CN114884982B - Multi-mine user online management method and system based on cloud service - Google Patents

Abstract

The invention discloses a cloud service-based multi-mine user online management method and system. According to the invention, resource mapping is generated according to the digital identity card of the mine user, and a resource copy is loaded to the mine local, the mine user equipment and the mine client system interact directly, and the mine client interacts with the cloud service to form a complete data function flow. The invention can effectively manage the system resources and system operation of a plurality of mine users, improve the utilization rate of the resources of the plurality of mines and effectively reduce the cost of local deployment and operation of the mine.

Description

Multi-mine user online management method and system based on cloud service

Technical Field

The invention relates to a cloud service-based multi-mine user online management method and system, and belongs to the technical fields of mining machinery technology and computer application.

Background

With the rapid development of unmanned, 5G communication, artificial intelligence, cloud computing and other technologies, an unmanned transportation system for surface mines is developed rapidly, and a scheme for floor operation is continuously presented in each large surface mine in China. The unmanned transportation system can effectively reduce labor cost, improve production efficiency and ensure safety of mining area operators. The unmanned transportation system is composed of a wireless network communication system (4G, 5G, wireless Mesh and the like), a cluster management system positioned in a control center, an unmanned mining dump truck, loading auxiliary operation equipment (an excavator, an electric shovel and the like), unloading auxiliary operation equipment (a bulldozer, a loader and the like), road maintenance auxiliary equipment (a land leveler, a sprinkler truck and the like) and service vehicles (a pick-up truck and the like).

The data center is indispensable for the construction of an unmanned transportation system of the surface mine, and hardware resources such as a server, a network and the like are deployed locally and used for the deployment and operation of a software system. When the scale of the production running equipment is adjusted, the needed hardware resources are usually also needed to be adjusted, and the idle or insufficient hardware resources can occur. When a mine group has a plurality of mines, each mine needs to purchase similar hardware resources for the operation of a local mine system, and thus a lot of resources are wasted.

In the construction process of an unmanned transportation system of an open mine, how to solve the fragmentation problem of mine digital system management, break through each mine, especially a plurality of mines belonging to the same group, integrate system management resources, reduce the construction cost of a data center, and is a problem to be solved by intelligent mines.

The first prior art is to operate an unmanned mine work management system through mine local or cloud service deployment. And information interaction, information screening analysis and necessary data support are provided for mine operation between the cloud platform and each system. However, the technology is based on a two-layer design of a server and a client, and is more deployed on mine sites in consideration of the time delay of communication between a vehicle terminal system and the server and the network performance of data interaction, and does not relate to a real cloud platform multi-mine management scene.

The second prior art is that the SaaS cloud platform performs information interaction with each system through a mine car and excavator interaction vehicle-mounted terminal system, a site dispatcher mobile terminal system, a manager mobile terminal system, an oiling car vehicle-mounted terminal system, a background data statistics and vehicle real-time monitoring system and an alarm information monitoring system, and is used for coordinating stable operation of each system, and in addition, information interaction can be performed among each system. However, this technique only utilizes the concept of SaaS. The SaaS is a software delivery mode, namely a mine management system deployment operation and a SaaS management platform are delivered to each terminal customer in a service mode, the terminal customer installs and operates the terminal system on each terminal equipment and vehicle used by the mine and interacts with a software system on the SaaS platform, and all described subsystems are operated on the mine locally and do not relate to a real cloud platform multi-mine management scene.

Disclosure of Invention

The purpose is as follows: in order to overcome the defects in the prior art, the invention provides a cloud service-based multi-mine user online management method and system, which are characterized in that a unique digital identity card is generated through a system, mines, authorization, resources and service identifiers, a resource mapping is generated for each mine user through the digital identity card, and a client system of each mine loads a local copy of the resources according to the digital identity card when running, so that the cloud service-based multi-mine user online management system is used by a local system and a device. The mine cloud service platform can effectively monitor and manage equipment, resources and local running conditions of the mine, so that the problem that a single mine cannot share data and large data analysis samples cannot be integrated is solved.

The technical scheme is as follows: in order to solve the technical problems, the invention adopts the following technical scheme:

in a first aspect, a cloud service-based multi-mine user online management system includes: mine cloud service platform, mine client system and equipment client system.

