CN118118557A - Shared resource management method, electronic device and storage medium - Google Patents

Abstract

The embodiment of the application relates to the field of resource management, in particular to a shared resource management method, electronic equipment and a storage medium. The method comprises the steps of receiving first resource use information and a first shared resource identifier sent by a first resource end, and executing a shared resource switching program when a first condition is met. The first resource use information is obtained by analyzing a first wireless signal sent by a first client by the first resource end, the first resource end is associated equipment of a first shared resource, and the first condition comprises that the first resource use information is not matched with the identification of the first shared resource. The embodiment of the application can acquire the resource use information of the client through the wireless signal sent by the client, and the resource management end starts the online shared resource switching program when determining that the resource use information is not matched with the identification of the shared resource. The embodiment of the application can realize automatic switching of the shared resources at the resource management end, does not need manual operation of a user, and can enable the user to use the shared resources more conveniently.

Description

Shared resource management method, electronic device and storage medium

[ Field of technology ]

The embodiment of the application relates to the field of resource management, in particular to a shared resource management method, electronic equipment and a storage medium.

[ Background Art ]

In an organization, such as an enterprise, in order to fully utilize and save resources, shared resources are often set for members in the organization, for example, multiple meeting rooms are set in the enterprise, and when an employee of the enterprise needs to hold a meeting, the employee can reserve the meeting room and use the meeting room in the reserved time.

Since the conference room is a shared resource, there is a case where a use conflict is liable to occur. For example, presenter a subscribes to meeting room a for a time of 14:00-16:00, presenter B subscribes to meeting room a for a time of 16:00-18:00, however, presenter a finds that the meeting cannot be completed before 16:00, and the meeting cannot change meeting rooms for some reasons. Typically, the presenter a reserves a conference room B for the presenter B and notifies the presenter B offline by means of a phone or a short message.

Although the problem of conflict in use of the conference room can be solved by the method of exchanging the conference room offline, a plurality of inconveniences are brought to users.

[ Invention ]

The embodiment of the application provides a shared resource management method, electronic equipment and a storage medium, which can automatically switch shared resources at a resource management end, so that a user can use the shared resources more conveniently.

In a first aspect, an embodiment of the present application provides a method for managing a shared resource, where the method may be executed by a resource management end, and the method includes:

and receiving the first resource use information and the first shared resource identification sent by the first resource terminal.

And executing the shared resource switching program when the first condition is met.

The first resource use information is obtained by analyzing a first wireless signal sent by the first client side, the first resource side is associated equipment of the first shared resource, and the first condition comprises that the first resource use information is not matched with the identification of the first shared resource.

In some embodiments, the method further comprises:

transmitting a notification to a subscribing client of a first shared resource, the notification being for instructing the subscribing client to transmit a first wireless signal;

receiving second resource use information and a second shared resource identifier sent by a second resource end;

The first condition further includes: the second resource usage information does not match the identity of the second shared resource. Executing the shared resource switching program when the first condition is satisfied, including:

And if the first resource use information is not matched with the identification of the first shared resource and the second resource use information is not matched with the identification of the second shared resource, executing a first switching program, wherein the first switching program comprises switching the shared resources of the first client and the reservation client.

The second resource use information is obtained by analyzing a second resource end from a first wireless signal sent by the reservation client, and the second resource end is associated equipment of a second shared resource.

In some embodiments, the first condition further comprises: the first resource usage information matches an identification of the second shared resource, and the second resource usage information matches an identification of the first shared resource.

The executing the shared resource switching program when the first condition is satisfied includes:

And if the first resource use information is not matched with the identification of the first shared resource, the second resource use information is not matched with the identification of the second shared resource, and the first resource use information is matched with the identification of the second shared resource, and the second resource use information is matched with the identification of the first shared resource, executing the first switching program, wherein the first switching program comprises the step of exchanging the setting information of the first shared resource and the second shared resource. The setting information includes at least one of environment setting information, the resource usage information, and resource usage personnel information.

In some embodiments, the performing a first switching procedure includes:

transmitting a confirmation message to the first client and the reservation client, wherein the confirmation message is used for the first client and the reservation client to confirm switching of the shared resource;

In response to the first client determining the confirmation message and the subscribing client determining the confirmation message, exchanging the setting information of the first shared resource and the second shared resource.

In some embodiments, the executing the shared resource switching program further comprises:

A notification of a change to the shared resource is sent to resource users of the first and second shared resources in a first manner.

The first mode comprises at least one of software push, robot phone notification and short message notification.

In a second aspect, an embodiment of the present application further provides a method for managing a shared resource performed by a resource end, including:

the resource end responds to the received first wireless signal sent by the client, and analyzes the first wireless signal to obtain resource use information of the client;

And sending the resource use information and the identification of the shared resource associated with the resource end to the resource management end.

The resource end is associated equipment of the shared resource, the resource use information is provided with the corresponding shared resource, and the resource use information and the identification of the shared resource are used for the resource management end to confirm to execute the shared resource switching program.

In a third aspect, an embodiment of the present application further provides a method for managing a shared resource performed by a client, including:

The client transmits a first wireless signal in response to reaching a first time;

and/or the number of the groups of groups,

The method comprises the steps that a client side sends a first wireless signal in response to receiving a first notification of a resource management side, wherein the first notification is used for indicating the client side to send the first wireless signal;

The first time is earlier than the first starting time, and the first wireless signal carries resource use information, and the resource use information is used for the resource management end to confirm to execute the shared resource switching program.

