CN113965592A - Processing method, device and equipment of Internet of things equipment - Google Patents

Abstract

The application discloses a processing method, a processing device and processing equipment of Internet of things equipment, and belongs to the technical field of data processing. The method comprises the following steps: firstly, acquiring attribute parameters of at least one Internet of things device; then generating a dynamic internet of things space cloud picture according to the attribute parameters, wherein the internet of things space cloud picture comprises at least one internet of things equipment node existing at least one geographic position and dynamic change information of a corresponding state and/or authority of each internet of things equipment node; and finally, searching target Internet of things equipment required to be used by utilizing the Internet of things space cloud picture. The target Internet of things equipment needing to be used can be quickly and accurately retrieved by the aid of the dynamic Internet of things space cloud picture, namely, the user can be helped to quickly find the required Internet of things equipment, retrieval and use efficiency of the Internet of things equipment are improved, and accordingly effective management can be carried out on the Internet of things space/address.

Description

Processing method, device and equipment of Internet of things equipment

Technical Field

The application relates to the technical field of data processing, in particular to a processing method, a processing device and processing equipment of Internet of things equipment.

Background

The Internet of Things (IOT) is a network that enables all common objects capable of performing independent functions to be interconnected and intercommunicated based on information carriers such as the Internet and a traditional telecommunication network.

In order to realize the interconnection of everything, each space/address of the internet of things can be used as a node in the internet of things, so that a large number of spaces/addresses of the internet of things exist, how to uniformly manage the spaces/addresses of the internet of things is realized, and an effective processing mode is not available at present.

Disclosure of Invention

In view of this, the present application provides a method, an apparatus, and a device for processing an internet of things device, and mainly aims to solve the technical problem that effective management cannot be performed on a space/address of an internet of things in the prior art.

According to an aspect of the present application, there is provided a processing method for an internet of things device, the method including:

acquiring attribute parameters of at least one piece of Internet of things equipment;

generating a dynamic internet of things space cloud picture according to the attribute parameters, wherein the internet of things space cloud picture comprises at least one internet of things equipment node existing at least one geographic position and dynamic change information of a corresponding state and/or authority of each internet of things equipment node;

and searching target Internet of things equipment required to be used by utilizing the Internet of things space cloud picture.

According to another aspect of the present application, there is provided a processing apparatus for an internet of things device, the apparatus including:

the acquisition module is used for acquiring the attribute parameters of at least one piece of Internet of things equipment;

the generating module is used for generating a dynamic internet of things space cloud picture according to the attribute parameters, wherein the internet of things space cloud picture comprises at least one internet of things equipment node existing at least one geographic position and dynamic change information of a corresponding state and/or authority of each internet of things equipment node;

and the retrieval module is used for retrieving the target Internet of things equipment required to be used by utilizing the Internet of things space cloud picture.

According to yet another aspect of the present application, there is provided a readable storage medium, on which a computer program is stored, which when executed by a processor, implements the processing method of the internet of things device described above.

According to another aspect of the present application, an entity device processed by an internet of things device is provided, which includes a storage medium, a processor, and a computer program stored on the storage medium and executable on the processor, where the processor implements a processing method of the internet of things device when executing the program.

By means of the technical scheme, compared with the prior art, the method, the device and the equipment for processing the equipment of the internet of things provided by the application generate the dynamic space cloud picture of the internet of things according to the attribute parameters of at least one piece of equipment of the internet of things, wherein the space cloud picture of the internet of things not only comprises at least one equipment node of the internet of things existing in at least one geographic position, but also comprises dynamic change information of corresponding states and/or authorities of all equipment nodes of the internet of things. And then can utilize this dynamic thing networking space cloud picture, the target thing networking equipment that needs to use is retrieved to quick accuracy, can help the user to find required thing networking equipment fast promptly, has improved the retrieval and the availability factor of thing networking equipment to can carry out effectual management to thing networking space/address. Moreover, the dynamic internet of things space cloud picture enables human-computer interaction to be more convenient and fast, operation to be simple and convenient, and use experience of users to be 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 flowchart illustrating a processing method of an internet of things device according to an embodiment of the present application;

fig. 2 is a schematic flow chart illustrating another processing method for an internet of things device according to an embodiment of the present disclosure;

fig. 3 is a schematic diagram illustrating a spatial cloud map of the internet of things provided in the embodiment of the present application;

fig. 4 shows a topological diagram of a spatial cloud graph display example of the internet of things provided in the embodiment of the present application;

fig. 5 is a timing diagram illustrating an internet of things device usage interaction provided by an embodiment of the present application;

fig. 6 shows a schematic structural diagram of a processing device of an internet of things device according to 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.

The technical problem that the space/address of the Internet of things cannot be effectively managed in the prior art is solved. The embodiment provides a processing method of internet of things equipment, as shown in fig. 1, the method includes:

101. and acquiring the attribute parameters of at least one piece of equipment of the Internet of things.

