CN111797185A - Visual space using method and device, storage medium and computer equipment - Google Patents

Abstract

The application discloses a visual space using method and device, a storage medium and computer equipment, wherein the method comprises the following steps: displaying a space map according to first attribute data of the movable space; acquiring first operation data of the space map; and generating and sending a service request based on the first operation data. According to the method and the device, the space map is visually displayed in the client based on the first attribute data corresponding to the movable space, so that the user can acquire the operation data of the user when operating the space map on the visual interface and request corresponding services for the server, the user can operate the space map and make service requests on the visual interface of the client, the movable space of the space can be conveniently called, standardized management and full utilization of the movable space are facilitated, and the value of the movable space is improved.

Description

Visual space using method and device, storage medium and computer equipment

Technical Field

The application relates to the technical field of internet, in particular to a visual space using method and device, a storage medium and computer equipment.

Background

In real life, many people have a need for a trusted space, and this need may be anytime and anywhere, such as for storage of items. This need may occur at any time or at any place, and the space needs to be very convenient and safe, and the location of the space needs to be fixed in some scenarios and needs to be transferable in some scenarios.

In the prior art, although a technical scheme for solving the problem is not provided, a similar situation can be seen. The first is a large express cabinet, which obviously cannot be popularized to any place, and the position is fixed and unchangeable, which cannot meet the scene needing to be transferred. The other is delivery boxes in takeaway delivery, which are flexible but cannot meet the requirement of security and cannot be trusted, so that anyone can open the delivery boxes and even take the delivery boxes away, which makes the objects inside unsafe.

Disclosure of Invention

According to an aspect of the present application, there is provided a visualization space using method, the method including:

displaying a space map according to first attribute data of the movable space;

acquiring first operation data of the space map;

and generating and sending a service request based on the first operation data.

According to another aspect of the present application, there is provided a visualization space usage apparatus, the apparatus including:

the first display module is used for displaying the space map according to the first attribute data of the movable space;

the first operation data acquisition module is used for acquiring first operation data of the space map;

and the service request sending module is used for generating and sending a service request based on the first operation data.

According to yet another aspect of the present application, a storage medium is provided, on which a computer program is stored, which program, when being executed by a processor, is adapted to carry out the above-mentioned visualization space usage method.

According to yet another aspect of the present application, there is provided a computer device comprising a storage medium, a processor, and a computer program stored on the storage medium and executable on the processor, the processor implementing the visualization space usage method when executing the program.

By means of the technical scheme, the visual space using method and device, the storage medium and the computer equipment provided by the application have the advantages that the client displays the space map based on the first attribute data corresponding to the movable space, and the user can operate in the space map displayed by the client, so that the client obtains the first operation data of the user on the space map, analyzes the first operation data to generate the service request, and then sends the service request to the server to perform the permission request. According to the embodiment of the application, the space map is visually displayed in the client based on the first attribute data corresponding to the movable space, so that the user can acquire the operation data of the user when the user operates the space map on the visual interface and request the server for corresponding services, the user can operate the space map and make service requests on the visual interface of the client, the movable space of the space can be conveniently called, the standardized management and the full utilization of the movable space are facilitated, and the value of the movable space is improved.

The foregoing description is only an overview of the technical solutions of the present application, and the present application can be implemented according to the content of the description in order to make the technical means of the present application more clearly understood, and the following detailed description of the present application is given in order to make the above and other objects, features, and advantages of the present application more clearly understandable.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this application, illustrate embodiment(s) of the application and together with the description serve to explain the application and not to limit the application. In the drawings:

fig. 1 is a schematic flow chart illustrating a visualization space using method provided by an embodiment of the present application;

FIG. 2 is a schematic diagram illustrating a space allocation system according to an embodiment of the present application;

FIG. 3 is a flow chart of another visualization space using method provided by the embodiment of the application;

FIG. 4 is a schematic structural diagram of a visual space utilization apparatus provided by an embodiment of the present application;

fig. 5 shows a schematic structural diagram of another visualization space usage apparatus provided in an embodiment of the present application.

Detailed Description

The present application will be described in detail below with reference to the accompanying drawings in conjunction with embodiments. It should be noted that the embodiments and features of the embodiments in the present application may be combined with each other without conflict.

In the present embodiment, a visualization space using method is provided, as shown in fig. 1, the method includes:

step 101, displaying a space map according to first attribute data of a movable space;

102, acquiring first operation data of a space map;

and 103, generating and sending a service request based on the first operation data.

In the present embodiment, there is provided a space allocation system, as shown in fig. 2, comprising: the movable space 1 and the position fixing mechanism 2, a lock 11 and a first interface 12 are arranged on the movable space 1, a second interface 21 is arranged on the position fixing mechanism 2, the lock 11 is used for opening and closing the movable space 1, the first interface 12 is matched with the second interface 21, and the position fixing mechanism 2 fixes the movable space 1 based on the locking of the first interface 12 and the second interface 21; the server 3 is used for storing the attribute information of the movable space 1 and the attribute information of the position fixing mechanism 2, and distributing the application permission of the movable space 1 and the position fixing mechanism 2 according to the service request, the attribute information of the movable space 1 and the attribute information of the fixing mechanism 2, wherein the attribute information of the movable space 1 comprises a space position, a space identifier and space occupation information, and the attribute information of the position fixing mechanism 2 comprises a mechanism position, a mechanism identifier and mechanism occupation information; and the client 4 is used for acquiring the attribute information of the movable space 1 and the position fixing mechanism 2 from the server 3 and sending a service request to the server 3 according to the attribute information.

In the present embodiment, the movable space 1 may be a box with an openable/closable lid, which requires materials capable of preventing a certain degree of violent damage in order to achieve better security for user trust; for example, aluminum alloys, rigid plastics or other strong composites, etc. may be used. The position fixing mechanism 2 may be a locking mechanism with or without a chain, one end of which is fixed to a non-movable place, such as a wall, a floor, etc., and the other end of which is locked in cooperation with the movable space 1. The movable space 1 is provided with a lock 11, the box as the movable space 1 can be opened and closed by opening and closing the lock 11, the movable space 1 is further provided with a first interface 12, the first interface 12 arranged on the movable space 1 is matched with a second interface 21 (namely the other end) arranged on the position fixing mechanism 2, and the movable space 1 can be fixed at the position of the corresponding position fixing mechanism 2 based on the locking of the first interface 12 and the second interface 21. It should be noted that the present application does not limit the specific structures of the lock 11 and the first interface 12 and the second interface 21, and those skilled in the art may adopt any lock.

It is conceivable that as anyone can register a movable space, a fixed location mechanism, meeting the specification requirements with the space distribution system, then as the number increases, people can find nearby whenever space is needed, which greatly facilitates the needs of people. For example, a user a may purchase a position fixing mechanism meeting the specification and register in the space distribution system (actually, a chain lock, one end of which may be fixed to a wall or a ground through an expansion screw or the like according to the specification, and the other end of which may be a lock head or a lock pin that can be matched with the first interface of any movable space), and may be fixed anywhere according to the assumption as long as the moral and law and regulations are not violated; similarly, a second user may purchase a removable space (e.g., a box) that meets the specifications and, after the space distribution system is registered, may have a first interface that matches a second interface of the fixed-location facility. Further, it can be used by itself or rented to others. When the number of the users A and B is increased, the number of boxes (movable spaces) and chain locks (position fixing mechanisms) on the whole space distribution system is increased, and therefore the space use requirements of the users at any time and place can be met more and more.

Further, the space allocation system further includes a server 3, where the server 3 may store the attribute information of the movable space 1 and the attribute information of the position fixing mechanism 2, and allocate, according to a service request submitted to the server by a client, an application right to the movable space 1 and an application right to the position fixing mechanism 2 to the client based on the attribute information of the movable space 1 and the attribute information of the position fixing mechanism 2. The attribute information of the movable space 1 may specifically include a space position, a space identifier, and space occupation information, and the attribute information of the position fixing mechanism 2 may specifically include a mechanism position, a mechanism identifier, and mechanism occupation information. Wherein, the space position is used for representing the position of the movable space 1, the mechanism position is used for representing the position of the position fixing mechanism 2, the space position and the mechanism position can be recorded in a longitude and latitude coordinate mode or in a position description mode in daily life, any space identifier is used for representing the corresponding unique movable space 1 so as to distinguish a certain movable space 1 from other movable spaces 1, similarly, any mechanism identifier is used for representing the corresponding unique position fixing mechanism 2 so as to distinguish a certain position fixing mechanism 2 from other position fixing mechanisms 2, the space occupation information is used for representing whether the movable space 1 is occupied currently, if occupied, the client can not request the space occupation information, the mechanism occupation information is used for representing whether the position fixing mechanism 2 is occupied currently, if occupied, it is typically not requested by the client.

It should be noted that, communication modules should be disposed on the movable space 1 and the position fixing mechanism 2, and information interaction between the movable space 1 and the server 3 and information interaction between the position fixing mechanism 2 and the server 3 can be achieved through the communication modules, for example, when the lock 11 corresponding to the movable space 1 is opened, the communication module transmits the information that the lock 11 is opened to the server, for example, the second interface 21 corresponding to the position fixing mechanism 2 is locked with the first interface 12 corresponding to the movable space 1, the communication module of the position fixing mechanism 2 transmits the information that the second interface 21 is locked to the server, and the communication module of the movable space 1 transmits the information that the first interface 12 is locked to the server. So that the server determines the occupation conditions of the movable space 1 and the position fixing mechanism 2 according to the information transmitted by the movable space 1 and the position fixing mechanism 2, thereby allocating the application authority for the movable space 1 and the position fixing mechanism 2 to the client. In addition, in the embodiment of the present invention, a short-range wireless communication module, such as a bluetooth module, may be disposed in both the movable space and the fixed location, when the user uses the movable space and the fixed location, a bluetooth connection is established with the movable space or the fixed location through the user's own terminal device, at this time, information transmission between the movable space or the fixed location and the server is performed through the user's terminal device, at this time, the user's terminal device needs to have the ability to connect to the server through a long-range communication, such as a mobile phone through a mobile communication network. In another embodiment of the present invention, the movable space may also have short-range wireless communication capability, the position fixing mechanism is not provided, after the user is connected with the movable space through the terminal equipment, the movable space can transmit information with the server through the terminal equipment of the user, and for the position fixing mechanism, the state is relatively single because once registered with the space allocation system, the location is fixed, and then the state is only used or not used, the used state and the unused state depend on whether the first interface and the second interface are connected or not, and as long as the movable space can acquire the information of whether the first interface is in the connected state or the unconnected state, the position fixing mechanism can be estimated to be in the idle state or the used state at the moment, so that the information can be transmitted to the server through the movable space. However, when the first interface is only a ring for the position fixing mechanism (such as a chain lock) to pass through and then lock on itself (which is still an embodiment of the present invention), the movable space may not sense the change of the first interface, and at this time, the information transmission with the server may be realized by means of short-range or long-range wireless communication capability on the position fixing mechanism, or the position fixing mechanism is not provided with any communication capability, and the state of the position fixing mechanism can be manually entered by the user through the terminal device.

The method shown in fig. 1 may be applied to a client of a space distribution system, where the client may display a movable space in the space distribution system, and specifically may display a space map based on first attribute data of the movable space, for example, display contents such as location information and occupancy information of the movable space through the space map. When a user wants to realize certain services through a movable space in a space map, the user can perform a series of operations on the movable space in the space map, so that when the user operates based on a space map display interface of the client, the client acquires first operation data of the user on the space map, for example, the user clicks a certain movable space in the space map, for example, the user drags a certain movable space in the space map, drags the movable space from an original position to other positions on the map, and the like. The method comprises the steps that after first operation data of a user on a space map are obtained, the first operation data are analyzed by the client, a service request corresponding to the operation data is obtained, and the obtained service request is sent to a server so that the server can respond to the service request of the client based on the service request of the client and attribute information of a movable space stored in the server.

Further, the server receives a service request sent by the client, and accordingly allocates an authority corresponding to the service request sent by the client to the corresponding client according to the service request, specifically, the service request from the client generally carries an application request for a certain movable space, and the server allocates a usage authority for the movable space to the client according to the state information of the movable space, which is stored and recorded by the server. For example, a client requests to apply a right to a movable space a, and the server determines that the movable space a is available according to the state information of the movable space a stored in the server, the application right of the movable space a may be allocated to the client. Of course, on the presentation of the spatial map, it is possible for the user to distinguish between available movable space/position fixing mechanisms and unavailable movable space/position fixing mechanisms. In this way, the user can judge by himself or herself, and even hide the movable space/position fixing mechanism that is not available to the current user, to reduce interference with the user and space occupation of the space map.

By applying the technical scheme of the embodiment, the client displays the space map based on the first attribute data corresponding to the movable space, and the user can operate in the space map displayed by the client, so that the client acquires the first operation data of the user on the space map, analyzes the first operation data to generate the service request, and sends the service request to the server to perform the permission request. According to the embodiment of the application, the space map is visually displayed in the client based on the first attribute data corresponding to the movable space, so that the user can acquire the operation data of the user when the user operates the space map on the visual interface and request the server for corresponding services, the user can operate the space map and make service requests on the visual interface of the client, the movable space of the space can be conveniently called, the standardized management and the full utilization of the movable space are facilitated, and the value of the movable space is improved.