In some embodiments, the shared resource in the above first, second and third aspects comprises a room, in particular in some embodiments the room comprises a conference room, and the resource usage information comprises a conference room user identification and/or a conference identification.

In some embodiments, the first wireless signal in the first aspect, the second aspect, and the third aspect is one of an ultrasonic signal, a microwave signal, and a millimeter wave signal;

Or the first wireless signal is a wireless signal with a frequency greater than 80GH _Z.

In a fourth aspect, an embodiment of the present application further provides an electronic device, including:

A processor and a memory communicatively coupled to the processor;

the memory has stored therein computer program instructions which, when invoked by the processor, cause the processor to perform the method as described above.

In a fifth aspect, an embodiment of the present application further provides a resource management system, including:

the resource management end electronic equipment is used for executing the shared resource management method executed by the resource management end;

The resource end electronic equipment is used for executing the shared resource management method executed by the resource end;

and the client electronic equipment is used for executing the shared resource management method executed by the client.

In a sixth aspect, embodiments of the present application also provide a storage medium storing computer-executable instructions for causing a processor to perform the method as described above.

Compared with the prior art, the embodiment of the application can acquire the resource use information of the client by sending the wireless signal through the client. The resource management end can determine whether the first client and the first shared resource are matched by receiving the first resource usage information of the first client and the identification of the first shared resource of the first resource end, and when the first resource usage information and the identification of the first shared resource are not matched, execute a shared resource switching program, for example, switch the shared resource of the first client. The embodiment of the application can realize automatic on-line switching of the shared resource at the resource management end, does not need manual operation of a user, and can enable the user to use the shared resource more conveniently.

[ Description of the drawings ]

One or more embodiments are illustrated by way of example and not limitation in the figures of the accompanying drawings, in which like references indicate similar elements, and in which the figures of the drawings are not to be taken in a limiting sense, unless otherwise indicated.

FIGS. 1a and 1b are schematic diagrams illustrating the construction of a resource management system according to an embodiment of the present application;

Fig. 2 is a schematic diagram of a hardware structure of an electronic device according to an embodiment of the present application;

FIG. 3 is a flowchart of a method for managing shared resources performed by a resource end according to an embodiment of the present application;

FIGS. 4a and 4b are flowcharts of a method for managing shared resources performed by a resource manager according to an embodiment of the present application;

FIG. 5 is a schematic view of a window for confirming whether to switch meeting rooms according to an embodiment of the shared resource management method of the present application;

fig. 6 is a flowchart illustrating a method for interactively executing shared resource management by a resource management end, a resource end and a client according to an embodiment of the present application.

[ Detailed description ] of the invention

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be described in detail below with reference to the accompanying drawings in the embodiments of the present application. It will be apparent that the described embodiments are some, but not all, embodiments of the application. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the application.

Features of the various embodiments of the application described below may be combined with one another without constituting any conflict.

Further, while functional block division is performed in the apparatus schematic, a logical order is shown in the flowchart, in some cases, the steps may be performed in a different order than the block division in the apparatus, or may be performed in a different order than the order shown in the flowchart.

The words "first," "second," "third," and the like as used herein do not limit the data, the apparatus, and the order of execution, but merely distinguish between identical or similar items that have substantially the same function and effect.

Unless defined otherwise, technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art. The terminology used in the description is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. The term "and/or" as used herein includes any and all combinations of one or more of the associated listed items.

The shared resource management method of the embodiment of the present application can be applied to the resource management system 1000 shown in fig. 1a, where the resource management system 1000 includes a resource management end 100, a resource end 200, and a client 300.

Wherein the shared resource may be any suitable resource that may be shared, such as a room, conference device, or other hardware resource, etc. The room may be, for example, a conference room, an entertainment room, a gym, or a room used for other purposes, a conference device such as a playback terminal, a telephone call-in system, a remote video system, etc. The resource management terminal 100, the resource terminal 200, and the client terminal 300 may be electronic devices executing dedicated software to implement the shared resource management method according to the embodiment of the present application. For example, where the shared resource is a conference room, the resource management end 100, the resource end 200, and/or the client 300 may be loaded with relevant conference management software to implement a conference management method.

The resource management end 100 is used for managing and coordinating the use condition of the shared resource, and in the case that the shared resource is a conference room, the resource management end is, for example, a conference system, and the conference system can be implemented by a server loaded with conference management software.

The resource end 200 represents a shared resource side, and may be an associated device of the shared resource, where the shared resource is a closed space (e.g., a conference room), the resource end may be placed in the shared resource. Where the shared resource is a hardware device, the resource terminal 200 may be integrated with the shared resource, or the resource terminal 200 may be the shared resource itself.

The client 300 represents a side of the shared resource user, which may be held by the shared resource user. For example, where the shared resource is a conference room, the client may be held by the conference moderator or by another participant.

In some embodiments, resource management side 100 is implemented as a resource management server or resource management side electronic device, resource side 200 is implemented as a resource side electronic device, and client 300 is implemented as a 5-client electronic device.

The resource management end 100 may include a single server or a server group, or may be a cloud server, or may be a common PC in some occasions with low requirements on operation performance.