The attribute parameters may include an internet-of-things address of the internet-of-things device, a geographic address of the internet-of-things device, a device identifier (such as a device name/ID number, a MAC address, and the like), a functional use of the device, an event occurring at the device side, a service that the device side can support to call, and the like.

For example, after the internet of things equipment is connected with the internet of things, the related information of the attribute parameters of the internet of things equipment can be acquired, and the internet of things equipment can be equipment such as a distribution box and an express cabinet. The attribute parameters of the internet of things equipment can be obtained through a communication channel of the internet of things.

102. And generating a dynamic internet of things space cloud picture according to the attribute parameters of at least one internet of things device.

The internet of things spatial cloud graph may include at least one internet of things device node existing at least one geographic location (for example, at least one geographic location exists, and one internet of things device node may exist at each geographic location, or at least two or more internet of things device nodes exist, and the like), and dynamic change information of a corresponding state and/or authority of each internet of things device node. The internet of things space cloud picture can be regarded as a dynamic space map consisting of a plurality of pieces of networked equipment information, and the internet of things space cloud picture can change along with the change of time and the equipment information. Furthermore, as long as any device capable of networking has a unique address or identification information, etc., the device can be accessed to the background system of the internet of things space cloud graph in the embodiment, and further, the related information of the networking device can be displayed in the internet of things space cloud graph. For example, if the milk box, the mailbox, and the like at the home door of the user can be networked, the milk box, the mailbox, and the like can be accessed to the background system of the internet of things space cloud picture according to the unique address or the identification information of the milk box and the mailbox, so that the milk box and the mailbox can be displayed in the internet of things space cloud picture, and the internet of things equipment management can be conveniently performed by the user. If the milk sending worker distributes the milk, the milk box which needs to deliver the milk at present can be searched through the space cloud picture of the Internet of things, so that the door opening permission and the like of the milk box can be obtained.

The dynamic change information of the state may include a usage change state of the device node of the internet of things (e.g., a state in which the device is previously idle and subsequently changed to an idle state, or a state in which some independent storage space of the device is previously occupied and subsequently changed to an idle state, or a state in which the device is previously occupied by the user a and is currently occupied by the user B, etc.), a location change state (e.g., a dynamic movement trajectory in which the device moves from the location a to the location B and then to the location C, etc.), a device change state (e.g., a change situation of a remaining power of the device at each time interval point, or a change situation of a health degree of device hardware, etc.), and the like.

The dynamic change information of the permission may include a change state of a permission region where the internet of things device node is located (the permission region includes at least one internet of things device node with the same permission), such as a change of a personal permission region, a change of a private permission region, a change of an enterprise/school permission region, and the like.

For example, the attribute parameters of at least one piece of internet-of-things equipment are obtained at regular time, and then the internet-of-things address, the geographic address where the internet-of-things equipment is located, the equipment identifier, the functional use of the equipment, the event occurring at the equipment end, the service which can be called and supported by the equipment end and the like of the internet-of-things equipment are read according to the internet-of-things equipment attribute parameters obtained at regular time and serve as a reference basis for generating the dynamic internet-of-things space cloud picture. Generating a corresponding equipment model in the space cloud picture of the Internet of things according to the equipment identification of the equipment of the Internet of things and the functional use of the equipment; marking the equipment model at the corresponding geographical position in the space cloud picture of the Internet of things according to the geographical position of the equipment at each time interval point, and updating the position change of the equipment model; according to events occurring at the equipment end of the Internet of things, the service which can be supported and called by the equipment end and the like, the use change state, the equipment change state, the change state of the right area and the like of the equipment model are dynamically updated in the space cloud picture of the Internet of things.

103. And searching target Internet of things equipment required to be used by utilizing the dynamic Internet of things space cloud picture.

Before the dynamic space cloud picture of the internet of things is used for retrieving the target internet of things equipment, the space cloud picture of the internet of things can be displayed, so that a user can roughly know the internet of things equipment displayed in the space cloud picture of the internet of things, and the user can conveniently and accurately retrieve the appropriate target internet of things equipment. When target Internet of things equipment needing to be used is searched, corresponding searching conditions can be input, and then the system background matches appropriate Internet of things equipment nodes in the Internet of things space cloud graph according to the searching conditions and performs prominent display; or the user can directly select the corresponding internet of things equipment node from the internet of things space cloud picture as the target internet of things equipment needed to be used and the like according to the dynamic change information of each internet of things equipment displayed in the internet of things space cloud picture in a more convenient mode.