In the space allocation system of the embodiment of the present application, specifically, the attribute information of the movable space 1 further includes a space specification and/or a space function.

In the above embodiment, the movable spaces 1 with different space specifications and space functions can be used for storing articles with different sizes and different storage requirements, for example, the space specifications can be 10L, 20L and the like, the space functions can be heat preservation, refrigeration, explosion prevention and the like, for example, when a user wants to temporarily store ice cream, the movable space 1 with the refrigeration function can be selected. The higher the explosion-proof grade is, the less easily the movable space is damaged by other people, the better the built-in articles can be preserved, of course, the higher the cost is, and the higher the corresponding renting cost is.

In the space allocation system according to the embodiment of the present application, specifically, the system further includes: and the client 4 is used for acquiring the attribute information of the movable space 1 and the position fixing mechanism 2 from the server 3 and sending a service request to the server 3 according to the attribute information.

In the above embodiment, the space distribution system further includes the client 4, the client 4 can obtain the attribute information of the movable space 1 and the position fixing mechanism 2 from the server 3, for example, if the user wants to store about 5L of ice cream, the movable space 1 with the specification of above 5L and the cooling function needs to be used, and the distance from the user is within 500m, the user can send an attribute information obtaining request to the server through the client, the request can include the location and the acceptable location range (within 500m of the location) of the user, the space specification (above 5L and below 10L) of the movable space 1, and the space function (cooling) of the movable space 1, so that the server 3 can return the movable space 1 meeting the conditions to the client 4, for example, query one movable space 1 meeting the conditions and the position fixing mechanism 2 locked with the movable space 1, the user can further send a service request to the server 3 through the client 4 to request application authority to the movable space 1 and the position fixing mechanism 2 so as to complete the corresponding service.

In the space distribution system of the embodiment of the present application, specifically, the client 4 is further configured to communicate with the server 3 and the lock 11 to perform authority verification, and unlock the lock 11 of the movable space 1 after the verification is passed; and/or the client 4 is used for communicating with the server 3 and the first interface 12 to carry out authority verification and releasing the fixed movable space 1 after the verification is passed; and/or, the client 4 is used for communicating with the server 3 and the second interface 21 to perform authority authentication, and releasing the fixed movable space 1 after the authentication is passed.

In the above embodiment, the specific application authority may include two types, one is an unlocking authority for the lock 11 on the movable space 1, and the other is an unlocking authority for the first interface 12 of the movable space 1 and the second interface 21 of the position fixing mechanism 2. For the unlocking right of the lock 11, the server 3 may assign the unlocking right of the lock 11 to the client 4, so that the client 4 communicates with the lock 11 to perform right verification, and unlock the lock 11 of the movable space 1 after the verification is passed. The locking between the first interface 12 and the second interface 21 may be that the first interface 12 locks the second interface 21, or that the second interface 21 locks the first interface 12, and therefore, for the unlocking authority between the movable space 1 and the position fixing mechanism 2, the server 3 may assign the authority to the client 4, so that the client 4 releases the locking between the first interface 12 and the second interface 21 after verifying the unlocking authority for the first interface 12, or the server 3 may assign the authority to the client 4, so that the client 4 releases the locking between the second interface 21 and the first interface 12 after verifying the unlocking authority for the second interface 21, so as to release the fixed movable space 1.

In the space allocation system of the embodiment of the present application, specifically, the server 3 is further configured to invoke an operation sequence matching the service request, and allocate the application rights of the movable space 1 and the position fixing mechanism 2 matching the operation sequence according to the operation sequence.

In the above embodiment, the server 3 may also invoke an operation sequence matched with the service request according to the service request sent by the client 4, so as to allocate corresponding application permissions to the movable space 1 and the position fixing mechanism 2 to the client 4 according to the operation sequence, where the operation sequence refers to operation tasks or operation commands executed according to a service logic sequence, and the service should be executed according to the service logic sequence, for example, a service logic sequence corresponding to the temporary storage service is: the lock 11 for opening the movable space 1, the lock 11 for closing the movable space 1, the lock 11 for re-opening the movable space 1 and the lock 11 for re-closing the movable space 1, the server 3 may assign corresponding application rights to the client 4 according to the operation task corresponding to the business logic, such as a right to open the lock 11 for the movable space 1 and a right to re-open the lock 11 for the movable space 1, wherein when assigning the right to re-open the lock 11 for the movable space 1, it should be ensured that the last operation task "closing the lock 11 for the movable space 1" corresponding to the operation task has been executed. Based on the operation sequence, the server 3 can monitor each flow task of the business operation, acquire the execution result of the operation task through information interaction among the movable space 1, the position fixing mechanism 2 and the client 4, update the attribute information of the movable space 1 and the position fixing mechanism 2 in time, and acquire the execution condition of the operation task corresponding to the business in time so as to distribute corresponding application permission to the client 4 according to the operation sequence, thereby facilitating the smooth execution of the business. The embodiment of the application constructs the concepts of the movable space 1 and the position fixing mechanism 2 in the whole social scene, establishes the safe and credible flow standard of the movable space 1, and provides great convenience for the circulation and storage of articles in the whole social scene.

Further, as a refinement and an extension of the specific implementation of the above embodiment, in order to fully illustrate the specific implementation process of the embodiment, another visualization space using method is provided, as shown in fig. 3, where the method includes:

step 201, sending an attribute data acquisition request, and receiving attribute data fed back based on the attribute data acquisition request.

In this embodiment, the client performs visual display on the space map based on the attribute data of the movable space and the position fixing mechanism, and therefore, before performing display, the client needs to acquire corresponding attribute data from the server, that is, the client sends an attribute data acquisition request to the server, where the attribute data acquisition request may be sent to the server based on active operation of a user, or a background of the client automatically sends an attribute data acquisition request to the server according to a fixed period, or when corresponding software in the client is opened, the attribute data acquisition request is automatically sent to the server, and after the attribute data acquisition request is sent to the server, the server may feed back the attribute data of the movable space and the position fixing mechanism stored by the server to the client, so that the client performs display on the space map based on the attribute data.

Step 202, a space map is displayed according to the first attribute data of the movable space and the second attribute data of the position fixing mechanism.

In the embodiment of the present application, specifically, the attribute data includes first attribute data and second attribute data, the first attribute data includes a spatial position of the movable space, the second attribute data includes a mechanism position of the position fixing mechanism, and the spatial map is used to show the spatial position and the mechanism position. In addition, the first attribute data further includes at least one of a space identifier, space occupation information, a space specification, and a space function of the movable space, and the second attribute data further includes a mechanism identifier and/or mechanism occupation information of the position fixing mechanism. All the attribute information may be displayed on the space map, or a part may be displayed on the space map as needed or set by the user.

In this embodiment, the spatial position is used for representing the position of the movable space, the mechanism position is used for representing the position of the position fixing mechanism, the spatial position and the mechanism position can be recorded in a longitude and latitude coordinate mode, any spatial identifier is used for representing a corresponding unique movable space, so that a certain movable space is distinguished from other movable spaces, similarly, any mechanism identifier is used for representing a corresponding unique position fixing mechanism, so that a certain position fixing mechanism is distinguished from other position fixing mechanisms, the space occupation information is used for representing whether the movable space is occupied currently, if occupied, the movable space cannot be requested by the request end, and the mechanism occupation information is used for representing whether the position fixing mechanism is occupied currently, and if occupied, the mechanism occupation information cannot be requested by the request end. The movable spaces with different space specifications and space functions can be used for storing articles with different sizes and different storage requirements, for example, the space specifications can be 10L, 20L and the like, the space functions can be heat preservation, refrigeration, explosion prevention and the like, and for example, when a user wants to store ice cream temporarily, the movable space with the refrigeration function can be selected. The higher the explosion-proof grade is, the less easily the movable space is damaged by other people, the better the built-in articles can be preserved, of course, the higher the cost is, and the higher the corresponding renting cost is.

In addition to representing the spatial position and the mechanism position by longitude and latitude coordinates, the spatial position and the mechanism position can also be represented by adopting a natural language description mode, for example, the representation information of a certain spatial position can be as follows: XXX way XXX number XXX cell XXX a XXX unit, 1 meter west of the unit gate. The representation can get rid of the dependence on the positioning equipment or the positioning function so as to reduce the operation cost and the use threshold, and meanwhile, the user can find the corresponding movable space or position fixing mechanism more conveniently. Meanwhile, for confirmation, corresponding marks can be arranged on the box body of the movable space and the position fixing mechanism, and the marks can be marks displayed on a space map.

In the embodiment of the present application, specifically, the spatial map is a map on which the movable space and the position fixing mechanism are attached based on a geographical map, wherein the attached positions of the movable space and the position fixing mechanism are derived from the position information in the first attribute data and the second attribute data. That is, the space map is a geographical map to which position information of the movable space and the position fixing mechanism is added.

Step 203, obtaining the request service type, and the space operation data of any movable space and the mechanism operation data of any position fixing mechanism contained in the space map.

Step 204, generating first operation data based on the space operation data and the space identifier of any movable space, the mechanism operation data and the mechanism identifier of any position fixing mechanism, and the request service type.

Step 205, based on the first operation data, generating a service request.

Wherein, step 203 may specifically include:

step 203-1, acquiring touch operation on icons corresponding to any movable space in the space map;

step 203-2, based on the touch operation, obtaining the service type and the service data corresponding to the service type, where the service data is data required for executing the service corresponding to the service type, and the first operation data includes the service type and the service data.

In the embodiment, the type of the request service and the service data required for executing the type of service are determined by acquiring the touch operation of the user in the visual space map. The present embodiment is illustrated with three service types, but the service types of the present application are not limited to the following examples.

In the first service type, the touch operation includes a selection operation of a temporary storage service type, and the service data of the temporary storage service includes a spatial position and a spatial identifier of the movable space. The method comprises the steps that a button for temporarily storing business types can be provided in a visual space map, a user selects temporary storage business through a touch temporary storage business button, in addition, touch operation is used for indicating business data besides touch of the temporary storage business button, for example, touch of a certain movable space (the movable space of an article which the user wants to temporarily store) in a single-click operation, a double-click operation, a long-press operation and the like is performed, and after the client acquires the touch operation of the user on the certain movable space, the spatial position and the spatial identification of the movable space corresponding to the touch operation are determined to be the business data. The service data and the service type represent that a user needs to execute temporary storage service, specifically, an article is temporarily stored in a movable space of the corresponding space position, first operation data is determined based on the temporary storage service type and the service data, and a service request is generated based on the first operation data.

In a second service type, the touch operation includes dragging an icon of any movable space in a space map from a first position to a second position, wherein the second position corresponds to a position fixing mechanism in the space map; step 203-2, specifically comprising: determining the service type to be a distribution service based on touch operation of dragging an icon of any movable space from a first position to a second position in the space map, and determining that the service data comprises a space identifier, the first position and the second position of the movable space.

For the distribution business type, the touch operation includes an operation of dragging a certain movable space from a first position to a second position in the space map, wherein, the position fixing mechanism corresponding to the first position of the movable space is in a locking state, the position fixing mechanism at the second position is in an idle state, after the client end obtains the touch operation, the client end can determine the service type as a distribution service based on the touch operation, and determines a space identification of the movable space, the first location and the second location as the service data, the service data and the service type characterize the need of the user to perform the delivery service, in particular to utilize the movable space of the first position to deliver the goods to the second position, and further determining first operation data based on the distribution service type and the service data, and generating a service request based on the first operation data. Of course, a button for distributing the service type may be provided in the visual space map, and the user may select the service type by touching the button.

In the third service type, the touch operation is a selection operation of a recycling service type, and the service data of the recycling service includes a space position, a space identifier and a recycling position of the movable space. The method comprises the steps that a button for providing a recovery service type can be provided in a visual space map, a user selects a recovery service through a touch recovery service button, in addition, touch operation is performed on the recovery service button, touch operation is used for indicating service data, for example, operation of dragging a certain movable space to a recovery position is included, and after the client side obtains the touch operation of the user on the certain movable space, the space position and the space identification of the movable space corresponding to the touch operation are determined to be service data. The service data and the service type represent that a user needs to execute a recovery service, specifically, a movable space of a corresponding space position is recovered to a recovery position, first operation data is determined based on the recovery service type and the service data, and a service request is generated based on the first operation data.

Step 206, based on the space authority distributor corresponding to any movable space and the authority distributor corresponding to any fixed position mechanism, a service request is sent.

In this embodiment, specifically, the first attribute data further includes a space authority distributor corresponding to the movable space, and the second attribute data further includes an authority distributor corresponding to the position fixing authority. The service request includes a first application request to any of the moveable spaces and a second application request to any of the fixed-position facilities corresponding to the first operation data.

