CN117873615B

CN117873615B - Centralized management method, device and system for desktop resources

Info

Publication number: CN117873615B
Application number: CN202311748017.0A
Authority: CN
Inventors: 黄荣; 黄浩庭
Original assignee: Zhengtian Technology Co ltd
Current assignee: Zhengtian Technology Co ltd
Priority date: 2023-12-19
Filing date: 2023-12-19
Publication date: 2024-08-23
Anticipated expiration: 2043-12-19
Also published as: CN117873615A

Abstract

The invention relates to a desktop resource centralized management method, a device and a system, which are used for acquiring historical access data of each desktop resource in each computer device in a target unit; then constructing a resource association map of the target unit based on the historical access data; determining a plurality of associated desktop resources of the target desktop resources from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resources; and finally, managing all desktop resources in the target unit based on the virtual desktop. The degree of association between desktop resources is determined by constructing a resource association graph, thereby determining a plurality of desktop resources that are to be used together in a computer device. Therefore, desktop resources which are commonly accessed when a certain work task is executed are determined, virtual desktops are built by the desktop resources, and the desktop resources are uniformly managed, so that the problem of desktop confusion can be solved, and cross-equipment use of the desktop resources can be facilitated.

Description

Centralized management method, device and system for desktop resources

Technical Field

The invention relates to the technical field of communication, in particular to a desktop resource centralized management method, device and system.

Background

Currently, resources on a computer desktop typically include shortcuts, files, directories, and the like. These resources are typically stacked on the desktop in a certain arrangement. And when the user needs to use the resources in the user, clicking and accessing the resources.

However, some computers used in machine rooms and control rooms at present are used, and operators on duty replace the computers in turn, so that desktop resources are disordered and complicated due to a plurality of users on the computer desktops, and subsequent users are very difficult to find the resources required by the current work service.

Disclosure of Invention

Accordingly, the present invention is directed to a method, apparatus and system for centralized management of desktop resources, so as to solve the problem of confusion and complexity of desktop resources in the prior art.

In order to achieve the above purpose, the present invention adopts the following technical scheme:

the invention discloses a desktop resource centralized management method, which comprises the following steps:

Acquiring historical access data of each desktop resource in each computer device in a target unit, wherein the historical access data comprises accessed resources with a plurality of use periods;

Constructing a resource association graph of the target unit based on the historical access data, wherein the resource association graph comprises association degrees of any two desktop resources;

Determining a plurality of associated desktop resources of a target desktop resource from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resource, wherein the target desktop resource is pre-designated, and the target desktop resource is a necessary desktop resource of one of the work tasks;

and managing all desktop resources in the target set based on the virtual desktop.

In an embodiment of the present application, constructing a resource association map of the target unit based on the historical access data includes:

Selecting any one accessed resource in the history access data as a current resource, and determining a synchronous access resource of the current resource, wherein the synchronous access resource and the current resource are accessed in the same use period;

determining the number N of accessed periods of the current resource and the number N _AB of periods of the current resource accessed simultaneously with the synchronous access resource, and calculating the association degree R _AB,R_AB＝N_AB/N of the current resource and the synchronous access resource based on the number N and the number N _AB;

Marking the current resource, taking the next accessed resource which is not marked as the current resource, and returning to determining the synchronous access resource of the current resource until the association degree among all the accessed resources is built, so as to obtain a resource association map.

In an embodiment of the present application, obtaining historical access data of each desktop resource in each computer device in a target unit includes:

Starting timing when a user accesses one of the target desktop resources by any one computer of the target unit, and stopping timing when the timing time reaches a target time length, wherein the target time length is the time length of the using period;

determining the access time length of the desktop resource accessed in the timing period;

When the access time length is greater than a preset time length threshold, taking the corresponding desktop resource as an accessed resource, and constructing historical access data based on basic information of the accessed resource in a timing period, wherein the basic information comprises a resource name and an access path.