Compared with the prior art, in the processing method of the internet of things device provided by this embodiment, according to the attribute parameter of at least one internet of things device, a dynamic internet of things spatial cloud map is generated, where the internet of things spatial cloud map includes not only at least one internet of things device node existing at least one geographic location, but also dynamic change information of a corresponding state and/or authority of each internet of things device node. And then can utilize this dynamic thing networking space cloud picture, the target thing networking equipment that needs to use is retrieved to quick accuracy, can help the user to find required thing networking equipment fast promptly, has improved the retrieval and the availability factor of thing networking equipment to can carry out effectual management to thing networking space/address. Moreover, the dynamic internet of things space cloud picture enables human-computer interaction to be more convenient and fast, operation to be simple and convenient, and use experience of users to be improved.

Further, as a refinement and an extension of the foregoing embodiment, in order to fully describe a specific implementation process of the foregoing embodiment, another processing method of an internet of things device is provided, as shown in fig. 2, the method includes:

201. and acquiring the attribute parameters of at least one piece of equipment of the Internet of things.

The attribute parameters may include an internet of things address corresponding to the internet of things device, attribute information acquired at a fixed time, event information acquired at a fixed time, service information acquired at a fixed time, and the like.

The attribute information obtained at regular time may include a geographic address (e.g., a map coordinate position where the internet of things device is located) where the internet of things device is located at each interval time point, and the like. The event information obtained at regular time may include which events (such as being occupied by a user, being in an idle state, having a transfer of rights, etc.) occur at each interval time point of the internet of things device. The service information obtained at regular time may include services that the internet of things device can provide at each interval time point (for example, an idle delivery box provides delivery services, an idle express delivery cabinet provides services for storing articles, and the like).

202. And creating an equipment model which changes along with time according to the Internet of things address, the attribute information, the event information and the service information corresponding to the Internet of things equipment.

The equipment model can be used for describing the change condition of attribute information, event information and service information corresponding to the equipment of the Internet of things along with time. The equipment model can use the equipment type of the equipment of the Internet of things as a model style so as to be displayed visually in the space cloud picture of the Internet of things. For example, if the internet of things device is a distribution box, a distribution box-style device model may be used, and the device model may be used to represent the occupancy of the distribution box, the location change, whether a receiving distribution service is currently provided, and the like, which change over time; if the Internet of things equipment is an express cabinet, an equipment model of an express cabinet type can be used, and the equipment model can be used for representing the occupation condition of the express cabinet changing along with time, whether a temporary storage service for received articles is provided at present or not and the like; if the internet of things equipment is cooking equipment, an equipment model of a cooking equipment model can be used, and the equipment model can be used for representing the occupation condition of the cooking equipment changing along with time, whether the cooking service for receiving dishes is provided currently or not, and the like.

203. And taking the equipment model as the dynamic description of the equipment nodes of the Internet of things to generate the space cloud picture of the Internet of things.

For example, as shown in fig. 3, a structure of an internet of things space cloud graph is described, the internet of things space cloud graph may include three parts, namely, an internet of things device node, a business server, a search rule setting, and the like, and the internet of things device node side may include an internet of things address, and attribute information, event information, service information, and the like that dynamically change with time; the search rule setting part may include corresponding search rule contents, such as an organization to which the internet of things device belongs, a physical address (internet of things address) of the internet of things device, a function of the internet of things device, a service of the internet of things device, and the like. The embodiment can build the internet of things space cloud graph by relying on a business foundation layer, a safety link built by the equipment cloud and the built equipment model, the internet of things space cloud graph can discover various types of internet of things equipment nodes from the equipment cloud, and each internet of things equipment node is described by using the equipment model. The equipment model includes internet of things addresses, attributes (including geographic addresses), events, services, and changes over time, i.e., the description of the equipment model may change over time. The internet of things space cloud picture can establish various retrieval rules according to various types of retrieval conditions, and when the business server needs the participation of the internet of things equipment, the business server can retrieve the internet of things equipment meeting the conditions according to the rules so that the business server can call the internet of things equipment through the model capability of each internet of things equipment.

204. And searching various types of Internet of things equipment nodes, and marking the corresponding geographic positions of the searched Internet of things equipment nodes in the Internet of things space cloud picture.

For example, after the internet of things space cloud picture is generated, the corresponding geographical positions of the internet of things equipment nodes of various types in the internet of things space cloud picture are marked. If the distribution box 1 is located at the map coordinate position A, marking a distribution box model at a corresponding geographic position in the Internet of things space cloud picture; the express cabinet 2 located at the map coordinate position B can mark an equipment model of an express cabinet style at a corresponding geographic position in the internet of things space cloud picture; and the cooking equipment 3 positioned at the map coordinate position C can mark an equipment model of a cooking equipment model at a corresponding geographic position in the internet of things space cloud picture.

205. And displaying dynamic change information of the corresponding state and/or authority of the equipment node of the Internet of things in the space cloud picture of the Internet of things according to the dynamic description of the equipment model.