In this embodiment, the service request is sent to the corresponding rights distributor terminal based on the space rights distributor of the movable space and the agency rights distributor of the position fixing mechanism corresponding to the service request. The movable space and the position fixing mechanism can be public or private, the movable space and the position fixing mechanism which belong to the public can be randomly called by any user, when the movable space is public, the space authority distributor is a server, and when the movable space is private, the space authority distributor is a terminal held by a private person. If the movable space is public, that is, the corresponding space authority assignor is the server, the service request can be sent to the server, and if the movable space is private, that is, the corresponding space authority is assigned to the terminal held by the privately owned person, the service request can be sent to the terminal held by the privately owned person. The sending target of the service request corresponding to the position fixing mechanism is the same as the determination method of the movable space, and details are not repeated here. In addition, if one of the movable space and the position fixing mechanism is public and the other is private, for example, the movable space is public and the position fixing mechanism is private, the request part of the service request for the movable space, i.e., the first application request, is sent to the server, and the request part of the service request for the position fixing mechanism, i.e., the second application request, is sent to the privately owned terminal.

Step 207, receiving service request feedback, where the service request feedback carries an operation sequence corresponding to the service type, a first authority for any movable space, and a second authority for any position fixing mechanism, and the operation sequence includes a plurality of ordered nodes for controlling service operation corresponding to the service request;

step 208, acquiring second operation data of the space map;

and step 209, responding to the authority operation of the first authority and the second authority according to the second operation data and the plurality of ordered nodes.

In steps 207 to 209, the client receives a service request feedback sent by the server or the privately owned terminal, where the feedback may carry an operation sequence corresponding to the service type, a first right to the corresponding movable space, and a second right to the corresponding position fixing mechanism, where the operation sequence includes a plurality of ordered nodes for controlling service execution corresponding to the service request, and the ordered nodes are used to direct the service request to be executed according to a certain service logic. In this embodiment, the server or the privately owned terminal may assign the first right and the second right required for executing the service to the client at one time, and simultaneously send an operation sequence corresponding to the service to the client, when executing the service, the client responds to the right operation corresponding to the first right and the second right based on the operation sequence and the second operation data of the user on the operation interface, for example, for the service delivery, at a stage when the user places an item into the movable space, the second operation data may be a click operation of the user on the movable space, and based on the opening right of the operation response on the movable space, the movable space is opened.

In this embodiment of the present application, specifically, at least one node in the plurality of ordered nodes is configured to obtain a first application permission for any movable space and a second application permission for any position fixing mechanism, where the plurality of ordered nodes includes a data node and an instruction node, and a node that obtains the first application permission for any movable space and the second application permission for any position fixing mechanism belongs to the instruction node.

In the above embodiment, at least one of the plurality of ordered nodes is configured to transfer the application right of the movable space and the position fixing mechanism, for example, the plurality of ordered nodes corresponding to the temporary storage service necessarily include a node configured to transfer the application right of the movable space and the position fixing mechanism from the server to the corresponding client, and a node configured to recover the application right of the client, that is, the application right of the movable space and the position fixing mechanism is recovered from the client to the server.

The plurality of ordered nodes include a data node and an instruction node, wherein the instruction node may be configured to instruct to execute a business step of applying the authority assignment and transferring the instruction, the data node refers to a node related to state information corresponding to the movable space and the position fixing mechanism, for example, after a lock of the movable space is opened, a communication module of the movable space sends a message that the lock is opened to the server, and the corresponding data node may receive the information and update the information to attribute information corresponding to the movable space for storage.

In the embodiment of the present application, specifically, the execution of any node in the operation sequence depends on the forward result of the previous node of any node.

In the above embodiment, the nodes corresponding to the service logic included in the operation sequence are ordered, and when an operation related to a certain node is executed, it is necessary to ensure that the previous operation related to the node has been executed. For example, the operation flow involved in the temporary storage service includes "article storage- > retrieval", and has a strict execution sequence, that is, only after the article storage is satisfied, the article can be stored, only after the stored article is present, the article can be retrieved, and if the article is not stored, the storage task or the retrieval task is not entered. In the service execution process based on the operation sequence, the authority of the mobile space is dynamically circulated, namely, the platform manages the authority of all devices and dynamically allocates the authority, for example, in the temporary storage service, the unlocking authority of all the locksets of the mobile space is managed by the platform, when a certain user needs to store articles, the server judges that the user has the storage authority, the unlocking authority of the locksets of the mobile space is temporarily allocated to the user, at the moment, the user can open the locksets and store the articles, and after the user closes the box door of the mobile space. During the storage of the articles, the unlocking authority of the lock in the movable space belongs to a user for placing the articles, when other users need to take out the articles, the original user needs to transfer the authority to other users through a platform or a direct point-to-point mode, when the platform judges that the user has the taking-out authority (if the user identity meets the requirement or the storage duration meets the requirement, and the like), the temporary unlocking authority of the user is allocated, the user opens a box door, and after the articles are taken out and the box door is closed, the platform withdraws the unlocking authority of the distribution box, so that the next authority is dynamically allocated according to the service. Based on the operation sequence, the server can monitor each flow of the business operation, can acquire the execution result of the operation task in real time, and timely updates the state information of the movable space and the position fixing mechanism, thereby being beneficial to the standardized management of the movable space and the position fixing mechanism.

In the embodiment of the present application, specifically, according to the execution of the plurality of ordered nodes, the space position and the space occupation information of any movable space and the mechanism occupation information of any position fixing mechanism are updated correspondingly.

In this embodiment, based on the execution of the above ordered nodes, the attribute information of the movable space and the position fixing mechanism corresponding to the service request may be updated, for example, after the movable space is moved from one position to another position and fixed in the service delivery scene, the spatial position of the movable space may be updated based on the corresponding ordered node.

Step 210, acquiring a first authority aiming at any movable space and a second authority aiming at any position fixing mechanism;

step 211, applying the first right and the second right to the movable space and the position fixing mechanism, respectively.

In step 210 and step 211, the client may directly obtain a first right for any movable space and a second right for any position fixing mechanism, apply the first right to the corresponding movable space, and apply the second right to the corresponding position fixing mechanism, thereby implementing the corresponding service.

Step 212, receiving service request feedback, where the service request feedback carries an operation sequence corresponding to the service type, and the operation sequence includes a plurality of ordered nodes for controlling service operation corresponding to the service request;

step 213, acquiring third operation data of the space map;

step 214, according to the third operation data and the ordered nodes, sending a first permission request to any movable space and a second permission request to any position fixing mechanism.

Step 215, receiving a first right corresponding to the first right request and a second right corresponding to the second right request;

and step 216, responding to the authority operation of the first authority and the second authority.

In steps 212 to 216, the service request feedback received by the client from the server or the privately owned terminal may only carry an operation sequence corresponding to the service type, and does not include the usage right of the movable space and the fixed location mechanism corresponding to the service request, in this scenario, when the user needs to apply the usage right of the movable space and the fixed location mechanism, the user may perform touch operation on the visual space map, after the client acquires the third operation data of the space map from the user, the client determines the first right request of any movable space and the second right request of any fixed location mechanism based on the third operation data and the operation sequence, and sends the first right request and the second right request, in this embodiment, after the client sends the service request, the server or the privately owned terminal does not directly allocate the usage right of the movable space and the fixed location mechanism to the client, and only the operation sequence matched with the service request is sent to the client, so that when the user needs to execute the authority operation on the movable space and the position fixing mechanism, the corresponding first authority and second authority are requested to the server, and the corresponding authority operation is responded after the first authority and the second authority are received, and the corresponding service is executed. For example, for a delivery service, a client receives an operation sequence corresponding to the delivery service, and when a movable space is desired to be opened to place an article, the movable space in a space map is clicked on a visual interface, the client obtains the click operation of a user on the movable space, and determines that a currently executed process is a stage of opening the movable space to place the article by combining with a current service execution node, and then sends a lock opening request authority for the movable space to a server, and opens a lock after receiving the lock opening request authority, so as to implement a response to an authority operation corresponding to a first authority. According to the method, the permission acquisition is combined with the service operation sequence, so that the permission request is carried out when the permission needs to be applied, and the potential danger that the permission is directly allocated to the client at one time, such as the permission is maliciously stolen, can be avoided.

Step 217, acquiring and sending first right invalidation information corresponding to the first right and second right invalidation information corresponding to the second right.

In this embodiment, after the server allocates the first right and the second right to the client according to a certain node corresponding to the service flow, in order to ensure that the service flow corresponding to the next node can be smoothly executed, the execution end information of the node needs to be acquired, and when the service flow corresponding to the node is executed and ended, that is, after the forward result of the node is acquired, the execution of the service flow corresponding to the next node can be triggered, specifically, the client can acquire and forward the first right failure information corresponding to the first right and the second right failure information corresponding to the second right to the server, in some scenarios, the client can execute the next ordered node according to the first right failure information and the second right failure information, and transfer the first right and the second right, in other scenarios, when the server obtains the first right failure information and the second right failure information, and controlling the transfer of the first authority and the second authority according to the corresponding next node in the operation sequence. For example, in a certain temporary storage service, a first right corresponding to a node where a user temporarily stores an article and takes the article out of a movable space is a right to open a lock of the movable space, a corresponding second right is a right to keep a second interface of a position fixing mechanism locked with a second interface of the movable space, first failure information may be information that the lock of the movable space is opened, and second failure information may also be information that the lock of the movable space is opened, when the first failure information and the second failure information are obtained, it is described that the service flow where the user takes the article out of the movable space is completed, the service flow corresponding to a next node may be continuously executed, the service flow corresponding to the next node is an application right of a recovery client, and then the server may recover the first right and the second right of the client according to the node, and realizing the transfer of the first authority and the second authority.

In the embodiment of the present application, specifically, the first authority includes a first authority time and/or a first authority operation, and the first authority failure information includes that the first authority time ends and/or the first authority operation is executed completely; the second authority comprises second authority time and/or second authority operation, and the second authority failure information comprises second authority time ending and/or second authority operation completion.

In this embodiment, the first right may include a first right time and/or a first right operation, where the first right time refers to a time when the client has the first right, and the first right operation refers to an operation that the client has the first right and can realize, for example, the first right time may be to open a lock of a certain movable space within 2 hours, and the first right operation may be to open the lock of a certain movable space once. Correspondingly, the first permission failure information may include that the first permission time is over and/or the first permission operation is completed, the first permission time is over, and the client no longer has the first permission after the first permission time is over, and the first permission operation is completed, that the client has realized that the first permission operation does not have the first permission any longer, for example, the completion of the first permission time may be the completion of opening the lock for the certain movable space for 2 hours, the completion of the first permission operation may be the opening of the lock for the certain movable space once, when the first permission includes both the first permission time and the first permission operation, the 2 hours are completed or the lock is opened once, and the first permission is all failed. The second authority and the second authority failure information are similar to the first authority and the first authority failure information, and are not described again. By acquiring the first permission failure information and the second permission failure information, whether the service flow corresponding to the ordered node of the operation sequence is executed or not can be timely and effectively judged, so that the flow corresponding to the next node is continuously executed, and the service is smoothly completed.

Step 218, receiving the service execution feedback, and updating the space map according to the service execution feedback.

In this embodiment, after the execution of the ordered nodes in the operation sequence is finished, the service execution feedback may be received, and the space map may be updated based on the feedback, for example, if the movable space is distributed to other locations, the space location may be updated, and if an item is placed in the movable space, the space occupation information may be updated, and so on.

When the service type is the temporary storage service, the service execution feedback comprises a space locking mark or a space unlocking mark. Step 218 may specifically be: and updating the corresponding icon of any movable space into a locking state or an unlocking state.

When the service type is a recycle service, the service execution feedback includes a recycle lock flag. Step 218 may specifically be: and updating the corresponding icon of the movable space into a locking state.

An embodiment of the present application further provides another space allocation method, which is used for a server, and as shown in fig. 3, the method includes:

step 301, a service request is obtained, wherein the service request includes a first application request for a movable space and a second application request for a position fixing mechanism.

In the embodiment of the present application, specifically, the first application request includes, but is not limited to, any one or a combination of a spatial identifier, a spatial location, a spatial specification, and a spatial function of any movable space; the second application request includes, but is not limited to, the establishment identification and/or establishment location of any of the fixed-location facilities.

In the above embodiment, the server receives the service request sent by the client, where the service request specifically includes a first application request for the movable space and a second application request for the position fixing mechanism, and it should be noted that, when the user inputs the service request to the client, the user may only input the first application request for the movable space or only input the second application request for the position fixing mechanism, and simultaneously input the service request type, and the client may generate the service request sent to the server based on the service request type in combination with the first application request for the movable space or the second application request for the position fixing mechanism input by the user, and send the service request to the server. For example, the service request type input by the user is a temporary storage service, and a first application request for the movable space is input at the same time, assuming that the first application request includes a position range of a target movable space (within 500m from the current position of the user), a space specification of the movable space (above 5L and below 10L), and a space function (refrigeration) of the movable space, the client may automatically generate a second application request for the position fixing mechanism according to the temporary storage service type input by the user, and the second application request for the position fixing mechanism should be locked with the target movable space. For another example, if the service request type is a temporary storage service, the user inputs a second application request to the location fixing mechanism, and if the second application request includes a mechanism location of the target location fixing mechanism, the client may determine the first application request according to the second application request in combination with the service type, where the first application request in the movable space is a spatial location that is the same as the mechanism location.

