arrangement weight values, and data of the initial software nodes with higher backup heat can be transmitted and backed up in a priority mode later.

S22, a plurality of preset type nodes corresponding to the initial software nodes in the second software list are called, a sub-transmission list corresponding to the initial software nodes is generated according to the preset type nodes, and the sub-transmission lists are ordered according to the sequence of the second software list, so that a first transmission list is obtained.

When generating the sub-transmission list corresponding to the corresponding initial software node according to the plurality of preset type nodes, the plurality of preset type nodes can be arranged randomly, for example, 5 preset type nodes possibly corresponding to one initial software node can be arranged randomly, when arranging the 5 preset type nodes, for example, the sub-transmission list corresponding to the corresponding initial software node can be arranged sequentially according to the initial letter of each preset type node.

After the sub-transmission list corresponding to each initial software node is obtained, each sub-transmission list can be ordered according to the arrangement sequence of each initial software node in the second software list, and a first transmission list is obtained.

S23, sequentially acquiring data nodes in preset type nodes corresponding to the initial software nodes in the lost equipment according to the sequence of the first transmission list, and transmitting the corresponding data nodes to the associated equipment.

When transmitting according to the first transmission list, in order to save the time during transmission, the data nodes in the preset type nodes under each initial software node can be acquired in sequence to transmit the data nodes.

For example, if the album is arranged at the first node corresponding to two preset types of photos and videos, when the photo data is arranged in front of the video data, the photo data in the album can be sequentially acquired for transmission when the data in the album is transmitted, and then the video data in the album can be sequentially acquired for transmission.

S24, acquiring the transmitted initial software node in real time as a first software node, the transmitted preset type node as a first data node, and the transmitted data node as a first data node, and obtaining a first real-time transmission list according to the first software node, the first type node and the first data node.

It can be understood that when transmitting the data in the first transmission list, the scheme does not scan the specific data in each preset type node in advance and then transmit the specific data, but scans the specific data according to the first transmission list while transmitting the specific data, so that in order to obtain the transmitted data, the transmitted initial software node can be collected in real time as the first software node, the transmitted preset type node is used as the first data node, the transmitted data node is used as the first data node, then a first real-time transmission list is generated according to the first data node, and the data in the real-time transmission process is obtained through the first real-time transmission list.

By the method, the time for scanning the whole data can be reduced when the data in the first transmission list is transmitted, and therefore efficiency in transmission can be improved.

S3, based on the scanning completion information of the lost equipment, a detailed list of the lost equipment is obtained, the detailed list comprises a second software node, a second type node and a second data node, a first customized transmission list is generated according to the selected information of the lost user on the detailed list, and the customized transmission list comprises customized software nodes, customized type nodes and customized data nodes.

In practical application, after the detailed data in the lost device is scanned, a detailed list can be generated according to the scanned detailed data, and then the detailed list is sent to the lost user to select transmission data, so that a first customized transmission list can be generated according to the selection of the user, and the specific data which the user wants to backup is transmitted through the first customized transmission list.

The specific implementation manner of step S3 based on the above embodiment may be:

and S31, obtaining the residual capacity and the network speed corresponding to the lost equipment according to the equipment state of the lost equipment, and obtaining the estimated data transmission quantity based on the residual capacity and the network speed.

It can be understood that when data is transmitted, the residual capacity and the network speed of the lost device may affect the transmission amount of the data, and when the custom data amount selected by the user is too large, the transmission of all custom data may not be completed, so in order to determine whether all custom data selected by the user can be transmitted and backed up, the scheme can also obtain the estimated data transmission amount according to the residual capacity and the network speed of the lost device, and the custom data amount selected by the user is estimated through the estimated data transmission amount.

Specifically, in some embodiments, the estimated data transmission amount may be obtained by:

s311, obtaining a first estimated coefficient based on the ratio of the residual electric quantity to the preset residual electric quantity, and obtaining a second estimated coefficient based on the ratio of the network speed to the preset network speed.

S312, obtaining the estimated data transmission quantity according to the product of the reference transmission quantity, the first estimated coefficient and the second estimated coefficient.

It can be understood that the more the remaining power, the more the time that the lost device can perform data transmission may be correspondingly indicated, so that the larger the corresponding estimated data transmission amount may be, the larger the network speed is, the faster the lost device may perform data transmission, the larger the transmitted data amount may be, so that the more the corresponding estimated data transmission amount may be, so that the estimated data transmission amount may be obtained by adjusting the reference transmission amount according to the first estimated coefficient obtained according to the remaining power and the second estimated coefficient obtained according to the network speed.