According to the mode that the corresponding geographic position marks are carried out on the Internet of things equipment nodes in the Internet of things space cloud picture, and according to the dynamic description of the node equipment model, the state and/or the dynamic change information of the authority corresponding to the marked Internet of things equipment nodes are displayed in the Internet of things space cloud picture, so that a user can simply and intuitively know the Internet of things equipment distributed at different positions in the Internet of things space cloud picture, and the functional purposes, occupied conditions, whether the Internet of things equipment has the authority to request to use the Internet of things equipment and the like. The probability that the Internet of things equipment is retrieved is improved, the use experience of the man-machine operation of a user can be improved, each piece of Internet of things equipment can be simply and visually displayed in the Internet of things space cloud picture, the user can be helped to quickly find the needed Internet of things equipment, the retrieval and use efficiency of the Internet of things equipment are improved, and therefore the Internet of things space/address can be effectively managed.

Optionally, step 205 may specifically include: according to the dynamic description of the equipment model, the geographic position corresponding to the equipment node of the internet of things (such as the dynamic change of the geographic position of the equipment of the internet of things) and/or the equipment use information (such as the occupied state of the equipment of the internet of things, the information of the occupied user, the occupied time period and the like) and/or the equipment abnormal information (such as the health degree of hardware of the equipment of the internet of things, the abnormal condition of the equipment during use and the like) are dynamically updated in the space cloud picture of the internet of things, so that the user can simply and intuitively know the dynamic geographic position change condition, the equipment use change condition, the abnormal dynamic change condition of the equipment and the like of each equipment node of the internet of things in the space cloud picture of the internet of things through the optional mode, the state display effect of the equipment of the internet of things is improved, and the information display precision of the equipment of the internet of the things is further improved; and/or performing sub-region frame selection on the Internet of things equipment nodes of the same rights belonging to the same position region, wherein the frame selection region range of the sub-region can be dynamically adjusted according to the change of the Internet of things equipment nodes corresponding to the rights belonging to the object.

For example, as shown in fig. 4, an example schematic diagram is shown for an internet of things space cloud chart, in the diagram, sub-region frame selection is performed on internet of things device nodes of objects to which the same rights belong in the same position region, so that an enterprise region 1 (including 4 internet of things device nodes), a private region 2 (including 2 internet of things device nodes), and a personal region 3 (including 1 internet of things device node) are obtained, wherein usage rights of the internet of things device nodes in the enterprise region all belong to a target enterprise, that is, a user having the corresponding rights of the enterprise is qualified to use the internet of things device corresponding to the node in the region; the use permission of the internet of things equipment node in the private area belongs to the private object, namely, a user with the corresponding permission of the private object is qualified to use the internet of things equipment corresponding to the node in the area; the use permission of the internet of things equipment node in the personal area belongs to the personal user, namely the internet of things equipment node is qualified to use when the internet of things equipment node has the corresponding permission of the specific user. The three sub-areas may be dynamically changed, for example, changed with the change of the geographic location of the device node of the internet of things, and/or dynamically changed with the transfer of the permission, and after the dynamic change of the sub-areas, the change range of the sub-area in the spatial cloud map of the internet of things may be changed (for example, the shape of the sub-area is changed) and/or the permission content of the device therein may be changed (for example, the device node is previously assigned to the area a, and the subsequent change is assigned to the area B, and the like).

Intersection nodes can exist among the multiple sub-regions, that is, two or more sub-regions contain the same internet of things device nodes, and the rights of the internet of things device nodes can belong to at least two objects. For example, the usage rights of the distribution box 1 belong to the enterprise 1 and the enterprise 2, and the users having the corresponding rights of the enterprise 1 and/or the enterprise 2 are qualified to use the distribution box 1.

Through the optional mode, the internet of things equipment nodes of the objects with the same authority in the same position area are subjected to sub-area frame selection, so that a user can clearly determine the concentrated attribution of the use authority of the internet of things equipment nodes, the authority qualification of the user is conveniently combined, retrieval and selection are carried out on the internet of things equipment nodes in a specific sub-area, the efficiency of internet of things equipment retrieval is improved, the use experience of the user can be improved through the dynamically changed sub-area frame selection mode, and the information display precision of the internet of things equipment is higher.

For example, as shown in fig. 4, the internet of things space cloud graph and the internet of things devices provided by the device cloud are included, the device model in the internet of things space cloud graph is retrieved, and a multi-dimensional map is established through various types of capabilities, such as attributes, services, and time. In fig. 4, the cloud address model is built by the device operator in the geographic location, time deduction, and device attributes. The business service can establish more accurate retrieval conditions according to the equipment resource display, thereby searching the equipment resources meeting the requirements.

Further optionally, the sub-regions with different region characteristics respectively correspond to different rights belonging objects, and the region characteristics may at least include sub-region color characteristics, and/or sub-region line characteristics, and/or sub-region labeling characteristics. For example, the sub-regions are distinguished by using different colors, different thick and thin lines, different region marking names and the like, so that a user can visually know the difference of the sub-regions, the concerned sub-regions can be quickly positioned according to the distinguishing characteristics, the nodes of the internet of things equipment in the sub-regions can be conveniently retrieved and selected, and the retrieval efficiency of the internet of things equipment is improved.