Resource-side electronics, such as tablet computers, personal computers, hand-held computers, or other intelligent/non-intelligent terminal devices.

0 Client electronic devices, such as smartphones, tablets, MP3 players, personal computers, laptops, personal stereo, CD players, or other smart/non-smart terminal devices.

For convenience of description, some embodiments take a shared resource as a conference room, a resource management end as a conference system, a resource end as a conference room tablet computer, and a client end as a conference host computer as examples. FIG. 1b

The structure 5 of the resource management system is shown when the shared resource is a conference room and the resource management terminal is a conference system.

The resource management end 100 and the resource end 200 may be connected in a wireless or wired manner, for example, wi-Fi communication manner, mobile communication technology, etc.

The resource terminal 200 and the client 300 may be connected by wireless means, such as an ultrasonic communication technology, a microwave communication technology, a millimeter wave communication technology, a bluetooth communication technology, a Wi-Fi communication mode, an NFC communication 0 technology, etc. The client 300 may be provided with a signal transmitting device, the resource 200 may be provided with a signal receiving device, and in some occasions where the resource 200 is required to transmit a signal to the client 300, the client 300 may be provided with a signal receiving device, and the resource 200 may be provided with a signal transmitting device.

Taking the client 300 and the resource 200 as an example for communication by ultrasonic technique, the signal transmitting apparatus

The speaker may be provided in the client electronic device or the resource-side electronic device, and the signal receiving apparatus 5 may be a microphone provided in the resource-side electronic device or the client electronic device. The client electronic device may invoke the authority of the speaker, send ultrasound through the speaker, and the resource electronic device may invoke the authority of the microphone, receive ultrasound through the microphone.

In the case of communication using other communication methods, it is necessary to provide corresponding signal transmitting/receiving devices, for example, in the case of microwave communication, it is necessary to provide 0 microwave transmitting devices and 0 microwave receiving devices in the client-side electronic device and the resource-side electronic device, respectively. In contrast, when the microphone and the loudspeaker are used for receiving and transmitting signals, the original devices of the electronic equipment (the electronic equipment usually has the microphone and the loudspeaker) can be utilized, and new devices are not needed to be added, so that the scheme of the application is easier to realize and has low cost.

The resource management side electronic device, the resource side electronic device and the client side electronic device may be devices including electronic components such as an integrated circuit, a transistor, an electronic tube, and the like, and are loaded with computer software, so as to implement the method according to any embodiment of the present application, and an exemplary hardware structure of the electronic device is shown in fig. 2. Referring to fig. 2, the electronic device includes a processor 10 and a memory 20, where the processor 10 and the memory 20 are connected by a line, and in the embodiment shown in fig. 2, the memory 20 is connected to the processor 10 by a bus.

The memory 20 is used to store software programs, computer-executable program instructions, and the like. The memory 20 may include a storage program area that may store an operating system, at least one application program required for functions, and a storage data area; the storage data area may store data created according to the use of the electronic device, etc.

The memory 20 may be a read-on1y memory (ROM), other types of static storage devices capable of storing static information and instructions, a random access memory (random accessmemory, RAM), other types of dynamic storage devices capable of storing information and instructions, and an electrically erasable programmable read-only memory (e 1ectrica11y erasab1eprogrammab e read-on1y memory, EEPROM), which is not limited herein.

The aforementioned memory 20 may be, for example, a double rate synchronous dynamic random access memory DDR sdram (DDR for short). The memory 20 may exist separately but be connected to the processor 10. Alternatively, the memory 20 may be integral to the processor 10. For example, integrated within one or more chips.

In some embodiments, memory 20 may optionally include memory located remotely from processor 10, which may be connected to the electronic device via a network. Examples of such networks include, but are not limited to, the internet, intranets, local area networks, mobile communication networks, and combinations thereof.

The processor 10 connects the various parts of the overall electronic device 100 using various interfaces and lines, performs various functions of the electronic device and processes data, such as implementing the methods described in any of the embodiments of the present application, by running or executing software programs stored in the memory 20, and invoking data stored in the memory 20.

The processor 10 may be a field programmable gate array (field programmable GATE ARRAY, FPGA), a digital signal processor (digita 1 signa process, DSP), a central processing unit (centra) or the like.

The processor 10 may be a single-core processor or a multi-core processor, for example, the processor 10 may be composed of a plurality of FPGAs or a plurality of DSPs. Furthermore, processor 10 may refer to one or more devices, circuitry, and/or processing cores for processing data (e.g., computer program instructions). The processor 10 may be a single semiconductor chip, or may be integrated with other circuits into a single semiconductor chip, for example, may form a system-on-a-chip (SoC) with other circuits (such as a codec circuit, a hardware accelerator circuit, or various buses and interface circuits), or may be integrated into an Application Specific Integrated Circuit (ASIC) as a built-in processor of the ASIC, and the ASIC with integrated processor may be packaged separately or may be packaged with other circuits.

It will be appreciated by those skilled in the art that the foregoing is merely illustrative of the hardware structure of the resource management side, the resource side, and the client electronic device, and in practical applications, more components may be provided according to actual functional needs, and of course, one or more components may be omitted according to functional needs.