In an embodiment of the present application, determining a plurality of associated desktop resources of the target desktop resource from the resource association map includes:

Determining all synchronous access resources of each target desktop resource from the resource association map, and sequencing all synchronous access resources of each target desktop resource according to the sequence of the association degree from large to small to obtain a resource sequence;

when the number of synchronous access resources in the resource sequence is greater than or equal to I, the first I synchronous access resources are intercepted from the resource sequence to serve as associated desktop resources; and when the number of the synchronous access resources in the resource sequence is smaller than I, taking all the synchronous access resources in the resource sequence as associated desktop resources.

In an embodiment of the present application, constructing a virtual desktop based on the target desktop resource and an associated desktop resource of the target desktop resource includes:

Acquiring an icon and a resource position of the target desktop resource, and acquiring an icon and a resource position of an associated desktop resource of the target desktop resource;

And ordering the icons of the associated desktop resources according to the sequence from the big to the small of the association degree with the target desktop resources, and constructing a virtual desktop based on the icons and the resource positions of the target desktop resources and the ordered icons and the ordered resource positions of the associated desktop resources, wherein the virtual desktop is stored in a cloud or background management device.

In an embodiment of the present application, managing all desktop resources in the target unit based on the virtual desktop includes:

When receiving virtual desktop request information from a user, transmitting introduction information of all virtual desktops to the user;

when receiving virtual desktop selection information from a user, sending a virtual desktop corresponding to the virtual desktop selection information to the user;

and when receiving the resource selection information from the user, determining a resource position corresponding to the resource selection information, and loading the resource to the user local computer equipment based on the resource position.

In one embodiment of the present application, loading the resource to the user's local computer device based on the resource location includes:

when receiving virtual desktop selection information from a user, sending a virtual desktop corresponding to the virtual desktop selection information to the user, wherein the virtual desktop selection information is generated based on introduction information of the virtual desktop;

And when receiving resource selection information from a user, determining a resource position corresponding to the resource selection information, and loading resources to user local computer equipment based on the resource position, wherein the resource selection information is generated based on the virtual desktop.

In an embodiment of the present application, the name of the virtual desktop is generated based on the corresponding work task of the target desktop resource.

The application also provides a desktop resource centralized management device, which comprises:

the system comprises an acquisition module, a storage module and a storage module, wherein the acquisition module is used for acquiring historical access data of each desktop resource in each computer device in a target unit, and the historical access data comprises accessed resources with a plurality of use periods;

The association module is used for constructing a resource association map of the target unit based on the historical access data, wherein the resource association map comprises association degrees of any two desktop resources;

The desktop construction module is used for determining a plurality of associated desktop resources of a target desktop resource from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resource, wherein the target desktop resource is pre-designated, and the target desktop resource is a necessary desktop resource of one of the work tasks;

And the management module is used for managing all desktop resources in the target unit based on the virtual desktop.

The application also provides a desktop resource centralized management system for operating the desktop resource centralized management method.

The beneficial effects of the application are as follows: according to the desktop resource centralized management method, device and system, historical access data of each desktop resource in each computer device in a target unit are obtained; then constructing a resource association map of the target unit based on the historical access data; determining a plurality of associated desktop resources of the target desktop resources from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resources; and finally, managing all desktop resources in the target unit based on the virtual desktop. The application determines the association degree between desktop resources by constructing the resource association map, thereby determining a plurality of desktop resources which can be used together in the computer equipment. Thus, desktop resources which are commonly accessed when a certain work task is executed are determined, virtual desktops are constructed by the desktop resources, and the virtual desktops are provided for each computer in the target set. The application is based on the work task to uniformly manage the desktop resources, so that not only can the problem of desktop confusion be solved, but also the desktop resources can be conveniently used by the cross-equipment. Compared with the existing desktop management mode, the desktop management method has the advantages of simplicity, high efficiency, convenience in use and the like.