Further optionally, the internet of things space cloud picture which is authorized to be viewed by the user can be displayed according to the user level, that is, when the internet of things space cloud picture needs to be displayed, the viewing authorization level of the user to the internet of things space cloud picture is obtained, so that cloud picture contents corresponding to the viewing authorization level are displayed, wherein different cloud picture contents are correspondingly displayed according to different usage authorization levels.

For example, the level of the viewing permission of the user a on the internet of things space cloud picture is 3, for example, the level of the common user can be used for displaying the equipment nodes and the related information of the common distribution box in the internet of things space cloud picture; the level of the viewing authority of the user B on the space cloud picture of the Internet of things is 2, such as a member user level, and the level can display equipment nodes and related information of a high-level distribution box (such as the high-level distribution box has richer functions compared with a common distribution box) in the space cloud picture of the Internet of things; the level of permission for viewing the internet of things space cloud picture by the user C is 1 level, for example, the level of maintenance personnel can show equipment nodes such as a high-grade distribution box and a common distribution box in the internet of things space cloud picture, and can also show equipment nodes of the distribution box with damaged equipment.

Through the optional mode, the spatial cloud picture of the Internet of things which is viewed by the user with the permission can be displayed according to the users with different permission levels, more service requirements are met, the situation that the user views the content which is viewed and/or used by the user without the permission is avoided, and the data privacy, the safety and the like are improved.

206. And acquiring the input retrieval condition information.

In this embodiment, a user can input retrieval condition information according to a displayed internet of things space cloud picture so as to quickly find out the internet of things equipment required to be used. The retrieval condition may be a relevant characteristic of the internet of things device that the user has a right to request for use, for example, the internet of things device is a distribution box, and the relevant characteristic may include an area where the distribution box is located, an idle state, a storage space size, a model of the distribution box, a distance between the distribution box and the user, and the like.

207. And in the space cloud picture of the Internet of things, searching the Internet of things equipment nodes of which the states and/or the use authorities accord with the searching condition information.

Specifically, the retrieval condition information may be subjected to data matching search in a background database corresponding to the internet of things space cloud map, if no internet of things device node whose state and/or usage right conform to the retrieval condition information is retrieved, prompt information whose corresponding result is not retrieved may be output, and if an internet of things device node whose state and/or usage right conform to the retrieval condition information is retrieved, the process shown in step 208 may be executed.

208. And displaying the retrieved Internet of things equipment nodes in the Internet of things space cloud picture in a protruding way.

The highlighting form can have various optional modes, such as highlighting the retrieved internet of things equipment nodes in the internet of things space cloud picture, or thickening the fonts, adding underlines, flashing the internet of things equipment nodes, shaking and the like. Through the prominent display mode, the user can find the retrieved Internet of things equipment node at the first time, and the efficiency of inquiring the retrieval result information by the user is improved.

209. And determining target Internet of things equipment to be used according to the selected Internet of things equipment nodes in the Internet of things space cloud picture.

For example, a user may select an internet of things device node highlighted in the internet of things space cloud picture, or select other internet of things device nodes in the internet of things space cloud picture, and determine a target internet of things device to be used according to a selection instruction of the user. By the method, the target Internet of things equipment needing to be used can be prevented from being locked by manually inputting complex query information, the target Internet of things equipment needing to be used can be positioned by simple selection operation in the Internet of things space cloud picture, and certain efficiency can be improved. In addition, a user can realize partial functions through human-computer interaction operation on the space cloud picture of the Internet of things, for example, double clicking of a target distribution box node in the cloud picture can be regarded as application for the use permission of the distribution box; or dragging the target distribution box node from the A place to the B place in the cloud picture, and then considering that the distribution box needs to be distributed from the A place to the B place; or the target distribution box node is slid up in the cloud picture, so that the distribution box can be concerned, and the related information of the distribution box can be pushed subsequently. It should be noted that, in the actual application, there may be a plurality of human-computer interaction operation modes, and the functions executed in the actual application by these human-computer interaction operations may be preset according to the actual requirements.

Optionally, in the method of this embodiment, data interaction with a target internet of things device that needs to be used may also be automatically implemented through the internet of things space cloud map, so as to complete invoking the target internet of things device, and step 209 may specifically include: firstly, acquiring equipment resource authorization corresponding to a selected Internet of things equipment node; and then, data interaction is carried out between the equipment and the target Internet of things equipment by using the equipment resource authorization. Device resource authorization may include, among other things, authorization for the device to use resources such as content/rights, time of use, region of use, etc. After obtaining the device resource authorization, the data interaction with the corresponding internet of things device may include permission use information, device use state information, and the like.

Further, in order to ensure data privacy and security in the data interaction process, the data interaction with the target internet of things device by using device resource authorization may specifically include: and encrypting or decrypting the interactive data by using the temporary key so as to realize data interaction with the target Internet of things equipment.