In some embodiments, to determine the matching condition between the client and the shared resource, the client has information indicating the use of the shared resource, which may be referred to as resource usage information, where the resource usage information is used to identify the use condition of the shared resource, and may be, for example, a user identity (Identity Document, ID), resource application information, a client ID, and so on. Where the shared resource is a conference room, the resource usage information may include a conference moderator ID, a conference ID, or a client ID, a participant ID, or the like.

The resource end has an identifier of the shared resource, and in the case that the shared resource is a conference room, the identifier of the shared resource may include a conference room ID. When the client subscribes to the shared resource, the correspondence of the resource usage information to the identity of the shared resource is established. Also taking the conference room as an example, the conference room a is reserved on the client a by the host a for 14:00-16:00, at time 14: within 00-16:00, presenter A has a correspondence with conference room A.

Since the shared resource is common to many members, there is a case where there is a usage conflict, for example, the presenter a reserves the conference room a for 14:00-16:00, presenter B subscribes to meeting room a for a time of 16:00-18:00, however, presenter a finds that the meeting cannot be completed before 16:00, and the meeting cannot change meeting rooms for some reasons. Typically, presenter a will reserve conference room B for presenter B and notify presenter B offline.

Although this way of exchanging shared resources offline can solve the problem of conflict in use of shared resources, it brings a lot of inconveniences to users. For example, the conference modes (such as conference room light and air conditioner) set by the presenter a and the presenter B are different, after the presenter a and the presenter B exchange the conference rooms offline, the conference system still keeps the original record, and after the time reaches 16:00, the conference room a is changed into the conference mode set by the presenter B, which may cause that the conference modes cannot match the requirements of the participants, and cause bad experience to the participants.

For another example, since presenter a and presenter B temporarily replace the meeting room, the presenter needs to notify the participants one by one, which is inefficient, if the presenter sends messages to each participant in a group through an instant messaging client, it is also possible that the participant is going to the wrong meeting room because the participant is not looking at the messages immediately.

The embodiment of the application aims to realize automatic switching of the shared resource at a resource management end (such as a conference system) and can enable a user to use the shared resource more conveniently. On the one hand, the resource management end automatically switches the shared resources without manual operation of a user. On the other hand, when the resource management end switches the shared resource, the resource management end can also switch the setting information of the shared resource together, for example, when the conference system switches the conference room, the conference mode of the conference room can be switched together, so that the conference mode is automatically matched with a participant without setting again by a host, and the conference mode can be matched with the participant, thereby bringing good participant experience for the participant. For another example, the conference system may notify the participant of the newly changed conference room in a variety of ways, which is convenient for both the moderator and the participant.

In order to realize automatic switching of the shared resource, it is necessary to determine whether the actual user of the shared resource is a subscriber thereof, if the actual user matches the subscriber, the shared resource is not required to be switched, and if the actual user does not match the subscriber, the shared resource can be considered to be adjusted downward, but the adjustment is not reflected to the resource manager, and the resource manager can automatically switch the shared resource on line.

The matching situation can be determined by the resource usage information of the client and the identity of the shared resource of the resource end. In order to obtain the resource usage information of the actual user sharing the resource, the client can send a wireless signal carrying the resource usage information, and the resource end can obtain the resource usage information of the client by analyzing the wireless signal.

In order to enable the resource end to more accurately acquire the resource use information of the actual user of the shared resource, the interference of wireless signals sent by other clients is reduced. In some embodiments, wireless signals having frequencies above a certain frequency value may be employed, such that the wireless signals have weaker penetration.

Because the resource end is usually placed in a closed environment, walls and roofs are blocked around the resource end, and wireless signals with weak penetrating power can be received by the resource end in the house only by the wireless signals sent by the clients in the house, and the interference of the wireless signals sent by other clients can be reduced.

For example, when the shared resource is a house, the resource end is usually placed in the house, and when the shared resource is a related hardware device for a conference, the resource end is usually placed in a conference room together with the related hardware device for the conference.

Taking the above-mentioned closed environment as an example of a house, the wireless signal with weak penetrating power makes the signal strength stronger when the client is located in the house at the resource end, and the signal strength weaker when it is located outside the house, or can not enter the house. Therefore, the resource end in the house can only receive the wireless signals sent by the client in the house, or can also receive other wireless signals, but the strength of the other wireless signals is very weak, and the resource end can discard analysis of the other wireless signals by judging the signal strength. Therefore, the probability of receiving the wrong wireless signal by the resource end can be reduced, and the resource end can more accurately acquire the actual use information of the shared resource.

In some embodiments, the wireless signal may be a signal of any frequency above 80GH _Z, such as ,85GH_Z、90GH_Z、95GH_Z、100GH_Z、105GH_Z、110GH_Z、115GH_Z、120GH_Z, etc., and in other embodiments, the wireless signal may be below 80GH _Z, such as any frequency between 80GH _Z-30GH_Z, such as ,75GH_Z、70GH_Z、65GH_Z、60GH_Z、55GH_Z、50GH_Z、45GH_Z、40GH_Z、35GH_Z, etc.

It will be appreciated that in the above example, the step sizes between frequencies are illustrated with 5GH _Z, and in other embodiments, any other step size is possible.

As a specific implementation manner, the wireless signal may be an ultrasonic signal, a microwave signal, a millimeter wave signal, or the like.