Drawings

The invention is further described below with reference to the accompanying drawings and examples:

FIG. 1 is an operation scene diagram of a desktop resource centralized management method according to an embodiment of the present application;

FIG. 2 is a flowchart of a desktop resource centralized management method according to an embodiment of the present invention;

FIG. 3 is a flowchart of the method for acquiring historical access data according to an embodiment of the application;

FIG. 4 is a flowchart of constructing a resource association graph in an embodiment of the present application;

FIG. 5 is a flow chart of determining a plurality of associated desktop resources for a target desktop resource in accordance with one embodiment of the present application;

FIG. 6 is a flow chart of constructing a virtual desktop according to an embodiment of the present application;

Fig. 7 is a block diagram of a desktop resource centralized management device according to an embodiment of the present invention.

Detailed Description

Other advantages and effects of the present invention will become apparent to those skilled in the art from the following disclosure, which describes the embodiments of the present invention with reference to specific examples. The invention may be practiced or carried out in other embodiments that depart from the specific details, and the details of the present description may be modified or varied from the spirit and scope of the present invention. It should be noted that the following embodiments and features in the embodiments may be combined with each other without conflict.

It should be noted that the illustrations provided in the following embodiments merely illustrate the basic concept of the present invention by way of illustration, and only the layers related to the present invention are shown in the drawings and are not drawn according to the number, shape and size of the layers in actual implementation, and the form, number and proportion of the layers in actual implementation may be arbitrarily changed, and the layer layout may be more complex.

In the following description, numerous details are discussed to provide a more thorough explanation of embodiments of the present invention, however, it will be apparent to one skilled in the art that embodiments of the present invention may be practiced without these specific details.

Fig. 1 is an operation scenario diagram of a desktop resource centralized management method according to an embodiment of the present application, as shown in fig. 1, the application of the present application may be applied to a machine room or a machine set of control devices, where the machine set 140 includes a plurality of computer devices, and the computer devices are networked through a switching device 110 (such as a two-layer switch, a three-layer switch, a router, etc.), so as to form the machine set 140.

The unit 140 is used for performing specific tasks, for example, a communication room, some computers are connected to the communication link, for performing PING tests on the communication link, some computers are used for office work, some computers are used for checking and monitoring, etc. The functions between computers cannot be completed, so if different work tasks need to be executed across devices, or one of the computers fails, when the work task of the failed computer is executed by using the other computer, the lack of desktop resources is very difficult. Therefore, in the present application scenario, a virtual desktop is constructed based on the desktop resources of each computer in the group 140. The virtual desktop can be a part of one computer desktop, and can also be constructed based on resources of a plurality of computer desktops.

The switching device 110 is connected to the background management device 120 or the server 130, some desktop resources (such as tables and documents) that need to be updated frequently are stored in the background management device 120 or the server 130, and some resources that are large in size and do not need to be updated frequently are directly stored in the computer devices of the set 140.

When a user performs a certain task, only the resources of the corresponding virtual desktop need to be loaded, where the resources of the virtual desktop may be loaded locally, or may be loaded from the background management device 120 or the server 130, or may be loaded from other computer devices of the unit 140. Because the virtual desktop only contains desktop resources required for executing the corresponding tasks, the virtual desktop is more concise and efficient, can be executed across devices, and is more flexible.

FIG. 2 is a flowchart of a desktop resource centralized management method according to an embodiment of the present application, where, as shown in FIG. 2, the present application includes:

s210, acquiring historical access data of each desktop resource in each computer device in a target unit, wherein the historical access data comprises accessed resources with a plurality of use periods;

The historical access data is obtained when the user uses the local desktop of the computer device, and sufficient historical access data needs to be collected to provide a data base before a suitable virtual desktop is generated.

FIG. 3 is a flowchart of acquiring historical access data according to an embodiment of the present application, as shown in FIG. 3, by acquiring historical access data of each desktop resource in each computer device in a target unit as follows:

S211, starting timing when a user accesses one of target desktop resources by any one computer of the target unit, and stopping timing when the timing duration reaches a target duration, wherein the target duration is the duration of the use period;

The target desktop resource is a necessary desktop resource for executing one of the work tasks, and is manually specified in advance, for example, when performing a PING test, the necessary resource required is a browser or a command running tool, and the PING test can be performed by inputting the IP address of the test device into the browser or the command running tool. The browser or command running tool may be designated as the target desktop resource. When the target desktop resource is accessed, it may be determined that the corresponding work task is currently being performed, thus starting a work cycle.