S32, generating a first customized transmission list according to the selected information of the lost user on the detailed list, and counting the total data transmission quantity of all the first customized data nodes in the first customized transmission list.

After the user selects the data in the detailed list, in order to judge whether the transmission of the data selected by the user can be completed, the scheme can count the data amount of all the first customized data nodes selected by the user to obtain the total data transmission amount, then compare the total data transmission amount with the estimated data transmission amount, and judge whether the transmission of the data selected by the user can be completed according to the comparison result.

And S33, when the total data transmission amount is greater than or equal to the estimated data transmission amount, generating transmission reminding information and sending the transmission reminding information to the associated equipment, obtaining an estimated data transmission list according to the estimated data transmission amount and the sub data transmission amount corresponding to each first customized data node in the first customized transmission list, and displaying the estimated transmission list to the associated equipment.

When the total data transmission amount is greater than or equal to the estimated data transmission amount, the fact that data transmission of all the first customized data nodes selected by the user can not be completed is indicated, and in this case, transmission reminding information can be generated and sent to the associated equipment, so that the user can be reminded.

When reminding the user, the scheme also predicts the first customized data node which can finish data transmission, generates a corresponding predicted data transmission list and sends the corresponding predicted data transmission list to the associated equipment for reference.

Specifically, step S33 includes steps S331 to S332:

s331, sequentially acquiring the sub-data transmission amounts corresponding to the first customized data nodes according to the first customized transmission list, and counting the acquired sub-data transmission amounts corresponding to all the first customized data nodes in real time to obtain the real-time data transmission amounts.

The real-time data transmission amount refers to the sum of all acquired sub-data transmission amounts corresponding to the first customized data nodes.

And S332, stopping obtaining when the real-time data transmission amount is greater than or equal to the estimated data transmission amount, taking the obtained first customized data node as an estimated customized data node, generating an estimated data transmission list according to the estimated customized data node, and displaying the estimated transmission list to the associated equipment.

When the real-time data transmission amount is greater than or equal to the estimated data transmission amount, it is indicated that the acquired data transmission amount of the first customized data node may have exceeded the data transmission amount capable of being transmitted, and in this case, the continuous acquisition of the first customized data node may be stopped, and an estimated data transmission list may be generated according to the acquired first customized data node and sent to the associated device for reference.

S34, receiving update selection information input by the lost user based on the associated equipment, and updating the first customized transmission list according to the update selection information to obtain an updated first customized transmission list.

In practical application, after receiving the transmission reminding information and the estimated transmission list, the lost user can reselect the first customized data node, so that the first customized transmission list can be updated according to the updated selected information of the lost user, and the updated first customized transmission list is obtained.

By the method, the data transmission amount in the first customized transmission list selected by the user can be estimated according to the equipment state of the lost equipment, so that when the data transmission amount in the first customized transmission list exceeds the estimated data transmission amount, a corresponding estimated data transmission list is generated and displayed for the lost user to refer to, and the lost user can select the first customized data node again according to the estimated data transmission list.

And S4, updating the first customized transmission list based on the node comparison strategy and the first real-time transmission list to obtain a second customized transmission list, and transmitting the data in the lost equipment to the associated equipment according to the second customized transmission list.

It can be understood that, because the scheme has already transmitted the data in the lost device according to the first transmission list before the first customized transmission list corresponding to the lost user is obtained, a situation may occur that some customized data in the first customized transmission list has completed transmission, and some customized data has not completed transmission, if some customized data in the first customized transmission list has completed transmission, the repeated transmission of the data may be caused, and the transmission efficiency of the data may be reduced, so that the scheme also updates the first customized transmission list according to the node comparison strategy and the first real-time transmission list to obtain the second customized transmission list, and then transmits the data in the lost device to the associated device according to the second customized transmission list.

The specific implementation manner of step S4 based on the above embodiment may be:

s41, acquiring a first data node which completes data transmission in the first real-time transmission list as a completing transmission node, and acquiring a first data node which is currently transmitting data in the first real-time transmission list as a current transmission node.

Specifically, when judging whether the custom data node in the first custom transmission list completes transmission, the custom data node in the first custom transmission list and the first data node in the first real-time transmission list may be compared, before the comparison, the completed transmission node and the current transmission node in the first real-time transmission list may be obtained first, and then the custom data node in the first custom transmission list may be compared through the completed transmission node and the current transmission node.