In other embodiments, a wireless signal with weak penetrating power may not be used, and the resource end may set the signal strength threshold according to the attenuation degree of the signal because the wireless signal may have a certain attenuation degree after passing through the wall. And only when the received wireless signal exceeds the signal strength threshold, the acquired wireless signal is considered to be the wireless signal sent by the shared resource actual use client, and the resource use information is acquired by analysis.

After the first resource end (the associated device of the first shared resource) acquires the first resource usage information of the actually used client, the first resource usage information and the identification of the first shared resource can be sent to the resource management end, so that the resource management end judges whether the identification of the first shared resource and the first resource usage information accord with the reservation information. If not, it is indicated that the first shared resource does not match the client actually used, and the shared resource may be switched online. The embodiment of the application realizes automatic on-line switching of the shared resource, does not need manual operation of a user of the shared resource at a resource management end, and brings convenience to the user of the shared resource.

The shared resource management method of each embodiment of the present application is described below.

The embodiment of the application provides a shared resource management method, which can be executed by a client in any of the above embodiments, and comprises the following steps:

101a: the first wireless signal is transmitted in response to reaching the first time.

The first time is a time point before the start of the shared resource, for example, 10 minutes before the start of the conference.

When the client is about to use the shared resource, the client sends a wireless signal so that the resource end (the associated equipment of the shared resource actually used by the client) can acquire the wireless signal, and acquire the resource use information of the client by analyzing the wireless signal.

After the resource end obtains the resource use information of the client, the resource use information of the client and the identification of the shared resource of the resource end can be sent to the resource management end, so that the resource management end confirms whether the shared resource is matched with the actually used client or not, and when the shared resource is not matched with the actually used client, the shared resource is switched. Wherein, determining whether the shared resource matches the actually used client may be determining whether the shared resource and the actually used client conform to a reservation record of the shared resource.

In some embodiments, the software loaded on the client may be manually operated by the shared resource user, so that the authority of the signal transmitting device in the client is invoked to transmit the first wireless signal, and in a manner of reaching the first time and transmitting the first wireless signal, the shared resource user is not required to manually operate, so that the use is more convenient.

In other embodiments, the shared resource management method performed by the client may further include:

101b: the first wireless signal is transmitted in response to receiving the first notification of the resource management side.

When the resource management end determines that the first client and the first shared resource are not matched, the first shared resource actually used by the first client can be directly switched to the first client, and a first notification can be further sent to an actual reservation client of the first shared resource so as to help the reservation client to switch the shared resource online.

The reservation client may transmit a first wireless signal in response to a first notification transmitted by the resource manager so that the resource (an associated device of the shared resource actually used by the reservation client) may acquire the wireless signal and acquire resource usage information of the reservation client by parsing the wireless signal.

After the resource end obtains the resource usage information of the reservation client, the resource usage information of the reservation client and the identification of the shared resource of the resource end can be sent to the resource management end, so that the resource management end confirms whether the shared resource is matched with the reservation client or not, and when the shared resource is not matched with the reservation client, the shared resource is switched.

It will be appreciated that steps 101a and 101b may be performed by different clients, respectively, or may be performed by one client. For one client, it is possible to perform only step 101a or only step 101b, or it is possible to perform step 101a and step 101b at different times, respectively.

According to the embodiment of the application, the wireless signal is sent by the client, so that the resource end can acquire the resource use information of the client. Therefore, the resource management end can determine whether the client and the shared resource are matched or not by receiving the resource use information of the client and the identification of the shared resource of the resource end, which are sent by the resource end, and start the shared resource switching program when the client and the shared resource are not matched. The embodiment of the application can realize automatic switching of the shared resource at the resource management end, and can enable a user to use the shared resource more conveniently.

As shown in fig. 3, the embodiment of the present application further provides a method for managing a shared resource performed by a resource end, including:

201: the resource end responds to the received first wireless signal sent by the client, and analyzes the first wireless signal to acquire the resource use information of the client.

As a specific implementation manner, the management software loaded on the resource end may call the authority of the signal receiving device at a certain interval to receive the first wireless signal. The first wireless signal may be received by the resource when the client sends out the first wireless signal and the client arrives at the shared resource with which the resource is associated (e.g., the client arrives within the shared resource or the client is co-located with the shared resource in a room).

When the first wireless signal is a wireless signal with weak penetrating power and cannot penetrate a wall, the wireless signal acquired by the resource end is the wireless signal sent by the actual use client, and the resource end can directly analyze the wireless signal to acquire resource use information.

When the first wireless signal is a wireless signal with weak penetrability and can penetrate the wall at least partially, the resource end may acquire a wireless signal with strong signal strength and other signals with weak signal strength, and the resource end may discard the signal with weak signal strength, analyze the wireless signal with strong signal strength and acquire the resource use information.

When the first wireless signal is not a wireless signal with weak penetrating power, the resource end can set a signal strength threshold, only analyze the wireless signal with signal strength larger than the signal strength threshold, and acquire the resource use information.

202: And sending the resource use information and the identification of the shared resource associated with the resource end to the resource management end.

After the resource end obtains the resource use information of the client end, the resource use information of the client end and the identification of the shared resource of the resource end can be sent to the resource management end, so that the resource management end confirms whether the shared resource is matched with the client end or not, and when the shared resource is not matched with the client end, the shared resource is switched.