In addition, in order to prevent false triggering, the application also sets a false triggering prevention mechanism, namely, the subsequent data acquisition process is executed only when the time for accessing the target desktop resource exceeds the false triggering prevention threshold.

S212, determining the access time length of the desktop resource accessed in the timing period;

s213, when the access time length is greater than a preset time length threshold, taking the corresponding desktop resource as the accessed resource, and constructing historical access data based on basic information of the accessed resource in a timing period, wherein the basic information comprises a resource name and an access path.

According to the application, all desktop resources with access time length larger than the preset time length threshold are counted in the target time length, and desktop resources which can be matched with the target desktop resources to complete the corresponding work tasks can be possibly exist in the desktop resources. For example, when performing PING tests, a table describing the IP address of the test device is also required, and after opening the browser or commanding the running tool, the table is generally also required to be accessed. The method is characterized in that the access time of the desktop resource accessed in the timing period is determined to be an anti-false triggering mechanism, so that the resource accessed by mistake is prevented from being counted into historical access data.

The period of use in this embodiment is typically the duration of one shift, for example 8 hours. In another embodiment, the historical access data may also be refined to account for other accessed resources during which the target desktop resource was accessed. And starting statistics by accessing the target desktop resource, and finishing statistics when the access to the target desktop resource is finished.

S220, constructing a resource association map of the target unit based on the historical access data, wherein the resource association map comprises association degrees of any two desktop resources;

After the historical access data is obtained, desktop resources associated with each of the target desktop resources may be determined by analyzing the historical access data. The application constructs the resource association map based on the association degree, thereby intuitively displaying the association between the desktop resources.

Fig. 4 is a flowchart of constructing a resource association graph according to an embodiment of the present application, and as shown in fig. 4, a method for constructing a resource association graph includes:

S221, selecting any one accessed resource in the history access data as a current resource, and determining a synchronous access resource of the current resource, wherein the synchronous access resource and the current resource are accessed in the same use period;

The current resource may be any accessed resource in any usage period in the historical access data, for example: a browser, one of the tables of the desktop, one of the shortcuts of the desktop, etc. The synchronous access resource is an accessed resource that occurs in the same period of use as the current resource. For example, the accessed resource a is accessed together with the current resource in the use period time_1, the use period time_3 and the use period time_6 respectively, and then the accessed resource a is the synchronous access resource of the current resource. The current resource in this embodiment does not refer to a certain accessed resource in one usage period, but the resource itself, so that in a plurality of usage periods, the current resource is accessed synchronously as long as it is accessed in the same usage period as the current resource.

S222, determining the number N of accessed periods of the current resource and the number N _AB of periods of the current resource and the synchronous access resource, and calculating the association degree R _AB,R_AB＝N_AB/N of the current resource and the synchronous access resource based on the number N and the number N _AB;

In practice, the number of accesses to an accessed resource may be multiple times in each usage period, so that it may occur that an accessed resource is repeatedly accessed multiple times in one usage period in statistics, and when the association degree between the resource and the current resource is calculated, the association degree between the resource and the current resource may be increased. However, in this case, when an accessed resource is repeatedly accessed a plurality of times in a period of use, it is highly likely that the user is in a habit of operating by a person, and therefore the calculated degree of association does not actually reflect the association of the resource with the current resource. Therefore, in this embodiment, the number of access times of each accessed resource in one usage period is set to be one, and when the number of access times of the current resource is determined, the number N of accessed periods of the current resource is determined; and when the number of times of synchronously accessing the current resource is determined, the number of periods N _AB of synchronously accessing the current resource and the synchronously accessing resource is determined. And finally, calculating a ratio R _AB＝N_AB/N to obtain the association degree, wherein the highest association degree value is 1.