That is, the first application request may be a space identifier, a space location, a space specification, a space function of any movable space, or may be other conditions input by a user (for example, a location range of a target movable space), or may be a first application request generated in combination with a service type according to a second application request input by a user, and the second application request may be an organization identifier, an organization location of any position fixing mechanism, or may be other conditions input by a user (for example, a location range of a position fixing mechanism), or may be a second application request generated in combination with a service type according to a first application request input by a user.

Step 302, according to the first application request and the second application request, inquiring space occupation information corresponding to the movable space satisfying the first application request and mechanism occupation information corresponding to the position fixing mechanism satisfying the second application request.

Step 303, if the space occupation information indicates that the movable space is available and the mechanism occupation information indicates that the position fixing mechanism is available, sending a request success feedback.

In the above embodiment, the server may query whether there is a movable space and a location fixing mechanism that satisfy the request according to the first application request and the second application request, where satisfying the service request includes two aspects, one is that there is a movable space and a location fixing mechanism that satisfy the request condition, and the other is that the movable space and the location fixing mechanism that satisfy the request condition may be occupied within the corresponding request time, for example, in the temporary storage service, an application permission for a certain movable space for 2 hours and an application permission for a corresponding location fixing mechanism for 2 hours are requested, and then when other service requests need to occupy the movable space and/or the location fixing mechanism within the 2 hours, other service requests will fail to request. And for the service request with successful request, request success feedback is sent to the corresponding client, so that after the client receives the request success feedback, the user can hold the client to complete the corresponding service operation.

Step 304, call the operation sequence matched with the service request.

In any embodiment of the present application, specifically, the operation sequence includes a plurality of ordered nodes for controlling service operations corresponding to the service request, and at least one of the plurality of ordered nodes is used for transferring application permissions of the movable space and the position fixing mechanism.

In the above embodiment, the operation sequence includes a plurality of ordered nodes matched with the service types corresponding to the service requests, where the ordered nodes are used to instruct the service requests to be executed according to a certain service logic, and at least one of the plurality of ordered nodes is used to transfer the application permissions of the movable space and the position fixing mechanism, for example, the plurality of ordered nodes corresponding to the temporary storage service necessarily include a node used to transfer the application permissions of the movable space and the position fixing mechanism from the server side to the corresponding client side, and a node used to recover the application permissions of the client side, that is, the application permissions of the movable space and the position fixing mechanism are recovered from the client side to the server.

In any embodiment of the present application, specifically, the plurality of ordered nodes include a data node and an instruction node, and the node transferring the application authority of the movable space and the position fixing mechanism belongs to the instruction node.

In the above embodiment, the plurality of ordered nodes include a data node and an instruction node, where the instruction node may be used to instruct to execute business steps of application authority assignment and instruction transfer, the data node refers to a node related to state information corresponding to the movable space and the position fixing mechanism, for example, after a lock of the movable space is opened, a communication module of the movable space sends a message that the lock is opened to the server, and the corresponding data node may receive this information and update the information into attribute information corresponding to the movable space for storage.

In any embodiment of the present application, specifically, the execution of any node in the operation sequence depends on the forward result of the previous node of any node.

In the above embodiment, the nodes corresponding to the service logic included in the operation sequence are ordered, and when an operation related to a certain node is executed, it is necessary to ensure that the previous operation related to the node has been executed. For example, the operation flow involved in the temporary storage service includes "article storage- > retrieval", and has a strict execution sequence, that is, only after the article storage is satisfied, the article can be stored, only after the stored article is present, the article can be retrieved, and if the article is not stored, the storage task or the retrieval task is not entered. In the service execution process based on the operation sequence, the authority of the mobile space is dynamically circulated, namely, the platform manages the authority of all devices and dynamically allocates the authority, for example, in the temporary storage service, the unlocking authority of all the locksets in the mobile space is managed by the platform, when a certain user needs to store articles, the unlocking authority of the locksets in the mobile space is temporarily allocated to the user, and at the moment, the user can open the locksets and store the articles, and when the user closes the box door of the mobile space. During the storage of the articles, the unlocking authority of the lock in the movable space belongs to a user for placing the articles, when other users need to take out the articles, the original user needs to transfer the authority to other users through a platform or a direct point-to-point mode, when the platform judges that the user has the taking-out authority (if the user identity meets the requirement), the unlocking authority of the user is allocated to the user, the user opens a box door, and after the articles are taken out and the box door is closed, the platform withdraws the unlocking authority of the distribution box so as to perform dynamic allocation of the next authority according to the service. Based on the operation sequence, the server can monitor each flow of the business operation, can acquire the execution result of the operation task in real time, and timely updates the state information of the movable space and the position fixing mechanism, thereby being beneficial to the standardized management of the movable space and the position fixing mechanism.

For better illustration of the present invention, the following detailed examples illustrate an embodiment of an operation sequence of a staging service and an embodiment of an operation sequence of a distribution service:

the temporary storage service 1: the first user wants to temporarily store the article in the movable space X, the movable space X is fixed by the position fixing mechanism Y, and then the first user logs in the APP or the webpage through the mobile phone to log in the platform, scans the two-dimensional code on the X or inputs the number on the X, and selects information such as the service type (the required information can refer to the above related description), thereby initiating the service request. After receiving the service request, the platform judges that the service is a temporary storage service, and then calls a temporary storage operation sequence. The sequence of operations at this time is as follows:

(1) determining that the first user identity meets the requirements;

(2) distributing the authority of the first user for starting X;

(3) receiving X uncapping information and XY locking state information;

(4) receiving X cover closing information and XY locking state information;

(5) receiving X uncapping information and XY locking state information;

(6) receiving X cover closing information and XY locking state information;

(7) and recovering the authority of the user A for opening the X.

For (2), the user right of the first user to the Y is allocated by default, and the temporary storage service XY cannot be unlocked, so that the default is provided. (3) The XY locking state information is acquired in (6) to ensure that X is not moved, when the XY locking state information is not acquired, the abnormality is indicated, and the platform calls a corresponding processing program according to the abnormal condition; note that, the XY locked state information here is usually expressed in a reverse direction, that is, if XY unlocked information is not received (the unlocked description X is released from Y and is out of control), it is considered that XY locked state information is received. In an actual product, the information transmission mode of the marking bit can be used.

For the operation sequence, each step depends on the completion of the previous step, if the previous step is not completed, the next step is not executed, and a corresponding abnormal program is started. For example, if the user A in the step (1) is found to be a blacklist user, the user A directly stops and does not go to the step (2); if (3) no XY locked state information is received, it indicates that X is illegally released from Y and will not be executed any more.

In another embodiment of the present invention, the above (6) and (7) can exchange positions, that is:

(6) recovering the permission of opening X of the user A;

(7) and receiving the X cover closing information.

Therefore, the recovery of the first user permission can be carried out at the cover opening time when the temporary storage service is completed, and can also be carried out at the cover closing time when the temporary storage service is completed. When X cover closing information is not received at last, the server can remind the first user to perform cover closing action so as to prevent the first user from being illegally used by others and damaging X.

And (3) temporary storage service 2: the first user temporarily stores the article in the X movable space, the X movable space is fixed by the position fixing mechanism Y, and the second user agrees to take out the article in the X. Then, the first user logs in the APP or the web page to the platform through the mobile phone, and initiates a service request by scanning the two-dimensional code on the X or inputting the number on the X and selecting information such as the service type (the required information may refer to the above-mentioned related description, which includes information of the second user, such as the user account, the mobile phone number, and the like). After receiving the service request, the platform judges that the service is a temporary storage service, and then calls a temporary storage operation sequence.

The sequence of operations at this time is as follows:

(1) determining that the identities of the first user and the second user meet the requirements;

(2) distributing the authority of the first user for starting X;

(3) receiving X uncapping information and XY locking state information;

(4) receiving X cover closing information and XY locking state information;

(5) recovering the permission of the user A to open the X, and acquiring XY locking state information;

(6) distributing the authority of the user B for starting the X, and acquiring XY locking state information;

(7) receiving X uncapping information and XY locking state information;

(8) receiving X cover closing information and XY locking state information;

(9) and recovering the authority of the user B for opening the X.

Similar parts in this embodiment may refer to corresponding parts of the above embodiments. It should be noted that, as in the above embodiment, the XY lock status information is similar to the heartbeat information, and as long as there is no service related to the X transfer, this information should be present and acquired all the time. That is, even if the right is finally recovered, the heartbeat information, that is, the XY lock state information should be maintained even when there is no traffic. However, when there is no service, this is so that no user terminal can act as an intermediary for communication with the server, and therefore in some embodiments it is required that either X or Y needs to have such telecommunications capability.

Delivery service 1: the first user wants to send an article to the second user, and the first user and the second user are far away from each other, so that the first user and the second user need to be matched by a distribution worker, and the first user and the second user can be full-time workers or social public. At this moment, the first item needs to be put into the X, then the system dispatches the delivery personnel to the Y position where the X is fixed and releases the fixation, then the X is sent to the Z position fixing mechanism where the second user is located and establishes the locking of the X and the Z, and then the second user comes to the Z position to open the X to take the item, or directly releases the locking between the X and the Z, and takes the item together with the movable space and the item therein (namely the X and the item therein). Of course, if they are to be taken together, they usually require more money to be paid by A or B, e.g., more X rental fees, etc. In this case, the sequence of operations may be as follows:

(1) determining that the identities of the first user and the second user meet the requirements;

(2) distributing the authority of the first user for starting X;

(3) receiving X uncapping information and XY locking state information;

(4) receiving X cover closing information and XY locking state information;

(5) recovering the permission of the user A to open the X, and acquiring XY locking state information;

(6) distributing a distributor C to obtain XY locking state information;

(7) receiving confirmation information of a distributor C and XY locking state information;

(8) allocating XY unlocking authority to third, and acquiring XY locking state information;

(9) receiving XY unlocking information;

(10) assigning an XZ lock authority to the third;

(11) receiving XZ locking information;

(12) informing a user B, distributing the authority of the user B to open the X, and receiving XZ locking information;

(13) receiving X uncapping information and XZ locking information;

(14) receiving X cover closing information and XZ locking information;

(15) and recovering the authority of the user B for opening the X.

Among them, (10) it can be seen that the locking of the movable space and the position fixing mechanism in the present embodiment also requires the authority control, which can be referred to the above-related description. As also described above, the lock state information between the movable space and the position fixing mechanism (in this embodiment, the lock state information between XY and XZ) is similar to the heartbeat information, but is limited in that it will increase the cost if the information is received in real time, and therefore, some key nodes can be selected to confirm the information. For example, after a bluetooth connection or other close range communication is established between a user's terminal and a movable space or a position fixing mechanism, the lock state information may be fed back to the server through the remote communication capability of the user's terminal at these times.

In another embodiment of the present invention, when the second user needs to be taken away together with the movable space in the distribution service 2, on the basis of the above embodiment, the following steps are changed from (12):

(12) informing a user B, distributing the authority of the user B to remove XZ locking and open X, and receiving XZ locking information;

(13) receiving XZ unlocking information;

(14) receiving uncapping information of the X;

(15) receiving X cover closing information;

(16) and recovering the authority of the user B for opening the X and the authority for releasing the XZ lock.

It can be understood that the information that needs to be provided by the user terminal and is needed for the operation of the service, whether the service is temporarily stored or distributed, is also sent to the server by the user terminal. For example, the ID and location description of the location fixing mechanism where the recipient is located, the name and mobile phone number of the recipient, and other information.

As described in the above embodiments, since general services depend on locking or unlocking between the movable space and the position fixing mechanism. When in the locked state, the use of the movable space necessarily involves the use of the position fixing mechanism locked therewith, and thus the right to use the corresponding position fixing mechanism can be assigned by default. Based on this, when a user requests a service, if the service request includes using a mobile space, the user also requests the position fixing mechanism corresponding to the mobile space and the service by default. The above defaults may be performed on the server side, or the default may be converted into information on the terminal side and transmitted to the server. With the use request, when the use request passes, it is natural to switch to the management of the use authority. In another case, that is, if all the location fixing facilities or the location fixing facilities requested to be used by the service request are provided for the operator for free, or the usage cost thereof is already included in the usage cost of the movable space, the service request may not include the usage request for the location fixing facilities, and the usage may be performed when the usage is required, but this does not mean that the lock authority between the movable space and the location fixing facilities is not controlled.

And 305, distributing corresponding movable spaces and application authorities of the position fixing mechanisms according to the operation sequence.

Based on the first application request and the second application request corresponding to the service request, in the embodiment of the present application, specifically, according to the first application request, the second application request, and the corresponding node, a first right to the movable space and a second right to the position fixing mechanism are allocated.