According to the embodiment of the application, the wireless signal sent by the client is analyzed by the resource terminal, the resource use information of the client is obtained, and the resource use information of the client and the identification of the shared resource are sent to the resource management terminal, so that the resource management terminal can determine whether the client and the shared resource are matched or not through the resource use information and the identification of the shared resource, and a shared resource switching program is started when the client and the shared resource are not matched. The embodiment of the application can realize automatic switching of the shared resource at the resource management end, and can enable a user to use the shared resource more conveniently.

As shown in fig. 4a, the embodiment of the present application further provides a method for managing a shared resource by a resource management end, including:

301a: and receiving the first resource use information and the first shared resource identification sent by the first resource terminal.

301B: and if the first resource use information is not matched with the identification of the first shared resource, executing the shared resource switching program.

The first resource end is associated equipment of the first shared resource. The first client sends a first wireless signal, and the first resource end obtains first resource use information of the first client by analyzing the first wireless signal. The first resource end sends the first resource use information and the identification of the first shared resource to the resource management end. The resource management terminal receives the first resource usage information and the first shared resource identifier sent by the first resource terminal, determines whether the first resource usage information and the first shared resource identifier are matched, and specifically, determines whether the first resource usage information and the first shared resource identifier are matched, which may be a reservation record for determining whether the first resource usage information and the first shared resource identifier conform to the resource management terminal.

In some embodiments, the first resource usage information has a corresponding shared resource in a reservation record of the resource manager, and the resource manager may determine whether the identifier of the first shared resource is the identifier of the shared resource corresponding to the first resource usage information, if so, the first resource usage information matches the identifier of the first shared resource, and if not, the first resource usage information does not match the identifier of the first shared resource.

In other embodiments, if the first shared resource has corresponding resource usage information in the reservation record of the resource manager, the resource manager may also determine whether the resource usage information matches the first resource usage information, if so, the first resource usage information matches the identity of the first shared resource, and if not, the first resource usage information does not match the identity of the first shared resource.

If the resource management end determines that the first resource use information matches the identification of the first shared resource, the first client end and the first shared resource are matched, the reservation record of the resource management end is met, the shared resource does not need to be switched, and the resource management end can not act. If the resource management end determines that the first resource use information does not match the identification of the first shared resource, the first client end and the first shared resource are not matched, the reservation record of the resource management end is not met, and the shared resource needs to be switched.

When the resource management end determines that the first client and the first shared resource are not matched, the resource management end can directly switch the first shared resource actually used by the first client to the first client. In other embodiments, referring to fig. 4b, the resource manager may also send a notification to the subscribing client of the first shared resource, so that the subscribing client sends a wireless signal. The second resource end (the associated equipment of the shared resource actually used by the reservation client) acquires the wireless signal, and acquires the second resource use information of the reservation client by analyzing the wireless signal, and the second resource end sends the second resource use information and the identification of the second shared resource to the resource management end.

The resource management terminal receives second resource use information and a second shared resource identifier sent by the second resource terminal, and determines whether the second resource use information and the second shared resource identifier are matched.

If the resource manager determines that the second resource usage information matches the identity of the second shared resource, it indicates that the reservation client and the second shared resource are matched, and the shared resource does not need to be switched, and if the resource manager determines that the second resource usage information does not match the identity of the first shared resource, it indicates that the reservation client and the second shared resource do not match, and the shared resource needs to be switched.

The resource manager may switch the shared resources of the first client and the reservation client when it determines that the first client and the first shared resource do not match, i.e., when the resource manager determines that both the first client and the reservation client do not match with the shared resources.

Specifically, in some embodiments, if the first resource usage information matches the identifier of the second shared resource and the second resource usage information matches the identifier of the first shared resource, the setting information of the first shared resource and the second shared resource is exchanged. If the first resource usage information does not match the identity of the second shared resource, the first shared resource may be switched to the first client and the second shared resource may be switched to the subscribing client.

Also by way of example above, presenter a has reserved conference room a (a second shared resource) for a time of 14:00-16:00, presenter B (first resource usage information) reserved conference room a for a time of 16:00-18:00, presenter A finds that the meeting cannot be completed before 16:00 and cannot replace the meeting room, presenter A (second resource usage information) reserves meeting room B (first shared resource) for presenter B.

If the presenter B arrives at the conference room B, the presenter a subscribes to the conference room a reserved by the presenter B, and the presenter B subscribes to the conference room B reserved by the presenter a, then in this embodiment, the presenter B (first resource usage information) matches the conference room a (second shared resource), and the presenter a (second resource usage information) matches the conference room B (first shared resource), and both can directly exchange the shared resources and can simultaneously exchange the setting information of the shared resources.

If presenter B does not reach conference room B, but instead reaches conference room C. Then in this embodiment, presenter B (first resource usage information) matches conference room a (second shared resource) and presenter a (second resource usage information) does not match conference room C (first shared resource). Conference room a (second shared resource) may be switched to presenter a (second resource usage information) and conference room C (first shared resource) may be switched to presenter B (first resource usage information). Of course, in other embodiments, the resource manager may also notify the actual reservation client of the conference room C, so that the actual reservation client of the conference room C sends a wireless signal to initiate a new round of the shared resource switching procedure.