The association degree in this embodiment may represent any two accessed resources, and in a certain job, the probability of being accessed simultaneously is higher as the value is larger. However, in some cases, the number of times N that the current resource itself is accessed is small, and therefore, this case easily occurs: a large number of accessed resources with a degree of association of 1 with the current resource occur, but there is no association between these resources and the current resource. For example: the historical access data always shows that the shortcut of the entertainment resource is accessed twice, but the entertainment resource is not connected with any work task, so that when the shortcut of the entertainment resource is used as the current resource, a large number of accessed resources with the association degree of 1 can also appear. In order to prevent this, in the present application, it is prescribed that when N is smaller than a preset number threshold, it is not the current resource.

S223, marking the current resource, taking the next non-marked accessed resource as the current resource, and returning to determining the synchronous access resource of the current resource until the association degree among all the accessed resources is built, so as to obtain a resource association map.

In the process of association, if the association degree already calculated occurs in the subsequent calculation process, for example, the association degree R _AB of the desktop resource a and the desktop resource B is calculated by taking the desktop resource a as the current resource. And when the relevance R _BA between the desktop resource B and the desktop resource A is calculated by taking the desktop resource B as the current resource, directly calling the relevance R _AB. Repeated calculations are avoided.

After the resource association map is obtained, the application obtains the relationship of the mutual cooperation of the desktop resources of the plurality of computer devices in the target unit. Based on the relation, the application reestablishes a plurality of virtual desktops based on the work tasks, and reallocates all desktop resources. Each virtual desktop contains all desktop resources for executing one work task, and the number and the ordering are reasonable, so that the virtual desktop is convenient for workers to use.

In order to build a virtual desktop based on a work task, the present application requires allocation of all desktop resources. The allocation procedure is as follows.

S230, determining a plurality of associated desktop resources of a target desktop resource from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resource, wherein the target desktop resource is pre-designated, and the target desktop resource is a necessary desktop resource of one of the work tasks;

In this embodiment, the target desktop resource is manually specified, and the target desktop resource is a necessary desktop resource of one of the work tasks, so that the virtual desktop is constructed based on the target desktop resource, that is, the virtual desktop is constructed based on one of the work tasks.

FIG. 5 is a flowchart of determining a plurality of associated desktop resources of a target desktop resource according to an embodiment of the present application, where determining a plurality of associated desktop resources of a target desktop resource from the resource association graph, as shown in FIG. 5, includes:

s2301, determining all synchronous access resources of each target desktop resource from the resource association map, and sequencing all synchronous access resources of each target desktop resource according to the sequence of the association degree from large to small to obtain a resource sequence;

S2302, when the number of synchronous access resources in the resource sequence is greater than or equal to I, taking the I synchronous access resources before interception in the resource sequence as associated desktop resources; and when the number of the synchronous access resources in the resource sequence is smaller than I, taking all the synchronous access resources in the resource sequence as associated desktop resources.

The application constructs a resource sequence of the target desktop resource based on the degree of association, and then intercepts I synchronous access resources with larger association as associated desktop resources. Therefore, the reasonable quantity of the related desktop resources is ensured, and the necessary desktop resources are ensured not to be lacking. In the application, if the association degree between the synchronous access resource after the I synchronous access resources in the resource sequence and the target desktop resource is still greater than the threshold value (for example, 0.2), interception can be continued until the association degree is smaller than the threshold value. And when the virtual desktop is established, the obtained associated desktop resources with a large number are subjected to paging setting. Thereby ensuring the necessary desktop resources for each work task.

FIG. 6 is a flowchart of building a virtual desktop according to an embodiment of the present application, where, as shown in FIG. 6, building a virtual desktop based on the target desktop resource and an associated desktop resource of the target desktop resource includes:

s2311, acquiring an icon and a resource position of the target desktop resource, and acquiring an icon and a resource position of an associated desktop resource of the target desktop resource;

s2312, sorting the icons of the associated desktop resources according to the sequence from big to small of the association degree with the target desktop resources, and constructing a virtual desktop based on the icons and the resource positions of the target desktop resources and the sorted icons and the resource positions of the associated desktop resources, wherein the virtual desktop is stored in a cloud or background management device.