In step 305, after the operation sequence is invoked, according to the first application request and the second application request included in the service request, a first right to the movable space and a second right to the position fixing mechanism are allocated to the client according to the ordered node corresponding to the operation sequence, and the right allocated to the client needs to be matched with the ordered node corresponding to the operation sequence.

Specifically, according to the execution of the service corresponding to the service request controlled by the plurality of ordered nodes, when the service is executed to a node for transferring the application authority of the movable space and the position fixing mechanism, the application authority is transferred under the control of the node.

In the above embodiment, when a service is executed to a node that transfers application permissions of the movable space and the position fixing mechanism, the control server based on the node allocates the application permissions to the movable space and the position fixing mechanism to the client, or the control server based on the node withdraws the application permissions to the movable space and the position fixing mechanism from the client, specifically, whether the allocation permissions or the withdrawal permissions are logically matched with the service corresponding to the node.

Step 306, acquiring first permission invalidation information corresponding to the first permission and second permission invalidation information corresponding to the second permission.

And 307, controlling the transfer of the first authority and the second authority according to the first authority invalidation information, the second authority invalidation information and the operation sequence.

In steps 306 to 307, after a first permission and a second permission are allocated to the client according to a certain node corresponding to the service flow, in order to ensure that the service flow corresponding to the next node can be executed smoothly, execution end information of the node needs to be acquired, when the execution of the service flow corresponding to the node is ended, that is, after a forward result of the node is acquired, the execution of the service flow corresponding to the next node can be triggered, specifically, first permission failure information corresponding to the first permission and second permission failure information corresponding to the second permission are acquired, and when the first permission failure information and the second permission failure information are acquired, the transfer of the first permission and the second permission is controlled according to the next node corresponding to the operation sequence. For example, in a certain temporary storage service, a first right corresponding to a node where a user temporarily stores an article and takes the article out of a movable space is a right to open a lock of the movable space, a corresponding second right is a right to keep a second interface of a position fixing mechanism locked with a second interface of the movable space, first failure information may be information that the lock of the movable space is opened, and second failure information may also be information that the lock of the movable space is opened, when the first failure information and the second failure information are obtained, it is described that the service flow where the user takes the article out of the movable space is completed, the service flow corresponding to a next node may be continuously executed, the service flow corresponding to the next node is an application right of a recovery client, and then the server may recover the first right and the second right of the client according to the node, and realizing the transfer of the first authority and the second authority.

In any embodiment of the present application, specifically, the first authority includes a first authority time and/or a first authority operation, and the first authority failure information includes that the first authority time ends and/or the first authority operation is executed completely; the second authority comprises second authority time and/or second authority operation, and the second authority failure information comprises second authority time ending and/or second authority operation completion.

In the above embodiment, the first right may include a first right time and/or a first right operation, where the first right time refers to a time when the client has the first right, and the first right operation refers to an operation that the client has the first right and can realize, for example, the first right time may be to open a lock of a certain movable space within 2 hours, and the first right operation may be to open the lock of the certain movable space once.

Correspondingly, the first permission failure information may include that the first permission time is over and/or the first permission operation is completed, the first permission time is over, and the client no longer has the first permission after the first permission time is over, and the first permission operation is completed, that the client has realized that the first permission operation does not have the first permission any longer, for example, the completion of the first permission time may be the completion of opening the lock for the certain movable space for 2 hours, the completion of the first permission operation may be the opening of the lock for the certain movable space once, when the first permission includes both the first permission time and the first permission operation, the 2 hours are completed or the lock is opened once, and the first permission is all failed. The second authority and the second authority failure information are similar to the first authority and the first authority failure information, and are not described again. By acquiring the first permission failure information and the second permission failure information, whether the service flow corresponding to the ordered node of the operation sequence is executed or not can be timely and effectively judged, so that the flow corresponding to the next node is continuously executed, and the service is smoothly completed.

And 308, correspondingly updating the space position and the space occupation information of the movable space and the mechanism occupation information of the position fixing mechanism according to the execution of the plurality of ordered nodes.

In the above embodiment, when the service flow corresponding to the ordered node of the operation sequence is executed, the server may further obtain the space position and the space occupation information of the movable space and the mechanism occupation information of the position fixing mechanism according to the flow execution condition, so as to update the attribute information of the movable space and the position fixing mechanism stored in the server in time.

Step 309, receiving a first registration request of a movable space and/or a second registration request of a position fixing mechanism;

step 310, checking the first registration request according to a preset first registration condition and/or checking the second registration request according to a preset second registration condition;

and 311, if the first registration request is approved, registering the corresponding movable space according to the first registration request and sending first registration request passing information, and/or if the second registration request is approved, registering the corresponding position fixing mechanism according to the second registration request and sending second registration request passing information.

In steps 309 through 311, the amount of space available for movement in the space distribution system and the position fixing mechanisms may be increased or decreased, taking the example of adding the movable space and/or the position fixing mechanism as an example, a registered user may submit a first registration request for the movable space and/or a second registration request for the position fixing mechanism to the server through the client, where the first registration request should carry attribute information of the movable space to be registered, lock specification information, first interface specification information, communication module information, and the like, and the second registration request should carry attribute information of the position fixing mechanism to be registered, second interface specification information, communication module information, and the like, and after receiving the first registration request and the second registration request, and checking the first registration request according to a preset first registration condition and checking the second registration request according to a preset second registration condition respectively. The preset first registration condition may include that the lock specification of the movable space meets preset lock specification requirements (for example, the lock specification of the movable space is the same as the lock specification of other movable spaces or meets the model requirements), the first interface specification of the movable space meets preset first interface specification requirements (for example, the first interface of the position fixing structure is matched with the second interface of the position fixing structure), the movable space is provided with a communication module capable of realizing communication between the client and the server, the preset second registration condition may include that the second interface specification of the position fixing mechanism meets preset second interface specification requirements (for example, the second interface of the position fixing mechanism is matched with the first interface of the movable space), the position fixing mechanism is provided with a communication module capable of realizing communication between the client and the server, and the.

In the embodiment of the present application, the operation sequences corresponding to different service requests are different, and the same service may also correspond to different operation sequences.

The operation sequence of the temporary storage service can be set to corresponding ordered nodes based on the lock opening time constraint condition, and can also be set to corresponding ordered nodes based on the lock opening time constraint condition.

The ordered nodes corresponding to the complete business process set based on the lock opening time constraint condition may specifically include: the method comprises the steps of distributing a node for opening the authority of the movable space lockset for the first time, confirming a node for opening the movable space lockset for the first time, confirming a node for closing the movable space lockset for the first time, recovering a node for opening the authority of the movable space lockset for the first time, distributing a node for opening the authority of the movable space lockset for the second time, confirming a node for opening the movable space lockset for the second time, confirming a node for closing the movable space lockset for the second time, and recovering a node for opening the movable space lockset for the second time. In order to simplify the steps of executing the service flow, for the above service complete flow, the following several setting modes of the ordered nodes corresponding to the temporary storage service may also be adopted:

the first method is as follows: distributing nodes for opening the lock authority of the movable space, confirming the nodes for secondarily opening the lock of the movable space, and recovering the nodes for opening the lock authority of the movable space.

The nodes for distributing the authority for opening the movable space lock specifically comprise nodes for distributing the authority for opening the movable space lock once and nodes for distributing the authority for opening the movable space lock twice, after the movable space lock is confirmed to be opened twice based on the nodes for confirming the movable space lock to be opened twice (after the authority for opening the movable space lock is distributed twice, if a message for opening the lock is obtained, the lock can be considered to be opened twice), the nodes for recovering the authority for opening the movable space lock execute an authority recovery instruction, the application authority is recovered to the server side from the client side, and the client side does not have the application authority to the movable space and the position fixing mechanism any more.

The second method comprises the following steps: the operation sequence comprises a node for distributing and opening the authority of the movable space lockset, a node for confirming the secondary closing of the movable space lockset and a node for recovering and opening the authority of the movable space lockset.

The nodes for distributing and opening the authority of the movable space lock can specifically comprise nodes for distributing and opening the authority of the movable space lock for the first time and nodes for distributing and opening the authority of the movable space lock for the second time, after the movable space lock is confirmed to be closed twice based on the nodes for confirming and closing the movable space lock for the second time (after the opening authority of the movable space lock is distributed twice, if a message that the lock is closed is obtained, the lock is considered to be closed twice), the nodes for recovering and opening the authority of the movable space lock execute an authority recovery instruction, the application authority is recovered to the server side from the client side, and the client side does not have the application authority to the movable space and the position fixing mechanism any more.

The third method comprises the following steps: the operation sequence comprises a node for distributing the authority of opening the movable space lock, a node for confirming the secondary successful verification of the unlocking authority and a node for recovering the authority of opening the movable space lock.

The nodes for distributing and opening the authority of the movable space lock can specifically comprise nodes for distributing and opening the authority of the movable space lock for the first time and nodes for distributing and opening the authority of the movable space lock for the second time, after the unlocking authority of the movable space lock is confirmed to be successfully verified twice based on the nodes for confirming the unlocking authority for the second time, if the unlocking authority of the movable space lock is obtained and verified successfully, the unlocking authority of the lock can be considered to be verified twice, the nodes for recovering and opening the authority of the movable space lock execute an authority recovery instruction, the application authority is recovered to the server side from the client side, and the client side does not have the application authority to the movable space and the position fixing mechanism any more.

In summary, the ordered nodes set based on the lock opening time constraint condition may adopt several setting modes, but no matter which setting mode is adopted, the corresponding complete business process is not changed, and only the condition that the node triggering to recover and open the lock authority of the movable space corresponds to the business process is changed. The recovery node can be triggered to execute after the lock is successfully verified to be opened for the second time and/or the lock is closed for the second time.

The ordered nodes corresponding to the complete business process set based on the lock opening time constraint condition may specifically include: distributing nodes for opening the lock authority of the movable space, confirming the nodes for finishing timing and recovering the nodes for opening the lock authority of the movable space.

The node for distributing and opening the movable space lock can distribute the right for opening the lock to the client side, so that the client side has the right for opening the movable space lock within the set time, and the right recovery instruction is executed based on the node for recovering and opening the right of the movable space lock after the fact that the right for opening the lock is expired based on the node for confirming timing is confirmed, the application right is recovered to the server side from the client side, and the client side does not have the application right for the movable space and the position fixing mechanism any more. An embodiment of an operational sequence based thereon may be as follows, with the above examples of relevant parts being followed:

(1) determining that the first user identity meets the requirements;

(2) determining that the XY service duration T in a service request sent by a first user meets the requirement;

(3) distributing the authority of the first user for starting X, and counting down T;

(4) the countdown T is over, and XY is in a locked state

(5) And recovering the authority of the user A for opening the X.

The service request in the embodiment of the present application may further include a service delivery, and the ordered node corresponding to the complete service flow of the service delivery may specifically include: the source user puts the articles into the nodes corresponding to the movable space stage, the distribution personnel distributes the nodes corresponding to the movable space stage, and the target user takes the articles out of the movable space.

The source user puts the article into the node corresponding to the movable space stage: distributing a node for a source user to open the authority of the movable space lock, confirming that the source user successfully verifies the node for opening the authority of the movable space lock, confirming that the source user opens the movable space lock, confirming that the source user closes the movable space lock, and recovering the node for the source user to open the authority of the movable space lock;

the distribution personnel distribute the nodes corresponding to the movable space stage: a node for distributing delivery personnel to unlock the locking authority of the first interface of the movable space and the second interface of the source position fixing mechanism, a node for confirming that the delivery personnel successfully verify the unlocking authority of the first interface of the movable space and the second interface of the source position fixing mechanism, a node for confirming that the delivery personnel unlock the locking authority of the first interface of the movable space and the second interface of the source position fixing mechanism, a node for recovering the locking authority of the delivery personnel to unlock the first interface of the movable space and the second interface of the source position fixing mechanism, a node for distributing the locking authority of the first interface of the movable space and the second interface of the target position fixing mechanism, a node for confirming that the delivery personnel successfully verify the locking authority of the first interface of the movable space and the second interface of the target position fixing mechanism, a node for confirming that the delivery personnel lock the first interface of the movable space and the second interface of the target position fixing mechanism, a node for distributing the, Recovering nodes of the authority of the first interface of the movable space locked by the distribution personnel and the second interface of the target position fixing mechanism;

and (3) recovering the node of the source user for opening the lock authority of the movable space: the method comprises the steps of distributing nodes for opening the authority of the movable space lock by a target user, confirming the nodes for successfully verifying the authority for opening the movable space lock by the target user, confirming the nodes for closing the movable space lock by the target user and recovering the nodes for opening the authority of the movable space lock by the target user.