For example, as shown in fig. 5, in the development of a commercial activity, after acquiring device resources through a cloud rule, the commercial activity server may distribute a temporary key to the device and the commercial activity server through a secure link for authorization, and after acquiring the temporary key, both sides acquire temporary authorization, and may perform direct communication at the near end. Data encrypted without a key are regarded as illegal data and are not accepted. In addition, if all business services are executed, data interaction is carried out through the Internet of things platform, and a temporary secret key authorization scheme can be omitted.

Further, after data interaction is performed between the target internet of things device and the device authorized by the device resource, the method of this embodiment may further include: and in the space cloud picture of the Internet of things, dynamically changing and updating the state and/or the authority of the Internet of things equipment node corresponding to the target Internet of things equipment. After the internet of things equipment is used in the query, the dynamic change of the state and/or the authority of the internet of things equipment can be changed, and through the real-time dynamic change updating mode, other users can timely know the state change of the target internet of things equipment used by the users when the internet of things equipment is retrieved by using the internet of things space cloud picture, so that the internet of things equipment is bypassed, and the really usable internet of things equipment is found. Therefore, the situation that the equipment is occupied by multiple people for conflict can be effectively avoided, and the probability of successful use of the equipment of the Internet of things is improved.

In order to illustrate the specific implementation process of the above embodiment, the following application scenarios are given, but not limited to:

taking internet of things equipment as an example of a distribution box, after receiving a user order, a merchant a prepares a corresponding order dish for the user order, and at this time, needs to find a spare distribution box around the merchant a so as to place the prepared dish in the distribution box, so that a distributor can perform a corresponding distribution task. In order to quickly find out the free distribution boxes around the merchant a, the merchant a may open a spatial cloud graph of the internet of things corresponding to the distribution boxes, where the cloud graph includes at least one distribution box node existing at least one geographic location, and dynamic change information of the corresponding state and/or authority of each distribution box node, such as the occupied state of the distribution box (whether the distribution box is free or not), the model of the distribution box (such as a large box, a medium box, and a small box), the function of the distribution box (whether the distribution box is available for transportation in a heat preservation state or not), which user authority may be authorized to use the distribution box, and the like. The merchant A inputs a retrieval condition in the cloud picture, for example, a large box which is in an idle state, can keep warm and is authorized to be used is in a range that the distance from the merchant A is less than a certain threshold value. After the cloud picture background searches the corresponding distribution box nodes according to the search condition, the nodes can be prominently displayed in the cloud picture so as to facilitate the selection and use of the merchant A. When the merchant A clicks the highlighted distribution box node B and confirms the use of the highlighted distribution box node B, a temporary secret key is distributed to the distribution box B and a terminal corresponding to the merchant A through a secure link, after the temporary secret key is obtained by the merchant A and the distribution box B, temporary authorization is obtained, and then direct communication can be implemented at the near end. After obtaining the temporary authorization, the merchant A can send a person to a position corresponding to the distribution box B in the cloud picture to take back the distribution box B, then a lock of the distribution box B is opened by using the temporary authority, the order dishes which are manufactured are placed in the distribution box B and locked, the information is uploaded to a distribution service end, the distribution service end arranges distribution personnel to get the distribution box B from the door, and finally corresponding distribution tasks are executed, and the order dishes are distributed to order users through the distribution box B.

Compared with the prior art, the processing method for the internet of things equipment provided by the embodiment generates a dynamic internet of things spatial cloud map according to the attribute parameters of at least one internet of things equipment, wherein the internet of things spatial cloud map not only includes at least one internet of things equipment node existing at least one geographic location, but also includes dynamic change information of corresponding states and/or permissions of each internet of things equipment node. And then can utilize this dynamic thing networking space cloud picture, the target thing networking equipment that needs to use is retrieved to quick accuracy, can help the user to find required thing networking equipment fast promptly, has improved the retrieval and the availability factor of thing networking equipment to can carry out effectual management to thing networking space/address. Moreover, the dynamic internet of things space cloud picture enables human-computer interaction to be more convenient and fast, operation to be simple and convenient, and use experience of users to be improved.

Further, as a specific implementation of the method shown in fig. 1 and fig. 2, this embodiment provides a processing apparatus for an internet of things device, and as shown in fig. 6, the apparatus includes: an acquisition module 31, a generation module 32, and a retrieval module 33.

The obtaining module 31 may be configured to obtain attribute parameters of each internet of things device;

the generating module 32 is configured to generate a dynamic internet of things spatial cloud map according to the attribute parameters, where the internet of things spatial cloud map includes at least one internet of things device node existing at each geographic location and dynamic change information of a state and/or permission corresponding to each internet of things device node;

and the retrieval module 33 is configured to retrieve the target internet of things device to be used by using the internet of things space cloud map.