The mine cloud service platform comprises: mine user resource management module, mine user characteristic digital identity card management module and mine service calling module.

The mine client system comprises: mine customer end UI, mine local digital identity card management module, mine local resource management module.

The device client system: the device identification and the device information are used for identity verification when the vehicle device interacts with the mine client system in the production operation process.

The mine user resource management module comprises: equipment resources, value added service resources, mine users and authorized permissions.

The mine user characteristic digital identity card management module comprises: generating and verifying the mine user characteristic digital identity card.

The mine service calling module comprises: device APIs, value added service APIs, and service call routing.

The mine client UI comprises: the mine unmanned system is provided with an inherent functional interface and a cloud service authorized value-added service interaction interface; the cloud service authorized value-added service interactive interface is used for dynamically loading service resource information which is synchronized to the mine user local according to the mine client system.

The mining mountain local digital identity card management module comprises: the method comprises the steps of mine user digital identity card application, mine user digital identity card submission and mine user digital identity card storage.

The mining mountain local resource management module comprises: device copy, service copy, and device access interface.

Preferably, the device resource includes: a device resource pool and a device registry. The equipment resource pool is all mine-related equipment managed through the cloud service platform and is a super-abstract factory of mine equipment. The equipment registry generates concrete equipment with unique identification for the mine user from the equipment resource pool according to the mine user information, and the concrete equipment comprises key information capable of being mapped with equipment in the equipment resource pool.

The value added service resource includes: and (5) value added service resource pool and value added service mapping. The value-added service resource pool is a unified value-added service set provided by the cloud service platform. And generating a service map with unique identification for the mine user from the value-added service resource pool according to the mine user information, wherein the service map comprises a service interface information set required by the mine user and a service function customized by the mine user.

The mine user is used for managing basic information of the mine user.

The authorization permission is used for generating a corresponding permission file for mine users, and at least comprises the following steps: the type of authorization, the number of devices, the service identification, and the corresponding license terms.

The mine user characteristic digital identity card is used for acquiring equipment identification, value added service identification, authorization permission identification and user identification generated for the mine user through a mine user, an equipment registry, value added service mapping and authorization permission to form basic information of the digital identity card, encrypting the information through an encryption algorithm, and generating the encrypted information into a unique digital fingerprint identity card through a designated mode.

And the mine user characteristic digital identity card verification is used for analyzing and verifying the digital identity card submitted by the mine user, acquiring the resource information associated with the digital identity card and returning the resource information to the mine service calling module.

The service calling route is used for calling an externally provided service calling interface by the cloud service platform, calling the mine user characteristic digital identity card verification module to verify the digital identity card and analyze the associated authorized resource according to the digital identity card provided by the mine client system, and carrying out related processing by routing request information to a correct interface.

The equipment API is used for providing a unified equipment access interface for mine users.

The value-added service API is used for providing a unified value-added service access interface for mine users.

As a preferable scheme, the mine user digital identity card application is used for submitting user registration, authorization application and digital identity card application to the cloud service platform through the module.

The mine user digital identity card is submitted to a module which is called when the mine client system requests data from the cloud service end, and the locally stored digital identity card is submitted to the cloud service platform for identity verification.

The mine user digital identity card storage is used for storing the characteristic digital identity card generated by the cloud service platform for the mine user to a safe area.

Preferably, the device copy includes: equipment identification, general equipment information, and additional information locally relevant to the mine user.

And the equipment identifier is used for generating an equipment unique identification code associated with the mine user according to the mine user ID and the equipment key information when the equipment registry is created.

And the universal equipment information is used for acquiring equipment information copies which only contain information related to the operation of the mine client system from the cloud service platform.

The additional information locally related to the mine user is used for the custom attribute information added to the equipment in the operation of the mine client system.

The service copy is used for the mine client system to automatically integrate the service into the UI of the mine client system for mine users to use by loading the service copy into the local value added service related information.

The equipment access interface is used for accessing the mine local equipment to a unified interface provided by the system and has the function of initial verification of the equipment local.

In a second aspect, a method for online management of multiple mine users based on cloud services includes: mine user identity generation method, vehicle equipment resource management method and value added service resource management method.

The mine user identity generation method comprises the following steps:

step 1.1: the mine user invokes the digital identity card application module through the mine client UI, creates requests for registration, authorization application and digital identity card application of the mine user, and sends the requests to the mine cloud service platform.