The virtual desktop is constructed based on the icon and the resource position of the target desktop resource and the icon and the resource position of the associated desktop resource of the target desktop resource. The constructed virtual desktop can be arranged in a single page or in a plurality of pages. In the ordering mode, the target desktop resources are arranged in the first position, and other desktop resources are sequentially arranged from large to small according to the association degree with the target desktop resources. To ensure the convenience of staff access.

S240, managing all desktop resources in the target set based on the virtual desktop.

The virtual desktop is stored in a server or a background management device of the group, and the actual resource storage locations are different. The application carries out unified management on all desktop resources based on the virtual desktop, realizes concise and efficient work tasks, can realize cross-equipment operation, and comprises the following specific processes:

S241, when receiving virtual desktop request information from a user, transmitting introduction information of all virtual desktops to the user; the introduction information comprises a thumbnail of the name of the virtual desktop, wherein the name of the virtual desktop is generated based on the corresponding work task of the target desktop resource. Which work task the worker intends to perform corresponds to which virtual desktop is selected.

S242, when receiving virtual desktop selection information from a user, sending a virtual desktop corresponding to the virtual desktop selection information to the user, wherein the virtual desktop selection information is generated based on introduction information of the virtual desktop;

After receiving the selection information of the user, the server or the background management device sends the corresponding virtual desktop to the computer device corresponding to the user, and only the virtual desktop is sent at the moment, and the resources corresponding to the virtual desktop are not loaded yet.

S243, when resource selection information from a user is received, determining a resource position corresponding to the resource selection information, and loading resources to user local electrical equipment based on the resource position, wherein the resource selection information is generated based on the virtual desktop.

The desktop resource corresponding to the user selection information may have the following situations:

(1) Forwarding the resource selection information to the user local computer equipment when the resource position is in the user local computer equipment; for example, the desktop resource corresponding to the user selection information is a software shortcut, and the software is installed on the local computer of the user, so that the user can directly load the desktop resource from the local.

(2) When the resource position is in the cloud or background management equipment, loading resources from the cloud or background management equipment to the household local computer equipment; for example, if the desktop resource corresponding to the user selection information is a table document, the user performs recording from the cloud or the background management device. In this embodiment, since the update frequency of the table or the document is high, if the table or the document is stored in the desktop of one of the computers, the table or the document is inconvenient to manage and synchronize, and therefore the table or the document is directly placed in the cloud or the background management device, so that synchronous management and update of all the computers in the target unit are realized.

(3) And when the resource position is in other computer equipment of the target unit, reading resources from the other computer equipment of the target unit, and forwarding the resources to user local computer equipment. For example, if the desktop resource corresponding to the user selection information is a file shortcut, the cloud or the background management device uploads the corresponding file from other computer devices of the target unit and then sends the file to the local computer device of the user, so that cross-device resource loading is realized.

Based on the above situation, when the unit resource management mechanism is established, the application installs the software tool on the local computer, establishes the virtual desktop based on the corresponding desktop resource (icon), places the form, the document, the TXT file and the like on the cloud or the background management equipment, and places the file shortcut on the local computer. A new virtual desktop management system is established on the basis of a computer desktop. Under the condition of not influencing the working model of the existing desktop, the desktop resources are managed from the working task, so that the desktop resources are higher in use convenience and higher in regularity, and meanwhile, the cross-equipment operation can be realized.

According to the desktop resource centralized management method, historical access data of each desktop resource in each computer device in a target unit are obtained; then constructing a resource association map of the target unit based on the historical access data; determining a plurality of associated desktop resources of the target desktop resources from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resources; and finally, managing all desktop resources in the target unit based on the virtual desktop. The application determines the association degree between desktop resources by constructing the resource association map, thereby determining a plurality of desktop resources which can be used together in the computer equipment. Thus, desktop resources which are commonly accessed when a certain work task is executed are determined, virtual desktops are constructed by the desktop resources, and the virtual desktops are provided for each computer in the target set. The application is based on the work task to uniformly manage the desktop resources, so that not only can the problem of desktop confusion be solved, but also the desktop resources can be conveniently used by the cross-equipment. Compared with the existing desktop management mode, the desktop management method has the advantages of simplicity, high efficiency, convenience in use and the like.