An embodiment of the distribution service 3 based on this operation sequence is as follows, and this embodiment also follows the description in the related embodiments above, where a user is a source user, a user is a target user, and a person is a distributor:

(1) determining that the identities of the first user and the second user meet the requirements;

(2) distributing the authority of the first user for starting X;

(3) receiving information that the user A successfully verifies the authority of opening the X and XY locking state information;

(4) receiving X uncapping information and XY locking state information;

(5) receiving X cover closing information and XY locking state information;

(6) recovering the permission of the user A to open the X, and acquiring XY locking state information;

(7) distributing a distributor C to obtain XY locking state information;

(8) receiving confirmation information of a distributor C and XY locking state information;

(9) allocating XY unlocking authority to third, and acquiring XY locking state information;

(10) receiving information that the verification of the XY locking is successful;

(11) receiving XY unlocking information;

(12) recovering rights to relieve XY locks

(13) Assigning an XZ lock authority to the third;

(14) receiving information that the third party successfully verifies the XZ locking authority

(15) Receiving XZ locking information;

(16) recovering the XZ locking right of the propane;

(17) informing a user B, distributing the authority of the user B to open the X, and receiving XZ locking information;

(18) receiving information that a user B successfully verifies the authority of opening the X, and receiving XZ locking information;

(19) receiving X uncapping information and XZ locking information;

(20) receiving X cover closing information and XZ locking information;

(21) and recovering the authority of the user B for opening the X.

In various embodiments of the present invention, relevant portions may be referred to one another.

In order to simplify the steps of executing the service flow, for the above-mentioned complete service flow, the following several setting modes of the ordered nodes corresponding to the distributed services may also be adopted:

the first method is as follows: the operation sequence corresponding to the distribution business comprises a node for distributing a source user to open the movable space lock, a node for distributing distribution personnel to unlock the lock between the first interface of the movable space lock and the second interface of the source position fixing mechanism, a node for distributing a target user to open the movable space lock, and a node for recovering and opening the movable space lock.

The second method comprises the following steps: the operation sequence corresponding to the distribution service comprises a node for opening the movable space lock by a distribution source user, a node for recovering the authority for opening the movable space lock by the distribution source user, a node for distributing distribution personnel to unlock the lock between a first interface of the movable space lock and a second interface of the source position fixing mechanism, a node for distributing a target user to open the movable space lock, and a node for recovering and opening the movable space lock.

The third method comprises the following steps: the node for distributing the authority of the source user to open the movable space lock, the node for confirming that the source user closes the movable space lock, the node for distributing the distribution personnel to remove the locking authority between the first interface of the movable space lock and the second interface of the corresponding source position fixing mechanism, the node for confirming that the distribution personnel remove the locking authority between the first interface and the second interface of the source position fixing mechanism, the node for confirming that the distribution personnel lock the first interface and the second interface of the target position fixing mechanism, the node for distributing the target user to open the movable space lock and the node for recovering the authority of opening the movable space lock.

The method is as follows: the method comprises the steps of distributing a node for a source user to open the authority of the movable space lock, confirming the node for the source user to close the movable space lock, distributing distribution personnel to unlock the locking authority between a first interface of the movable space lock and a second interface of a corresponding source position fixing mechanism, confirming the node for the distribution personnel to unlock the locking between the first interface and the second interface of the source position fixing mechanism, recovering the authority for the source user to open the movable space lock, confirming the node for the distribution personnel to lock the first interface and the second interface of the target position fixing mechanism, distributing the node for the target user to open the authority of the movable space lock, and recovering the node for opening the authority of the movable space lock.

The embodiment of the application further provides an authority distribution method, which is used for a server and comprises the following steps:

step 401, a service request is received, wherein the service request includes a first application request for a movable space and a second application request for a position fixing mechanism.

In step 401, specifically, the first application request includes, but is not limited to, any one or combination of a space identifier, a space location, a space specification and a space function of any movable space; the second application request includes, but is not limited to, the establishment identification and/or establishment location of any of the fixed-location facilities. In order to adapt to articles with different sizes and different storage requirements, the movable space can be various, for example, the space specification can be 10L, 20L and the like, the space function can be heat preservation, refrigeration, explosion prevention and the like, for example, if a user wants to store ice cream temporarily, the user can select the movable space with the refrigeration function. The higher the explosion-proof grade is, the less easily the movable space is damaged by other people, the better the built-in articles can be preserved, of course, the higher the cost is, and the higher the corresponding renting cost is.

In the above embodiment, the server receives the service request sent by the client, where the service request specifically includes a first application request for the movable space and a second application request for the location-fixed mechanism, it should be noted that, when the user inputs the service request to the client, the user may only input the first application request for the movable space, or only input the second application request for the location-fixed mechanism while inputting the service request type, and the client may generate the service request sent to the server based on the service request type in combination with the first application request for the movable space input by the user or the second application request for the location-fixed mechanism, and send the service request to the server. For example, the service request type input by the user is a temporary storage service, and a first application request for the movable space is input at the same time, assuming that the first application request includes a position range of a target movable space (within 500m from the current position of the user), a space specification of the movable space (above 5L and below 10L), and a space function (refrigeration) of the movable space, the client may automatically generate a second application request for the position fixing mechanism according to the temporary storage service type input by the user, and the second application request for the position fixing mechanism should be locked with the target movable space. For another example, if the service request type is a temporary storage service, the user inputs a second application request to the location fixing mechanism, and if the second application request includes a mechanism location of the target location fixing mechanism, the client may determine the first application request according to the second application request in combination with the service type, where the first application request in the movable space is a spatial location that is the same as the mechanism location.

That is, the first application request may be a space identifier, a space location, a space specification, a space function of any movable space, or may be other conditions input by a user (for example, a location range of a target movable space), or may be a first application request generated in combination with a service type according to a second application request input by a user, and the second application request may be an organization identifier, an organization location of any position fixing mechanism, or may be other conditions input by a user (for example, a location range of a position fixing mechanism), or may be a second application request generated in combination with a service type according to a first application request input by a user.

Step 402, according to the first application request and the second application request, inquiring space occupation information corresponding to the movable space meeting the first application request and mechanism occupation information corresponding to the position fixing mechanism meeting the second application request.

And step 403, if the space occupation information indicates that the movable space is available and the mechanism occupation information indicates that the position fixing mechanism is available, sending request success feedback, otherwise, sending request failure feedback.

In steps 402 to 403, the server may query whether there is a movable space and a location fixing mechanism that satisfy the request according to the first application request and the second application request, where satisfying the service request includes two aspects, that is, there is a movable space and a location fixing mechanism that meet the request condition, and that the movable space and the location fixing mechanism that meet the request condition may be occupied within the corresponding request time, for example, in the temporary storage service, an application permission for a certain movable space for 2 hours and an application permission for a corresponding location fixing mechanism for 2 hours are requested, and then when other service requests need to occupy the movable space and/or the location fixing mechanism within the 2 hours, other service requests will fail to request. For a service request with a successful request, request success feedback should be sent to the corresponding client, so that after the client receives the request success feedback, the user can hold the client to complete the corresponding service operation, and correspondingly, for a service request with a failed request, request failure feedback should be sent to the corresponding client, so that the client holder knows that the requested service cannot be realized, so that the user can timely select other movable spaces, position fixing mechanisms or other modes to complete the purpose, and the user service is prevented from being delayed.

And step 404, inquiring a first ownership of the movable space and a second ownership of the position fixing mechanism according to the first application request and the second application request based on the request success feedback.

Step 405, if the first home right indicates that the movable space and the second home right indicates that the position fixing mechanism is public, invoking an operation sequence matched with the service request.

In step 406, a first right of the movable space and a second right of the position fixing mechanism are assigned according to the operation sequence.

In steps 404 to 406, if the movable space and the location fixing mechanism requested by the user are available, the first right of ownership of the movable space and the second right of ownership of the location fixing mechanism are further queried according to the attribute information of the movable space and the location fixing mechanism pre-stored in the server.

In the embodiment of the present application, it is specified that the mobile space and the location fix mechanism belonging to the public can be invoked by any user at will, and if it is found through the query that the first ownership corresponding to the mobile space indicates that the mobile space is public and the second ownership corresponding to the location fix mechanism indicates that the location fix mechanism is public, it indicates that the first right corresponding to the first application request and the second right corresponding to the second application request can be allocated to the requester. Of course, those skilled in the art may make different provisions for the first ownership, the second ownership, and the requesting authority of the requester according to actual needs, and the provisions are not limited herein, for example, the first ownership and the second ownership may be classified into specific classes, the requesting authority of the requester may also be classified into specific classes, a removable space with a high-level ownership is defined, the application authority of a location fixing mechanism may only be allocated to a client with a high-level requesting authority, more specifically, for example, the high-level removable space or the high-level location fixing mechanism may only be allocated to a member user, a user consuming a certain amount of money, and the like, and a common removable space or a common location fixing mechanism may be allocated to all users. In addition, a fee can be charged to the user using the movable space and the position fixing mechanism, and specifically, charging information corresponding to the service request can be determined according to the movable space and the position fixing mechanism.

In step 407, if the first home right indicates that the movable space is private and/or the second home right indicates that the location fixing mechanism is private, it is queried whether the movable space and/or the location fixing mechanism are authorized.

And step 408, if the authorization is obtained, calling an operation sequence matched with the service request.

Step 409, according to the operation sequence, a first authority of the movable space and a second authority of the position fixing mechanism are allocated.

In steps 407 to 409, if at least one of the mobile space or the location fixing mechanism requested by the user is private, for example, the mobile space is private, and the location fixing mechanism is public, then it can be further queried whether the private mobile space and/or the location fixing mechanism has been authorized, that is, in the above example, whether the mobile space has been authorized, in this embodiment, the authorized mobile space and authorized location fixing mechanism refers to the mobile space and location fixing mechanism whose private person has authority to assign to the server, that is, the private mobile space is equivalent to the public mobile space, so that when the user requests the corresponding private mobile space and location fixing mechanism, the server can directly assign the application authority to the mobile space and location fixing mechanism, therefore, when it is found that the movable space and/or the position fixing mechanism is authorized, the server may directly allocate the corresponding application right, and then invoke the operation sequence matched with the service request to allocate the first right and the second right in combination with the operation sequence, which may be specifically referred to the description of step 206 and will not be described herein again.

It should be noted that, for the authorized movable space and the location fixed mechanism, the authorizer may specifically specify the authorization range, for example, the authorization range may specify the identity, the authority level, etc. of the requesting party, so that the server performs authorization allocation according to the authorization range of the authorizer when allocating the private movable space and the location fixed mechanism, for example, the authorization range of the movable space M is available for the member user, the server may allocate the authority to the movable space M only when the member user requests to use the movable space M, the request of the general user may be rejected, in addition, the authorizer may also specifically specify charging information, for example, 2 yuan is charged for one hour by using the movable space M, the server may further deduct a certain fee from the account of the user when allocating the authority, and settle the deducted fee to the authorizer, and the authorizer may also specifically specify the authorization time, for example, the server may allocate private transportable space, application rights of a fixed location authority within 2 days. Of course, those skilled in the art can make an agreement on the contents of the authorization scope, the charging information, and the like according to actual needs, and the present application is only illustrative and not limited.

At any stage of the method provided in the embodiments of the present application, the method may further include: receiving authorization information, wherein the authorization information comprises any movable space and/or any position fixing mechanism, and the authorization information is used for indicating a first authority allowing any movable space to be allocated and/or a second authority of any position fixing mechanism; based on the authorization information, any movable space and/or any position fixing mechanism is authorized.

In this embodiment, the server may receive authorization information sent by an authorizer, the authorizer grants an application right of any private movable space and/or any location fixing mechanism to the server by sending the authorization information, and after receiving the authorization information, the server authorizes the corresponding movable space and/or location fixing mechanism based on the authorization information, so that when a user requests an application right of the private movable space and/or location fixing mechanism, the server may directly perform right allocation, thereby implementing a fast response to a service request. Of course, the authorization information may also include authorization scope, charging information, authorization time, and the like.

If the movable space and/or the position fixing mechanism is not authorized, a first application request corresponding to the unauthorized movable space and/or a second application request corresponding to the unauthorized position fixing mechanism are forwarded 410.

In step 411, when receiving the first authorization information requested by the first application and/or the second authorization information requested by the second application, invoking an operation sequence matched with the service request.

In step 412, a first authority of the authorized moveable space and a second authority of the authorized position-fixing mechanism are assigned according to the sequence of operations.

In steps 410 to 412, if the movable space and/or the position fixing mechanism is not authorized, the first application request corresponding to the unauthorized movable space and/or the second application request corresponding to the unauthorized position fixing mechanism are forwarded to the privately owned client of the movable space and/or the position fixing mechanism to request the privately owned client to authorize the first application request and/or the second application request, for example, if the movable space is not authorized, the first application request corresponding to the movable space is forwarded to the first attribution user of the movable space, the user is requested to request authorization for the first application, if the user allows the private movable space to be called, the first authorization information corresponding to the first application request is sent to the server, so that the server temporarily authorizes the movable space according to the first authorization information, a first right to the movable space is assigned in conjunction with the sequence of operations. In this case, the server only has the right to assign the application right of the removable space to the requester of the first application request, and the server cannot assign the application right of the removable space to other users without the authorization of the privately owned user, so as to protect the rights and interests of the privately owned user from being infringed. Of course, except the case that the first authorization information and the second authorization information sent by the privately-owned party also carry other authorization contents.