In a specific application scenario, the generating module 32 may be specifically configured to create a device model that changes with time according to an internet of things address, attribute information, event information, and service information corresponding to an internet of things device; and taking the equipment model as the dynamic description of the equipment nodes of the Internet of things to generate the Internet of things space cloud picture.

In a specific application scenario, the apparatus further comprises: a display module;

the display module can be used for searching various types of Internet of things equipment nodes before searching target Internet of things equipment needing to be used by utilizing the Internet of things space cloud picture, and marking corresponding geographic positions of the searched Internet of things equipment nodes in the Internet of things space cloud picture; and displaying dynamic change information of the corresponding state and/or authority of the equipment node of the Internet of things in the space cloud picture of the Internet of things according to the dynamic description of the equipment model.

In a specific application scenario, the display module is specifically configured to dynamically update a geographic location, and/or device usage information, and/or device anomaly information corresponding to a device node of the internet of things in the internet of things spatial cloud map, with reference to the dynamic description of the device model; and/or performing sub-region frame selection on the Internet of things equipment nodes of the same rights belonging to the same position region, wherein the frame selection region range of the sub-region is dynamically adjusted according to the change of the Internet of things equipment nodes corresponding to the rights belonging to the object.

In a specific application scenario, optionally, sub-regions with different region characteristics respectively correspond to different rights belonging objects, and the region characteristics at least include sub-region color characteristics, and/or sub-region line characteristics, and/or sub-region labeling characteristics.

In a specific application scenario, the display module may be further configured to, when the internet of things space cloud picture needs to be displayed, obtain a viewing permission level of the internet of things space cloud picture by a user, so as to display cloud picture contents corresponding to the viewing permission level, where different usage permission levels respectively correspond to different cloud picture contents.

In a specific application scenario, the retrieval module 33 is specifically configured to obtain input retrieval condition information; in the Internet of things space cloud picture, searching Internet of things equipment nodes of which the states and/or the use permissions meet the searching condition information; the retrieved Internet of things equipment nodes are prominently displayed in the Internet of things space cloud picture; and determining the target Internet of things equipment needing to be used according to the selected Internet of things equipment node in the Internet of things space cloud picture.

In a specific application scenario, the retrieval module 33 may be further configured to obtain device resource authorization corresponding to the selected internet of things device node; and performing data interaction with the target Internet of things equipment by using the equipment resource authorization.

In a specific application scenario, the retrieval module 33 may be further configured to encrypt or decrypt the interaction data by using the temporary key, so as to implement data interaction with the target internet of things device.

In a specific application scenario, the apparatus further comprises: an update module;

and the updating module can be used for updating the dynamic change of the state and/or the authority of the equipment node of the internet of things corresponding to the target equipment of the internet of things in the space cloud picture of the internet of things after the equipment resource authorization is utilized and the data interaction is carried out between the equipment node of the internet of things and the target equipment of the internet of things.

It should be noted that other corresponding descriptions of the functional units related to the processing apparatus of the internet of things device provided in this embodiment may refer to the corresponding descriptions of the methods in fig. 1 and fig. 2, and are not described herein again.

Based on the method shown in fig. 1 and fig. 2 and the virtual device shown in fig. 6, 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 computer program implements the method shown in fig. 1 and fig. 2.

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 of the embodiments of the present application.

Based on the method shown in fig. 1 and fig. 2 and the virtual device embodiment shown in fig. 6, in order to achieve the above object, an embodiment of the present application further provides a processing device of an internet of things device, which may specifically be a smart phone, a smart cookware device, a personal computer, a server, a tablet computer, or other network devices, and the 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 above-described method as shown in fig. 1 and 2.

Optionally, the entity device may further include a user interface, a network interface, a camera, a Radio Frequency (RF) circuit, a sensor, an audio circuit, a WI-FI module, and the like. 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., WI-FI interface), etc.

It will be understood by those skilled in the art that the above-described physical device structure provided in the present embodiment does not constitute a limitation of such physical devices, and may include more or less components, or combine certain components, or arrange different components.

The storage medium may further include an operating system and a network communication module. The operating system is a program that manages the hardware and software resources of the above-described physical devices, and supports the operation of the information processing program as well as other software and/or programs. The network communication module is used for realizing communication among components in the storage medium and communication with other hardware and software in the information processing entity device.

Through the above description of the embodiments, those skilled in the art will clearly understand that the present application can be implemented by software plus a necessary general hardware platform, and can also be implemented by hardware. By applying the scheme provided by the embodiment, compared with the prior art, the embodiment generates a dynamic internet of things spatial cloud picture according to the attribute parameters of at least one piece of internet of things equipment, wherein the internet of things spatial cloud picture not only contains at least one piece of internet of things equipment node existing at least one geographic position, but also contains dynamic change information of corresponding states and/or permissions of each piece of internet of things equipment node. And then can utilize this dynamic thing networking space cloud picture, the target thing networking equipment that needs to use is retrieved to quick accuracy, can help the user to find required thing networking equipment fast promptly, has improved the retrieval and the availability factor of thing networking equipment to can carry out effectual management to thing networking space/address. Moreover, the dynamic internet of things space cloud picture enables human-computer interaction to be more convenient and fast, operation to be simple and convenient, and use experience of users to be 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.