As shown in fig. 7, the present application further provides a desktop resource centralized management device, including:

According to the desktop resource centralized management device, historical access data of each desktop resource in each computer device in a target unit are obtained; then constructing a resource association map of the target unit based on the historical access data; determining a plurality of associated desktop resources of the target desktop resources from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resources; and finally, managing all desktop resources in the target unit based on the virtual desktop. The application determines the association degree between desktop resources by constructing the resource association map, thereby determining a plurality of desktop resources which can be used together in the computer equipment. Thus, desktop resources which are commonly accessed when a certain work task is executed are determined, virtual desktops are constructed by the desktop resources, and the virtual desktops are provided for each computer in the target set. The application is based on the work task to uniformly manage the desktop resources, so that not only can the problem of desktop confusion be solved, but also the desktop resources can be conveniently used by the cross-equipment. Compared with the existing desktop management mode, the desktop management method has the advantages of simplicity, high efficiency, convenience in use and the like.

The embodiment also provides a desktop resource centralized management system, which is used for running the desktop resource centralized management method.

The present embodiment also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, implements any of the methods of the present embodiment, wherein the method is the execution logic of the present system.

The embodiment also provides an electronic terminal, including: a processor and a memory;

The memory is used for storing a computer program, and the processor is used for executing the computer program stored in the memory, so that the terminal executes any one of the methods in the embodiment.

The computer readable storage medium in this embodiment, as will be appreciated by those of ordinary skill in the art: all or part of the steps for implementing the method embodiments described above may be performed by computer program related hardware. The aforementioned computer program may be stored in a computer readable storage medium. The program, when executed, performs steps including the method embodiments described above; and the aforementioned storage medium includes: various media that can store program code, such as ROM, RAM, magnetic or optical disks.

The electronic terminal provided in this embodiment includes a processor, a memory, a transceiver, and a communication interface, where the memory and the communication interface are connected to the processor and the transceiver and complete communication with each other, the memory is used to store a computer program, the communication interface is used to perform communication, and the processor and the transceiver are used to run the computer program, so that the electronic terminal performs each step of the above method.

In this embodiment, the memory may include a random access memory (Random Access Memory, abbreviated as RAM), and may further include a non-volatile memory (non-volatile memory), such as at least one disk memory.

The processor may be a general-purpose processor, including a central processing unit (Central Processing Unit, abbreviated as CPU), a network processor (Network Processor, abbreviated as NP), etc.; but may also be a digital signal processor (DIGITAL SIGNAL Processing, DSP), application Specific Integrated Circuit (ASIC), field-Programmable gate array (FPGA) or other Programmable logic device, discrete gate or transistor logic device, discrete hardware components.

In the above embodiments, while the present invention has been described in conjunction with specific embodiments thereof, many alternatives, modifications and variations of these embodiments will be apparent to those skilled in the art in light of the foregoing description. The embodiments of the invention are intended to embrace all such alternatives, modifications and variances which fall within the broad scope of the appended claims.

The above embodiments are merely illustrative of the principles of the present invention and its effectiveness, and are not intended to limit the invention. Modifications and variations may be made to the above-described embodiments by those skilled in the art without departing from the spirit and scope of the invention. Accordingly, it is intended that all equivalent modifications and variations of the invention be covered by the claims, which are within the ordinary skill of the art, be within the spirit and scope of the present disclosure.