In other embodiments, the resource manager may also notify the holder (e.g. host) of the subscription client, and the software loaded on the client is manually operated by the holder of the subscription client, so that the signaling device in the client is invoked to send the first wireless signal, which is relatively speaking, a manner of directly notifying the subscription client, so that the user does not need to manually operate, and the use is more convenient.

In some embodiments, after determining that the first client or the shared resource of the reservation client needs to be switched, the resource manager may further confirm with a user of the shared resource before switching the shared resource, and switch the shared resource after the user of the shared resource confirms that the switching is needed.

As a specific implementation manner, the resource management end may send a confirmation message to the client end that needs to switch the shared resource, and the client end may display the popup window on the display based on the confirmation message, and the user of the shared resource may manually confirm on the popup window.

Taking the shared resource as a conference room as an example, please refer to fig. 5, after determining that the conference room of the presenter a needs to be switched, the resource management end may send a confirmation message to the client a, where the client a displays the popup window shown in fig. 5 on the display, if the presenter a manually selects "determine", the resource management end switches the conference room a to the presenter a, and if the presenter a selects "cancel", the resource management end does not switch. When the presenter A and the presenter B need to exchange meeting rooms, the resource management end can sign the agreement of the presenter A and the presenter B and then switch.

When the resource management terminal switches the shared resource, the resource management terminal can switch the setting information of the shared resource. The setting information may include resource usage information such as a presenter ID of switching conference rooms, a conference ID, and the like, among others. The setting information may also include resource usage personnel information, such as a list of attendees switching meeting rooms. The setting information may also include environment setting information, such as information of preset lights/curtains/air conditioners/house numbers in the conference room, on-line audio/video conference numbers associated with the conference room, storage groups and authority members of annotation/recording files generated by the conference room tablet computer with the conference room, conference system data statistics information, and the like.

The resource management end automatically switches the setting information of the shared resource on line without manual operation of a user, thereby being convenient for the user on one hand, and enabling the related setting data of the shared resource to be automatically matched with the shared resource on the other hand, and improving the experience of the user of the shared resource.

It will be appreciated that the foregoing is merely illustrative of the setting information, and in practical applications, the setting information may further include other information, and some of the setting information may be reduced according to the use requirement.

In other embodiments, the resource manager may also send a notification to the resource user of the shared resource to alter the shared resource in the first manner. The first mode comprises at least one of software push, robot phone notification and short message notification. The robot phone notification and the short message notification are relatively easy to notify the resource user. The resource management end of the embodiment of the application can inform the shared resource user of the condition of replacing the shared resource through various ways, thereby being convenient for the resource user to acquire the updated shared resource, and the resource management end can automatically inform without manual notification, thereby being more convenient to use.

The embodiment of the application can send the wireless signal through the client to acquire the resource use information of the client. After the first client terminal changes the shared resource offline, the resource management terminal can determine whether the first client terminal and the first shared resource are matched or not by receiving the first resource use information of the first client terminal and the first shared resource identification of the first resource terminal, and when the first resource use information and the first shared resource identification are not matched, the shared resource switching program is started. The embodiment of the application can realize automatic on-line switching of the shared resource at the resource management end, does not need manual operation of a user, and can enable the user to use the shared resource more conveniently.

Fig. 6 illustrates a flow of three-way interaction between a resource management end, a resource end and a client end, where for convenience of description, a shared resource is a conference room, the resource management end is a conference system, the resource end is a conference room tablet computer, the client end is a conference host computer, the resource usage information is a conference ID, the shared resource is identified as a conference room ID, and the first wireless signal is a wireless signal with weak penetration.

In this embodiment, assume that presenter a has reserved meeting room a for a time of 14:00-16:00, presenter B subscribes to meeting room a for a time of 16:00-18:00. The reservation recordings are all recorded in the conference system. Host a finds that the conference cannot be completed before 16:00, and host a reserves conference room B for host B, which host B arrives at conference room B.

The conference of the host B is about to start, and after the first time is reached, the computer of the host B transmits a first wireless signal, and the first wireless signal carries resource usage information (first conference ID). The conference room B tablet computer receives the first wireless signal and analyzes the first wireless signal to obtain a first conference ID. The conference room B tablet computer sends the first conference ID to the conference system along with the first conference room ID of conference room B. The conference system receives the first conference ID and the first conference room ID, and if the first conference ID is judged not to match the first conference room ID, the computer of the host A is notified.

The host A computer receives the notification and then sends a first wireless signal, the first wireless signal carries a second conference ID, the conference room A tablet computer receives the first wireless signal, analyzes the first wireless signal to obtain the second conference ID, and the conference room A tablet computer sends the second conference ID and the second conference room ID of the conference room A to the conference system. The conference system receives the second conference ID and the second conference room ID, and judges that the presenter A is in the conference room A and the presenter B is in the conference room B, which is not consistent with the reservation information, wherein the reservation information is that the presenter A reserves the conference room B and the presenter B reserves the conference room A. The conference system adjusts the subscription information, switches the conference room a to the presenter a, and switches the conference room B to the presenter B. The conference system may also adjust other setup information, such as conference mode, and/or notify participants at the same time.

It should be noted that, the above reference numerals of the steps are only used to identify the steps, and are not used to indicate the sequence of the steps. Other orders of steps may be present in addition to the order in which the text is presented.