Claims (13)

1. A processing method of Internet of things equipment is characterized by comprising the following steps:

acquiring attribute parameters of at least one piece of Internet of things equipment;

generating a dynamic internet of things space cloud picture according to the attribute parameters, wherein the internet of things space cloud picture comprises at least one internet of things equipment node existing at least one geographic position and dynamic change information of a corresponding state and/or authority of each internet of things equipment node;

and searching target Internet of things equipment required to be used by utilizing the Internet of things space cloud picture.

2. The method according to claim 1, wherein generating a dynamic internet of things spatial cloud map according to the attribute parameters specifically includes:

establishing an equipment model which changes along with time according to an Internet of things address, attribute information, event information and service information corresponding to the Internet of things equipment;

and taking the equipment model as the dynamic description of the equipment nodes of the Internet of things to generate the Internet of things space cloud picture.

3. The method of claim 2, wherein prior to retrieving the target internet of things device for use using the internet of things spatial cloud map, the method further comprises:

searching various types of Internet of things equipment nodes, and marking corresponding geographic positions of the searched Internet of things equipment nodes in the Internet of things space cloud picture;

and displaying dynamic change information of the corresponding state and/or authority of the equipment node of the Internet of things in the space cloud picture of the Internet of things according to the dynamic description of the equipment model.

4. The method according to claim 3, wherein the displaying, in the internet of things space cloud map, dynamic change information of corresponding states and/or permissions of the internet of things device nodes according to the dynamic description of the device model specifically comprises:

dynamically updating the geographic position, the device use information and/or the device abnormal information corresponding to the device node of the internet of things in the spatial cloud picture of the internet of things by referring to the dynamic description of the device model; and/or the presence of a gas in the gas,

and performing sub-region frame selection on the Internet of things equipment nodes of the same rights belonging to the same position region, wherein the frame selection region range of the sub-region is dynamically adjusted according to the change of the corresponding rights belonging to the Internet of things equipment nodes.

5. The method according to claim 4, wherein the sub-regions with different region characteristics respectively correspond to different objects to which the rights belong, and the region characteristics at least include sub-region color characteristics, and/or sub-region line characteristics, and/or sub-region labeling characteristics.

6. The method of claim 3, further comprising:

when the internet of things space cloud picture needs to be displayed, the viewing permission level of a user on the internet of things space cloud picture is acquired so as to display the cloud picture content corresponding to the viewing permission level, wherein different cloud picture contents are correspondingly displayed in different use permission levels.

7. The method according to claim 1, wherein the retrieving the target internet of things device to be used by using the internet of things space cloud map specifically comprises:

acquiring input retrieval condition information;

in the Internet of things space cloud picture, searching Internet of things equipment nodes of which the states and/or the use permissions meet the searching condition information;

the retrieved Internet of things equipment nodes are prominently displayed in the Internet of things space cloud picture;

and determining the target Internet of things equipment needing to be used according to the selected Internet of things equipment node in the Internet of things space cloud picture.

8. The method according to claim 7, wherein the determining the target internet of things device to be used according to the internet of things device node selected from the internet of things spatial cloud map specifically includes:

obtaining equipment resource authorization corresponding to the selected Internet of things equipment node;

and performing data interaction with the target Internet of things equipment by using the equipment resource authorization.

9. The method of claim 7, wherein performing data interaction with the target internet of things device by using the device resource authorization specifically includes:

and encrypting or decrypting the interactive data by using the temporary key so as to realize data interaction with the target Internet of things equipment.

10. The method of claim 7, wherein after data interaction with the target IOT device using the device resource authorization, the method further comprises:

and in the Internet of things space cloud picture, dynamically changing and updating the state and/or authority of the Internet of things equipment node corresponding to the target Internet of things equipment.

11. The utility model provides a processing apparatus of thing networking device which characterized in that includes:

the acquisition module is used for acquiring the attribute parameters of at least one piece of Internet of things equipment;

the generating module is used for generating a dynamic internet of things space cloud picture according to the attribute parameters, wherein the internet of things space cloud picture comprises at least one internet of things equipment node existing at least one geographic position and dynamic change information of a corresponding state and/or authority of each internet of things equipment node;

and the retrieval module is used for retrieving the target Internet of things equipment required to be used by utilizing the Internet of things space cloud picture.

12. A processing device of an internet of things device comprising a memory and a processor, the memory storing a computer program, wherein the processor when executing the computer program implements the steps of the method of any one of claims 1 to 10.

13. A readable storage medium, on which a computer program is stored, which, when being executed by a processor, carries out the steps of the method of any one of claims 1 to 10.

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