And 413, correspondingly updating the space position and the space occupation information of the movable space and the mechanism occupation information of the position fixing mechanism according to the execution of the plurality of ordered nodes.

In step 413, during the execution of the service flow corresponding to the ordered node of the operation sequence, the server may further obtain the space position and the space occupation information of the movable space and the mechanism occupation information of the position fixing mechanism according to the execution condition of the flow, so as to update the attribute information of the movable space and the position fixing mechanism stored in the server in time.

Step 414, acquiring first right invalidation information corresponding to the first right and second right invalidation information corresponding to the second right.

Step 415, controlling the transfer of the first authority and the second authority according to the first authority invalidation information, the second authority invalidation information and the operation sequence.

Further, as a specific implementation of the method in fig. 1, an embodiment of the present application provides a visualization space using apparatus, as shown in fig. 4, the apparatus includes:

the first display module 301 is configured to display a space map according to first attribute data of a movable space;

a first operation data obtaining module 302, configured to obtain first operation data on a space map;

a service request sending module 303, configured to generate and send a service request based on the first operation data.

In a specific application scenario, as shown in fig. 5, the apparatus further includes:

and a second display module 304, configured to display the space map according to the second attribute data of the position fixing mechanism.

In a specific application scenario, as shown in fig. 5, the apparatus further includes:

the attribute data obtaining module 305 is configured to send an attribute data obtaining request before displaying the space map, and receive attribute data fed back based on the attribute data obtaining request.

In the embodiment of the present application, specifically, the first attribute data includes a spatial position of the movable space, the second attribute data includes a mechanism position of the position fixing mechanism, and the spatial map is used to show the spatial position and the mechanism position.

In this embodiment, specifically, the first attribute data further includes at least one of a space identifier, space occupation information, a space specification, and a space function of the movable space, and the second attribute data further includes a mechanism identifier and/or mechanism occupation information of the position fixing mechanism.

In the embodiment of the present application, specifically, the spatial map is a map on which the movable space and the position fixing mechanism are attached based on a geographical map, wherein the attached positions of the movable space and the position fixing mechanism are derived from the position information in the first attribute data and the second attribute data.

In a specific application scenario, as shown in fig. 5, the first operation data obtaining module 302 specifically includes:

a first data acquiring unit 3021 configured to acquire a request service type, and spatial operation data for any movable space and mechanism operation data for any position fixing mechanism included in the spatial map;

a first data generating unit 3022 configured to generate first operation data based on the spatial operation data of any of the movable spaces and the spatial identification thereof, the mechanism operation data of any of the position fixing mechanisms and the mechanism identification thereof, and the request service type.

In a specific application scenario, as shown in fig. 5, the service request includes a first application request to any movable space corresponding to the first operation data and a second application request to any position fixing mechanism; the device also includes:

a first request feedback receiving module 306, configured to receive a service request feedback after sending a service request, where the service request feedback carries an operation sequence corresponding to a service type, a first permission for any movable space, and a second permission for any position fixing mechanism, and the operation sequence includes a plurality of ordered nodes that control service operation corresponding to the service request;

a second operation data obtaining module 307, configured to obtain second operation data on the space map;

a first response module 308, configured to respond to the permission operation of the first permission and the second permission according to the second operation data and the plurality of ordered nodes;

or, the first authority receiving module 309 is configured to obtain a first authority for any movable space and a second authority for any position fixing mechanism; and the permission application module is used for respectively applying the first permission and the second permission to the movable space and the position fixing mechanism.

In a specific application scenario, as shown in fig. 5, the service request includes a first application request to any movable space corresponding to the first operation data and a second application request to any position fixing mechanism; the device also includes:

a second request feedback receiving module 310, configured to receive a service request feedback after sending a service request, where the service request feedback carries an operation sequence corresponding to a service type, and the operation sequence includes a plurality of ordered nodes that control service operation corresponding to the service request;

a third operation data obtaining module 311, configured to obtain third operation data on the space map;

and the permission request module is used for sending a first permission request to any movable space and a second permission request to any position fixing mechanism according to the third operation data and the plurality of ordered nodes.

In a specific application scenario, as shown in fig. 5, the apparatus further includes:

a second permission receiving module 312, configured to receive a first permission corresponding to the first permission request and a second permission corresponding to the second permission request after sending the first permission request to any movable space and the second permission request to any position fixing mechanism;

and a second response module 313, configured to respond to the authority operation of the first authority and the second authority.

In this embodiment of the present application, specifically, at least one node in the plurality of ordered nodes is configured to obtain a first application permission for any movable space and a second application permission for any position fixing mechanism, where the plurality of ordered nodes includes a data node and an instruction node, and a node that obtains the first application permission for any movable space and the second application permission for any position fixing mechanism belongs to the instruction node.

In the embodiment of the present application, specifically, the execution of any node in the operation sequence depends on the forward result of the previous node of any node.

In a specific application scenario, as shown in fig. 5, the apparatus further includes:

the revocation information obtaining module 314 is configured to obtain and send first right revocation information corresponding to the first right and second right revocation information corresponding to the second right after responding to the right operations of the first right and the second right.

In the embodiment of the present application, specifically, the first authority includes a first authority time and/or a first authority operation, and the first authority failure information includes that the first authority time ends and/or the first authority operation is executed completely; the second authority comprises second authority time and/or second authority operation, and the second authority failure information comprises second authority time ending and/or second authority operation completion.

In a specific application scenario, as shown in fig. 5, the apparatus further includes:

the updating module 315 is configured to update the space position and the space occupation information of any movable space and the mechanism occupation information of any position fixing mechanism according to the execution of the plurality of ordered nodes.

In this embodiment of the present application, specifically, the first attribute data further includes a space authority distributor corresponding to the movable space, and the second attribute data further includes an authority distributor corresponding to the position fixing mechanism;

the service request sending module 303 is specifically configured to send a service request based on a space permission distributor corresponding to any movable space and an organization permission distributor corresponding to any position fixing organization.

In a specific application scenario, as shown in fig. 5, the first operation data obtaining module 302 specifically includes:

a touch operation acquisition unit 3023 configured to acquire a touch operation on an icon corresponding to any movable space in the space map;

a first data obtaining unit 3021, configured to obtain, based on a touch operation, a service type and service data corresponding to the service type, where the service data is data required for executing a service corresponding to the service type, and the first operation data includes the service type and the service data;

the device also includes:

and the execution feedback module 316 is configured to receive the service execution feedback after generating and sending the service request, and update the space map according to the service execution feedback.

In the embodiment of the present application, specifically, the touch operation includes a selection operation of a temporary storage service type, the service data of the temporary storage service includes a space position and a space identifier of a movable space, and the service execution feedback includes a space locking flag or a space unlocking flag; the feedback execution module 316 specifically includes:

a first updating unit 3161 for updating the corresponding icon of any one of the movable spaces to a locked state or an unlocked state.

In the embodiment of the present application, specifically, the touch operation includes dragging an icon of any movable space in the space map from a first position to a second position, where the second position corresponds to a position fixing mechanism in the space map;

the first data obtaining unit 3021 is specifically configured to: determining the service type to be a distribution service based on touch operation of dragging an icon of any movable space from a first position to a second position in the space map, and determining that the service data comprises a space identifier, the first position and the second position of the movable space.

In the embodiment of the present application, specifically, the touch operation is a selection operation of a recycle service type, service data of the recycle service includes a space position, a space identifier, and a recycle position of a movable space, and the service execution feedback includes a recycle lock flag; the feedback execution module 316 specifically includes:

a second updating unit 3162 for updating the corresponding icon of the movable space to the locked state.

It should be noted that other corresponding descriptions of the functional units related to the visualization space using apparatus provided in the embodiment of the present application may refer to the corresponding descriptions in fig. 1 and fig. 3, and are not described again here.

Based on the above-mentioned methods as shown in fig. 1 and fig. 3, correspondingly, the present application further provides a storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the visualization space using method as shown in fig. 1 and fig. 3 is implemented.

Based on such understanding, the technical solution of the present application may be embodied in the form of a software product, which may be stored in a non-volatile storage medium (which may be a CD-ROM, a usb disk, a removable hard disk, etc.), and includes several instructions for enabling a computer device (which may be a personal computer, a server, or a network device, etc.) to execute the method according to the implementation scenarios of the present application.

Based on the above methods shown in fig. 1 and fig. 3 and the virtual device embodiments shown in fig. 4 and fig. 5, in order to achieve the above object, an embodiment of the present application further provides a computer device, which may specifically be a personal computer, a server, a network device, and the like, where the computer device includes a storage medium and a processor; a storage medium for storing a computer program; a processor for executing a computer program for implementing the visualization space usage method as described above with reference to fig. 1 and 3.

Optionally, the computer device may also include a user interface, a network interface, a camera, Radio Frequency (RF) circuitry, sensors, audio circuitry, a WI-FI module, and so forth. The user interface may include a Display screen (Display), an input unit such as a keypad (Keyboard), etc., and the optional user interface may also include a USB interface, a card reader interface, etc. The network interface may optionally include a standard wired interface, a wireless interface (e.g., a bluetooth interface, WI-FI interface), etc.

It will be appreciated by those skilled in the art that the present embodiment provides a computer device architecture that is not limiting of the computer device, and that may include more or fewer components, or some components in combination, or a different arrangement of components.

The storage medium may further include an operating system and a network communication module. An operating system is a program that manages and maintains the hardware and software resources of a computer device, supporting the operation of information handling programs, as well as other software and/or programs. The network communication module is used for realizing communication among components in the storage medium and other hardware and software in the entity device.

Through the description of the above embodiment, those skilled in the art can clearly understand that the present application can be implemented by software plus a necessary general hardware platform, and also can implement that the client displays the space map based on the first attribute data corresponding to the movable space through hardware, and the user can operate in the space map displayed by the client, so that the client obtains the first operation data of the user on the space map, and analyzes the first operation data to generate a service request, and then sends the service request to the server to perform an authority request. According to the embodiment of the application, the space map is visually displayed in the client based on the first attribute data corresponding to the movable space, so that the user can acquire the operation data of the user when the user operates the space map on the visual interface and request the server for corresponding services, the user can operate the space map and make service requests on the visual interface of the client, the movable space of the space can be conveniently called, the standardized management and the full utilization of the movable space are facilitated, and the value of the movable space is improved.

Those skilled in the art will appreciate that the figures are merely schematic representations of one preferred implementation scenario and that the blocks or flow diagrams in the figures are not necessarily required to practice the present application. Those skilled in the art will appreciate that the modules in the devices in the implementation scenario may be distributed in the devices in the implementation scenario according to the description of the implementation scenario, or may be located in one or more devices different from the present implementation scenario with corresponding changes. The modules of the implementation scenario may be combined into one module, or may be further split into a plurality of sub-modules.

The above application serial numbers are for description purposes only and do not represent the superiority or inferiority of the implementation scenarios. The above disclosure is only a few specific implementation scenarios of the present application, but the present application is not limited thereto, and any variations that can be made by those skilled in the art are intended to fall within the scope of the present application.

Embodiments of the present invention also include these and other aspects as specified in the following numbered clauses:

1. a visualization space usage method, the method comprising:

displaying a space map according to first attribute data of the movable space;

acquiring first operation data of the space map;

and generating and sending a service request based on the first operation data.

2. The method of clause 1, further comprising: and displaying the space map according to the second attribute data of the position fixing mechanism.

3. The method of clause 1 or 2, prior to the presenting the spatial map, further comprising:

and sending an attribute data acquisition request, and receiving attribute data fed back based on the attribute data acquisition request.

4. The method of clause 2, wherein the first attribute data comprises a spatial location of the movable space, the second attribute data comprises a facility location of the position-fixing facility, and the spatial map is used to show the spatial location and the facility location.

5. The method of clause 4, wherein the first attribute data further includes at least one of a space identification, space occupation information, space specification, and space function of the movable space, and the second attribute data further includes a facility identification and/or facility occupation information of the position fixing facility.

6. The method according to clause 2, wherein the spatial map is a map on which the movable space and the position fixing mechanism are attached based on a geographical map, wherein the attached positions of the movable space and the position fixing mechanism are derived from the position information in the first attribute data and the second attribute data.

7. According to the method in clause 2, the acquiring of the first operation data on the space map specifically includes:

acquiring a request service type, space operation data of any movable space contained in the space map and mechanism operation data of any position fixing mechanism;

and generating the first operation data based on the space operation data and the space identification thereof of any movable space, the mechanism operation data and the mechanism identification thereof of any position fixing mechanism and the request service type.

8. The method of clause 7, wherein the service request comprises a first application request to the any movable space and a second application request to the any position-fixing mechanism corresponding to the first operational data;

after the sending of the service request, the method further includes:

receiving service request feedback, wherein the service request feedback carries an operation sequence corresponding to the service type, a first authority for any movable space and a second authority for any position fixing mechanism, and the operation sequence comprises a plurality of ordered nodes for controlling the service corresponding to the service request to run; acquiring second operation data of the space map; responding to the authority operation of the first authority and the second authority according to the second operation data and the ordered nodes; or,

acquiring a first authority for any movable space and a second authority for any position fixing mechanism; applying the first and second authorities to the movable space and the position fixing mechanism, respectively.