Embodiments of the present application also provide a computer-readable storage medium storing computer-executable instructions for execution by one or more processors, such as one of the processors 10 of fig. 1, to cause the one or more processors to perform the shared resource management method of any of the method embodiments described above.

Embodiments of the present application also provide a computer program product comprising a computer program stored on a non-transitory computer readable storage medium, the computer program comprising program instructions which, when executed by an electronic device, cause the electronic device to perform the shared resource management method of any of the above embodiments.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; the technical features of the above embodiments or in the different embodiments may also be combined within the idea of the invention, the steps may be implemented in any order, and there are many other variations of the different aspects of the invention as described above, which are not provided in detail for the sake of brevity; 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 technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the invention.

Claims (14)

1. A method for shared resource management, comprising:

Receiving first resource use information and a first shared resource identifier, wherein the first resource use information is obtained by analyzing a first wireless signal sent by a first client side, and the first resource side is associated equipment of the first shared resource;

and executing a shared resource switching program when a first condition is met, wherein the first condition comprises that the first resource use information is not matched with the identification of the first shared resource, and the executing the shared resource switching program comprises switching the shared resource of the first client.

2. The shared resource management method as recited in claim 1, further comprising:

sending a notification to a subscribing client of the first shared resource, the notification being for instructing the subscribing client to send a first wireless signal;

receiving second resource use information and a second shared resource identifier, wherein the second resource use information is obtained by analyzing a first wireless signal sent by the reservation client by the second resource end, and the second resource end is associated equipment of the second shared resource;

the first condition further includes: the second resource usage information is not matched with the identity of the second shared resource;

The executing the shared resource switching program when the first condition is satisfied includes:

and if the first resource usage information is not matched with the identification of the first shared resource and the second resource usage information is not matched with the identification of the second shared resource, executing a first switching program, wherein the first switching program comprises switching the shared resources of the first client and the reservation client.

3. The method of shared resource management as recited in claim 2, wherein the first condition further comprises: the first resource use information is matched with the identifier of the second shared resource, and the second resource use information is matched with the identifier of the first shared resource;

The executing the shared resource switching program when the first condition is satisfied includes:

And if the first resource usage information is not matched with the first shared resource, the second resource usage information is not matched with the second shared resource, the first resource usage information is matched with the second shared resource, the second resource usage information is matched with the first shared resource, and the first switching program is executed, wherein the first switching program comprises the step of exchanging setting information of the first shared resource and the second shared resource, and the setting information comprises at least one of the resource usage information, environment setting information and resource user information.

4. The method of claim 3, wherein the executing the first handover procedure comprises:

Transmitting a confirmation message to the first client and the reservation client, wherein the confirmation message is used for the first client and the reservation client to confirm switching of shared resources;

And exchanging setting information of the first shared resource and the second shared resource in response to the determining operation of the first client on the acknowledgement message and the determining operation of the reservation client on the acknowledgement message.

5. The method of claim 3, wherein the executing the shared resource switching program further comprises:

Sending a notification of a change to a resource user of the first shared resource and the second shared resource in a first manner;

the first mode comprises at least one of software pushing, robot phone notification and short message notification.

6. The method according to any one of claims 1-5, wherein the shared resource comprises a conference room, and the resource usage information comprises a conference room user identification and/or a conference identification.

7. The method of claim 6, wherein the first wireless signal is one of an ultrasonic signal, a microwave signal, and a millimeter wave signal;

or the first wireless signal is a wireless signal with the frequency being more than 80GH _Z.

8. A method for shared resource management, comprising:

The method comprises the steps that a resource end responds to a first wireless signal sent by a client, the first wireless signal is analyzed to obtain resource use information of the client, the resource end is associated equipment of shared resources, and the resource use information has corresponding shared resources;

Transmitting the resource use information and the identification of the shared resource associated with the resource end to a resource management end;

And the resource use information and the identification of the shared resource are used for the resource management end to confirm the execution of the shared resource switching program.

9. A method for shared resource management, comprising:

The client transmits a first wireless signal in response to reaching a first time;

and/or the number of the groups of groups,

The method comprises the steps that a client side sends a first wireless signal in response to receiving a first notification of a resource management side, wherein the first notification is used for indicating the client side to send the first wireless signal;

The first time is earlier than the first starting time, the first wireless signal carries resource usage information, and the resource usage information is used for the resource management end to confirm execution of a shared resource switching program.

10. A method of managing shared resources according to claim 8 or 9, wherein the shared resources comprise conference rooms and the resource usage information comprises conference room user identification and/or conference identification.

11. The method of claim 10, wherein the first wireless signal is one of an ultrasonic signal, a microwave signal, and a millimeter wave signal;

or the first wireless signal is a wireless signal with the frequency being more than 80GH _Z.

12. An electronic device, comprising:

a processor and a memory communicatively coupled to the processor;

the memory has stored therein computer program instructions which, when invoked by the processor, cause the processor to perform the method of any of claims 1-11.

13. A resource management system, comprising:

a resource management side electronic device for performing the method of any of claims 1-7;

a resource-side electronic device for performing the method of any one of claims 8, 10-11;

A client electronic device for performing the method of any of claims 9-11.

14. A storage medium storing computer executable instructions for causing a processor to perform the method of any one of claims 1-11.