Claims

1. A desktop resource centralized management method is characterized by comprising the following steps:

Constructing a resource association graph of the target unit based on the historical access data, wherein the resource association graph comprises association degrees of any two desktop resources; constructing a resource association graph of the target unit based on the historical access data, including: selecting any one accessed resource in the history access data as a current resource, and determining a synchronous access resource of the current resource, wherein the synchronous access resource and the current resource are accessed in the same use period; determining the number N of accessed periods of the current resource and the number N _AB of periods of the current resource accessed simultaneously with the synchronous access resource, and calculating the association degree R _AB,R_AB=N_AB/N of the current resource and the synchronous access resource based on the number N and the number N _AB; marking the current resource, taking the next accessed resource which is not marked as the current resource, and returning to determining the synchronous access resource of the current resource until the association degree among all the accessed resources is built, so as to obtain a resource association map;

determining a plurality of associated desktop resources of a target desktop resource from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resource, wherein the target desktop resource is pre-designated, and the target desktop resource is a necessary desktop resource of one of the work tasks; determining a plurality of associated desktop resources of the target desktop resource from the resource association graph, including: determining all synchronous access resources of each target desktop resource from the resource association map, and sequencing all synchronous access resources of each target desktop resource according to the sequence of the association degree from large to small to obtain a resource sequence; when the number of synchronous access resources in the resource sequence is greater than or equal to I, the first I synchronous access resources are intercepted from the resource sequence to serve as associated desktop resources; when the number of synchronous access resources in the resource sequence is smaller than I, taking all synchronous access resources in the resource sequence as associated desktop resources;

2. The method for centralized management of desktop resources according to claim 1, wherein obtaining historical access data of each desktop resource in each computer device in the target unit comprises:

3. The method for centralized management of desktop resources according to claim 1, wherein constructing a virtual desktop based on the target desktop resource and the associated desktop resource of the target desktop resource comprises:

4. The method for centralized management of desktop resources according to claim 1, wherein managing all desktop resources in a target unit based on the virtual desktop comprises:

5. The method for centralized management of desktop resources according to claim 4, wherein loading resources to the user's local computer device based on the resource location comprises: forwarding the resource selection information to the user local computer equipment when the resource position is in the user local computer equipment; when the resource position is in the cloud or background management equipment, loading resources from the cloud or background management equipment to the household local computer equipment; and when the resource position is in other computer equipment of the target unit, reading resources from the other computer equipment of the target unit, and forwarding the resources to user local computer equipment.

6. The method for centralized management of desktop resources according to claim 1, wherein the name of the virtual desktop is generated based on the corresponding work task of the target desktop resource.

7. A desktop resource centralized management device, characterized by comprising:

The association module is used for constructing a resource association map of the target unit based on the historical access data, wherein the resource association map comprises association degrees of any two desktop resources; constructing a resource association graph of the target unit based on the historical access data, including: selecting any one accessed resource in the history access data as a current resource, and determining a synchronous access resource of the current resource, wherein the synchronous access resource and the current resource are accessed in the same use period; determining the number N of accessed periods of the current resource and the number N _AB of periods of the current resource accessed simultaneously with the synchronous access resource, and calculating the association degree R _AB,R_AB=N_AB/N of the current resource and the synchronous access resource based on the number N and the number N _AB; marking the current resource, taking the next accessed resource which is not marked as the current resource, and returning to determining the synchronous access resource of the current resource until the association degree among all the accessed resources is built, so as to obtain a resource association map;

the desktop construction module is used for determining a plurality of associated desktop resources of a target desktop resource from the resource association map, and constructing a virtual desktop based on the plurality of associated desktop resources of the target desktop resource, wherein the target desktop resource is pre-designated, and the target desktop resource is a necessary desktop resource of one of the work tasks; determining a plurality of associated desktop resources of the target desktop resource from the resource association graph, including: determining all synchronous access resources of each target desktop resource from the resource association map, and sequencing all synchronous access resources of each target desktop resource according to the sequence of the association degree from large to small to obtain a resource sequence; when the number of synchronous access resources in the resource sequence is greater than or equal to I, the first I synchronous access resources are intercepted from the resource sequence to serve as associated desktop resources; when the number of synchronous access resources in the resource sequence is smaller than I, taking all synchronous access resources in the resource sequence as associated desktop resources;

8. A desktop resource centralized management system, configured to perform a desktop resource centralized management method as claimed in claims 1-6.