S42, comparing the finished transmission node with the custom data nodes in the first custom transmission list, and if the custom data nodes corresponding to the finished transmission node exist in the first custom transmission list, acquiring the corresponding custom data nodes for deletion and update to obtain a second custom transmission list.

When the custom data node in the first custom transmission list is compared with the finishing transmission node in the first real-time transmission list, if the custom data node corresponding to the finishing transmission node exists in the first custom transmission list, the fact that the corresponding custom data node finishes data transmission is indicated, and therefore the corresponding custom data node can be deleted and updated to obtain a second custom transmission list.

S43, comparing the current transmission node with the custom data nodes in the second custom transmission list, and if the custom data nodes corresponding to the current transmission node exist in the second custom transmission list, transmitting the data in the lost equipment to the associated equipment according to the second custom transmission list after the data of the corresponding custom data nodes are completely transmitted to the associated equipment.

When the current transmission node is compared with the custom data nodes in the second custom transmission list, if the custom data nodes corresponding to the current transmission node exist in the second custom transmission list, the custom data nodes are indicated to be in data transmission, and as the data of the custom data nodes are required to be transmitted and backed up by a user, the data corresponding to the rest custom data nodes can be sequentially transmitted to the associated equipment through the second custom transmission list after the corresponding custom data nodes are transmitted.

And S44, if the custom data node corresponding to the current transmission node does not exist in the second custom transmission list, stopping the data transmission of the current transmission node, and directly transmitting the data in the lost equipment to the associated equipment according to the second custom transmission list.

If the second customized transmission list does not have the customized data node corresponding to the current transmission node, the data of the customized data node is not required to be transmitted and backed up by the user, so that the data transmission of the current transmission node can be stopped, and then the data in the lost equipment is directly transmitted to the associated equipment through the second customized transmission list.

By the method, the custom node data in the first custom transmission list can be updated, the custom node data which is already transmitted is deleted, repeated transmission of the data is reduced, and efficiency in transmission is improved.

In addition, on the basis of the above embodiment, the present solution further includes the following embodiments:

a1, receiving locking information input by the associated equipment, and calling a transparent graph layer to be overlapped above a software interface corresponding to the lost equipment in response to the locking information.

In practical application, the situation that the lost equipment is picked up by others may occur, and in this case, information in the lost equipment is likely to be stolen by others, so the software interface is locked by the scheme.

Specifically, after receiving locking information input by a lost user based on the associated equipment, the scheme calls the transparent layer to be overlapped on a software interface of the lost equipment, and then locks software in the software interface based on the operation of the lost user on the transparent layer.

A2, receiving a trigger trace input by a lost user based on the transparent layer, generating a first shielding interface comprising a first shielding area according to the trigger trace, and updating the pixel value of the first shielding area based on a preset pixel value to obtain a second shielding interface comprising a second shielding area.

After the first shielding area is obtained based on the triggering trace of the lost user, the pixel value in the first shielding area can be replaced and updated by a preset pixel value, so that the obtained second shielding interface can shield the software data of the corresponding area in the software interface of the lost equipment. The size of the transparent layer may be consistent with the size of the software interface of the lost device.

A3, transmitting the second shielding interface to the lost equipment, displaying the second shielding interface above the corresponding software interface in a superposition mode, and shielding and locking corresponding areas of the software interface.

After the second shielding interface is obtained, the second shielding interface can be transmitted to the lost equipment to be overlapped on the software interface, and shielding locking is carried out on the corresponding area in the software interface.

By the mode, software in the corresponding area can be locked, software in the corresponding area can be shielded, the probability of data leakage in the software can be reduced, and the safety of software data is improved.

Referring to fig. 2, a schematic structural diagram of a mobile device lost data processing system according to an embodiment of the present invention includes:

The apparatus of the embodiment shown in fig. 2 may be correspondingly used to perform the steps in the embodiment of the method shown in fig. 1, and the implementation principle and technical effects are similar, and are not repeated here.

Referring to fig. 3, a schematic hardware structure of an electronic device according to an embodiment of the present invention is shown, where the electronic device 30 includes: a processor 31, a memory 32 and a computer program; wherein the method comprises the steps of

A memory 32 for storing said computer program, which memory may also be a flash memory (flash). Such as application programs, functional modules, etc. implementing the methods described above.

A processor 31 for executing the computer program stored in the memory to implement the steps executed by the apparatus in the above method. Reference may be made in particular to the description of the embodiments of the method described above.

Alternatively, the memory 32 may be separate or integrated with the processor 31.