9. The method of clause 7, wherein the service request comprises a first application request to the any movable space and a second application request to the any position-fixing mechanism corresponding to the first operational data;

after the sending of the service request, the method further includes:

receiving service request feedback, wherein the service request feedback carries an operation sequence corresponding to the service type, and the operation sequence comprises a plurality of ordered nodes for controlling service operation corresponding to the service request;

acquiring third operation data of the space map;

and sending a first permission request to any movable space and a second permission request to any position fixing mechanism according to the third operation data and the ordered nodes.

10. The method of clause 9, wherein after said sending the first permission request to the any of the moveable spaces and the second permission request to the any of the position fixtures, the method further comprises:

receiving a first permission corresponding to the first permission request and a second permission corresponding to the second permission request;

and responding to the authority operation of the first authority and the second authority.

11. The method according to any one of clauses 8 to 10, wherein at least one of the plurality of ordered nodes is configured to obtain a first application permission for the any movable space and a second application permission for the any fixed-location organization, and the plurality of ordered nodes includes a data node and an instruction node, and the node that obtains the first application permission for the any movable space and the second application permission for the any fixed-location organization belongs to the instruction node.

12. The method of any of clauses 8-10, wherein execution of any node in the sequence of operations is dependent on a positive result of a node immediately preceding the any node.

13. The method of clauses 8-10, after the operating in response to the permissions of the first permission and the second permission, the method further comprising:

and acquiring and sending first permission invalidation information corresponding to the first permission and second permission invalidation information corresponding to the second permission.

14. The method according to the method of the clause 13,

the first authority comprises first authority time and/or first authority operation, and the first authority failure information comprises the end of the first authority time and/or the completion of the execution of the first authority operation;

the second authority comprises second authority time and/or second authority operation, and the second authority failure information comprises the end of the second authority time and/or the completion of the execution of the second authority operation.

15. The method of clauses 8-10, further comprising:

and correspondingly updating the space position and space occupation information of any movable space and the mechanism occupation information of any position fixing mechanism according to the execution of the plurality of ordered nodes.

16. The method of any of clauses 8-10, wherein the first attribute data further comprises a space rights assigner corresponding to the moveable space, and the second attribute data further comprises an agency rights assigner corresponding to the fixed location agency; the sending of the service request specifically includes:

and sending the service request based on the space authority distributor corresponding to any movable space and the mechanism authority distributor corresponding to any position fixing mechanism.

17. The method according to clause 1, wherein the acquiring of the first operation data on the space map specifically includes:

acquiring touch operation on icons corresponding to any movable space in the space map;

acquiring a service type and service data corresponding to the service type based on the touch operation, wherein the service data is required for executing a service corresponding to the service type, and the first operation data comprises the service type and the service data;

after the generating and sending the service request, the method further includes: and receiving service execution feedback, and updating the space map according to the service execution feedback.

18. The method of clause 17, wherein the touch operation comprises a selection operation of a temporary storage service type, the service data of the temporary storage service comprises a spatial location and a spatial identifier of the movable space, and the service execution feedback comprises a spatial locking flag or a spatial unlocking flag;

the updating the space map according to the service execution feedback specifically includes: and updating the corresponding icon of any movable space into a locking state or an unlocking state.

19. The method of clause 17, wherein the touch operation comprises dragging an icon of the any one of the movable spaces in the space map from a first location to a second location, the second location corresponding to a position-fixing mechanism in the space map;

the acquiring a service type and service data corresponding to the service type based on the touch operation specifically includes: determining that the service type is a delivery service based on the touch operation of dragging the icon of any movable space from a first position to a second position in the space map, and determining that the service data includes a space identifier of the movable space, the first position and the second position.

20. The method according to clause 17, wherein the touch operation is a selection operation of a recycling service type, the service data of the recycling service includes a space location, a space identifier, and a recycling location of the movable space, and the service execution feedback includes a recycling locking flag;

the updating the space map according to the service execution feedback specifically includes: and updating the corresponding icon of the movable space into a locking state.

21. A visual space usage apparatus, the apparatus comprising:

the first display module is used for displaying the space map according to the first attribute data of the movable space;

the first operation data acquisition module is used for acquiring first operation data of the space map;

and the service request sending module is used for generating and sending a service request based on the first operation data.

22. The apparatus of clause 21, further comprising:

and the second display module is used for displaying the space map according to the second attribute data of the position fixing mechanism.

23. The apparatus of clause 21 or 22, further comprising:

and the attribute data acquisition module is used for sending an attribute data acquisition request before displaying the space map and receiving attribute data fed back based on the attribute data acquisition request.

24. The apparatus of clause 22, wherein the first attribute data comprises a spatial location of the movable space and the second attribute data comprises a facility location of the position-fixing facility, the spatial map being used to show the spatial location and the facility location.

25. The apparatus of clause 24, wherein the first attribute data further comprises at least one of a space identifier, space occupancy information, space specification, and space function of the movable space, and the second attribute data further comprises a facility identifier and/or facility occupancy information of the position-fixing facility.

26. The apparatus of clause 22, wherein the spatial map is a map on which the movable space and the position fixing mechanism are attached based on a geographic map, wherein the attached positions of the movable space and the position fixing mechanism are derived from the position information in the first attribute data and the second attribute data.

27. The apparatus according to clause 22, wherein the first operation data acquiring module specifically includes:

a first data acquisition unit, configured to acquire a request service type, and spatial operation data for any movable space and mechanism operation data for any position fixing mechanism included in the spatial map;

a first data generating unit, configured to generate the first operation data based on the space operation data and the space identifier of any movable space, the mechanism operation data and the mechanism identifier of any position fixing mechanism, and the request service type.

28. The apparatus of clause 27, wherein the service request comprises a first application request to the any movable space and a second application request to the any position-fixing mechanism corresponding to the first operational data;

the apparatus further comprises: a first request feedback receiving module, configured to receive a service request feedback after sending a service request, where the service request feedback carries an operation sequence corresponding to the service type, a first permission for any movable space, and a second permission for any position fixing mechanism, and the operation sequence includes a plurality of ordered nodes that control service operation corresponding to the service request; the second operation data acquisition module is used for acquiring second operation data of the space map; the first response module is used for responding to the authority operation of the first authority and the second authority according to the second operation data and the ordered nodes; or,

the first authority receiving module is used for acquiring a first authority aiming at any movable space and a second authority aiming at any position fixing mechanism; and the permission application module is used for respectively applying the first permission and the second permission to the movable space and the position fixing mechanism.

29. The apparatus of clause 27, wherein the service request comprises a first application request to the any movable space and a second application request to the any position-fixing mechanism corresponding to the first operational data; the apparatus further comprises:

a second request feedback receiving module, configured to receive a service request feedback after sending a service request, where the service request feedback carries an operation sequence corresponding to the service type, and the operation sequence includes a plurality of ordered nodes that control service operation corresponding to the service request;

the third operation data acquisition module is used for acquiring third operation data of the space map;

and the permission request module is used for sending a first permission request to any movable space and a second permission request to any position fixing mechanism according to the third operation data and the ordered nodes.

30. The apparatus of clause 29, further comprising:

the second permission receiving module is used for receiving a first permission corresponding to the first permission request and a second permission corresponding to the second permission request after sending the first permission request to any movable space and the second permission request to any position fixing mechanism;

and the second response module is used for responding to the authority operation of the first authority and the second authority.

31. The apparatus according to any one of clauses 28 to 30, wherein at least one of the plurality of ordered nodes is configured to obtain a first application permission for the any movable space and a second application permission for the any fixed location, and the plurality of ordered nodes includes a data node and an instruction node, and the node that obtains the first application permission for the any movable space and the second application permission for the any fixed location belongs to the instruction node.

32. The apparatus of any of clauses 28-30, wherein execution of any node in the sequence of operations is dependent on a positive result of a node immediately preceding the any node.

33. The apparatus of clauses 28-30, further comprising:

and the failure information acquisition module is used for acquiring and sending first permission failure information corresponding to the first permission and second permission failure information corresponding to the second permission after responding to the permission operation of the first permission and the second permission.

34. The apparatus according to clause 33, wherein the first permission includes a first permission time and/or a first permission operation, and the first permission invalidation information includes an end of the first permission time and/or a completion of execution of the first permission operation; the second authority comprises second authority time and/or second authority operation, and the second authority failure information comprises the end of the second authority time and/or the completion of the execution of the second authority operation.

35. The apparatus of clauses 28-30, further comprising:

and the updating module is used for correspondingly updating the space position and space occupation information of any movable space and the mechanism occupation information of any position fixing mechanism according to the execution of the plurality of ordered nodes.

36. The apparatus of any of clauses 28 to 30, the first attribute data further comprising a space rights assigner corresponding to the moveable space, the second attribute data further comprising an agency rights assigner corresponding to the fixed location agency;

the service request sending module is specifically configured to send the service request based on the space permission assignor corresponding to the any movable space and the mechanism permission assignor corresponding to the any position fixing mechanism.

37. The apparatus according to clause 21, wherein the first operation data acquiring module specifically includes:

the touch operation acquisition unit is used for acquiring touch operation on icons corresponding to any movable space in the space map;

a first data obtaining unit, configured to obtain a service type and service data corresponding to the service type based on the touch operation, where the service data is data required to execute a service corresponding to the service type, and the first operation data includes the service type and the service data;

the device further comprises: and the execution feedback module is used for receiving service execution feedback after generating and sending the service request, and updating the space map according to the service execution feedback.

38. The apparatus of clause 37, wherein the touch operation comprises a selection operation of a scratch service type, the service data of the scratch service comprises a spatial location and a spatial identifier of the movable space, and the service execution feedback comprises a spatial lock flag or a release spatial lock flag;

the execution feedback module specifically includes: and the first updating unit is used for updating the corresponding icon of any movable space into a locking state or an unlocking state.

39. The apparatus of clause 37, wherein the touch operation comprises dragging an icon of the any one of the movable spaces in the space map from a first location to a second location, the second location corresponding to a position-fixing mechanism in the space map;

the first data obtaining unit is specifically configured to: determining that the service type is a delivery service based on the touch operation of dragging the icon of any movable space from a first position to a second position in the space map, and determining that the service data includes a space identifier of the movable space, the first position and the second position.

40. The apparatus of clause 37, wherein the touch operation is a selection operation of a recycling service type, the service data of the recycling service includes a space location, a space identifier, and a recycling location of the movable space, and the service execution feedback includes a recycling locking flag;

the execution feedback module specifically includes: and the second updating unit is used for updating the corresponding icon of the movable space into a locking state.

41. A client comprising the visual space usage apparatus of any one of clauses 21-40.

42. A storage medium having stored thereon a computer program which, when executed by a processor, implements the visualization space usage method of any one of clauses 1 to 20.

43. A computer device comprising a storage medium, a processor, and a computer program stored on the storage medium and executable on the processor, the processor implementing the visualization space usage method of any of clauses 1 to 20 when executing the program.

Claims (10)

1. A visualization space usage method, the method comprising:

displaying a space map according to first attribute data of the movable space;

acquiring first operation data of the space map;

and generating and sending a service request based on the first operation data.

2. The method of claim 1, further comprising: and displaying the space map according to the second attribute data of the position fixing mechanism.

3. The method of claim 1 or 2, wherein prior to said presenting the spatial map, the method further comprises:

and sending an attribute data acquisition request, and receiving attribute data fed back based on the attribute data acquisition request.

4. The method of claim 2, wherein the first attribute data comprises a spatial location of the movable space, the second attribute data comprises a facility location of the position-fixing facility, and the spatial map is used to show the spatial location and the facility location.

5. The method of claim 4, wherein the first attribute data further comprises at least one of a space identification, space usage information, space specification, and space function of the movable space, and the second attribute data further comprises a mechanism identification and/or mechanism usage information of the position fixing mechanism.

6. The method according to claim 2, wherein the spatial map is a map on which the movable space and the position fixing mechanism are attached on the basis of a geographical map, wherein the attached positions of the movable space and the position fixing mechanism are derived from the position information in the first attribute data and the second attribute data.

7. A visual space usage apparatus, the apparatus comprising:

the first display module is used for displaying the space map according to the first attribute data of the movable space;

the first operation data acquisition module is used for acquiring first operation data of the space map;

and the service request sending module is used for generating and sending a service request based on the first operation data.

8. A client, characterized in that it comprises the visualization space usage apparatus of claim 7.

9. A storage medium on which a computer program is stored, which program, when being executed by a processor, carries out the visualization space usage method of any one of claims 1 to 6.

10. A computer device comprising a storage medium, a processor and a computer program stored on the storage medium and executable on the processor, characterized in that the processor implements the visualization space usage method according to any of claims 1 to 6 when executing the program.

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