When the memory 32 is a device separate from the processor 31, the apparatus may further include:

a bus 33 for connecting the memory 32 and the processor 31.

The present invention also provides a readable storage medium having stored therein a computer program for implementing the methods provided by the various embodiments described above when executed by a processor.

The readable storage medium may be a computer storage medium or a communication medium. Communication media includes any medium that facilitates transfer of a computer program from one place to another. Computer storage media can be any available media that can be accessed by a general purpose or special purpose computer. For example, a readable storage medium is coupled to the processor such that the processor can read information from, and write information to, the readable storage medium. In the alternative, the readable storage medium may be integral to the processor. The processor and the readable storage medium may reside in an application specific integrated circuit (Application Specific Integrated Circuits, ASIC for short). In addition, the ASIC may reside in a user device. The processor and the readable storage medium may reside as discrete components in a communication device. The readable storage medium may be read-only memory (ROM), random-access memory (RAM), CD-ROMs, magnetic tape, floppy disk, optical data storage device, etc.

The present invention also provides a program product comprising execution instructions stored in a readable storage medium. The at least one processor of the device may read the execution instructions from the readable storage medium, the execution instructions being executed by the at least one processor to cause the device to implement the methods provided by the various embodiments described above.

In the above embodiment of the apparatus, it should be understood that the processor may be a central processing unit (english: central Processing Unit, abbreviated as CPU), or may be other general purpose processors, digital signal processors (english: digital Signal Processor, abbreviated as DSP), application specific integrated circuits (english: application Specific Integrated Circuit, abbreviated as ASIC), or the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like. The steps of a method disclosed in connection with the present invention may be embodied directly in a hardware processor for execution, or in a combination of hardware and software modules in a processor for execution.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and not for limiting the same; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims

1. A method for handling lost data of a mobile device, comprising:

Updating the first customized transmission list based on node comparison strategy and the first real-time transmission list to obtain a second customized transmission list, and transmitting data in the lost equipment to associated equipment according to the second customized transmission list;

updating the first customized transmission list based on node comparison strategy and the first real-time transmission list to obtain a second customized transmission list, and transmitting the data in the lost device to the associated device according to the second customized transmission list, wherein the method comprises the following steps:

2. The method of claim 1, wherein the step of determining the position of the substrate comprises,

sequencing the first software list according to a software sequencing strategy to obtain a second software list, obtaining a first transmission list from a preset type node corresponding to each initial software node in the second software list, transmitting data in the lost device to associated devices according to the first transmission list, and collecting the transmitted first software node, first type node and first data node in real time to obtain a first real-time transmission list, wherein the method comprises the following steps:

3. The method of claim 2, wherein the step of determining the position of the substrate comprises,

acquiring an arrangement weight value corresponding to each initial software node in the first software list, and arranging each initial software node in sequence from big to small according to the arrangement weight value to obtain a second software list, wherein the method comprises the following steps:

4. The method of claim 3, wherein the step of,

invoking a sample set corresponding to a plurality of preset age groups, wherein the sample set comprises data transmission information corresponding to a plurality of sample users in each preset age group, and generating a software weight value set corresponding to each preset age group based on the data transmission information, and the method comprises the following steps:

5. The method of claim 4, wherein the step of determining the position of the first electrode is performed,

based on the scanning completion information of the lost equipment, a detailed list of the lost equipment is obtained, and a first customized transmission list is generated according to the selected information of a lost user on the detailed list, wherein the method comprises the following steps:

6. The method of claim 5, wherein the step of determining the position of the probe is performed,

obtaining the residual capacity and the network speed corresponding to the lost equipment according to the equipment state of the lost equipment, and obtaining the estimated data transmission quantity based on the residual capacity and the network speed, wherein the estimated data transmission quantity comprises the following steps:

7. The method of claim 6, wherein the step of providing the first layer comprises,

when the total data transmission amount is greater than or equal to the estimated data transmission amount, generating transmission reminding information and sending the transmission reminding information to the associated equipment, obtaining an estimated data transmission list according to the estimated data transmission amount and the sub data transmission amount corresponding to each first customized data node in the first customized transmission list, and displaying the estimated transmission list to the associated equipment, wherein the method comprises the following steps:

8. The method as recited in claim 7, further comprising:

9. A mobile device lost data processing system, comprising:

the comparison module is used for updating the first customized transmission list based on node comparison strategy and the first real-time transmission list to obtain a second customized transmission list, and transmitting the data in the lost equipment to the associated equipment according to the second customized transmission list;