Step 1.2: the mine cloud service platform creates mine users, generates a device registry corresponding to the mine users, generates value-added service mapping, and generates an authorization permission file through the device registry, the value-added service mapping and the authorization application of the users.

Step 1.3: and the mine cloud service platform assembles digital identity card information for the mine user according to the equipment identifier, the value added service identifier, the authorization permission identifier and the user identifier.

Step 1.4: the mine cloud service platform encrypts the digital identity card information and generates a digital identity card.

Step 1.5: and the mine cloud service platform returns the digital identity card to a mine client system of a mine user.

Step 1.6: the mine client system of the mine user receives the digital identity card and stores the digital identity card in a local disk of the system through the digital identity card storage module.

The vehicle equipment resource management method comprises the following steps:

step 2.1: when a mine client system of a mine user is started, carrying a digital identity card, and automatically sending a synchronization request to a mine cloud service platform.

Step 2.2: and the mine cloud service platform returns authorized equipment copy and service copy information to mine users.

Step 2.3: and the mine client system of the mine user reloads the mine client UI according to the service copy information.

Step 2.4: and updating equipment copy information and adding additional information by a mine user through a mine client system.

Step 2.5: when a mine vehicle equipment client system used in a mine of a mine user is started, checking whether the equipment client system is initialized or not, and if not, synchronizing and storing the local equipment identifier and equipment information to the local of the mine vehicle through an interface provided by the mine client system; if so, carrying the device identification request to access the mine client system.

Step 2.6: the mine vehicle equipment client systems used in mines of mine users carry own equipment identifiers during each interaction, so that the mine vehicle equipment client systems can be used for verification, and subsequent data interaction can be performed if the local primary verification is successful; and if the local primary verification fails, a secondary verification request needs to be initiated to the mine cloud service platform.

And 2.7, the mine client system of the mine user carries the digital identity card and sends a device verification request to the mine cloud service platform.

Step 2.8: the mine cloud service platform receives the request information of the mine client system, analyzes the mine user digital identity card, calls the mine user characteristic digital identity card verification module, verifies the validity of the digital identity card, and analyzes mine user resources contained in the digital identity card.

Step 2.9: and the mine cloud service platform checks whether the requested equipment is legal according to the mine user equipment registry information, and returns a check result to the mine client system.

Step 2.10: and the mine client system of the mine user receives the verification result returned by the mine cloud service platform and decides whether to continue to carry out subsequent data interaction with the request equipment.

The value added service resource management method comprises the following steps:

step 3.1: when a mine client system of a mine user is started, carrying a digital identity card, and automatically sending a synchronization request to a mine cloud service platform.

Step 3.2: and the mine cloud service platform returns authorized equipment copy and service copy information to the mine client system of the mine user.

Step 3.3: and the mine client system of the mine user reloads the mine client UI according to the service copy information.

Step 3.4: and updating equipment copy information and adding additional information by a mine user through a mine client system.

Step 3.5: and when the mine user operates at the UI interface of the mine client and uses the value-added service, the mine client system carries the digital identity card to send a value-added service calling request to the mine cloud service platform.

Step 3.6: the mine cloud service platform receives the request information of the mine client system, analyzes the mine user digital identity card, calls the mine user characteristic digital identity card verification module, verifies the validity of the digital identity card, and analyzes mine user resources contained in the digital identity card.

Step 3.7: and checking whether the mine user has the authority to access the appointed resource or not by the mine cloud service platform according to the mine user resource information returned in the last step, and routing to the appointed API according to the request information.

Step 3.8: and the mine cloud service platform returns value-added service data according to the appointed API interface, and returns a request response to the mine user client system.

Step 3.9: and the mine client system of the mine user receives the returned value-added service data and presents the result to the mine client UI.

As a preferable scheme, the method for generating the digital identity card comprises the following steps:

step 1: the mine user fills in the user registration application and the authorization application through the mine client system.

Step 2: and after receiving the application, the mine cloud service platform registers the user and generates a user identifier.

Step 3: and the mine cloud service platform creates a device registry for the user according to the authorization application, and creates a value added service mapping for the user.

Step 4: and the mine cloud service platform generates an authorization permission file according to the authorization application information and the value-added service identifier.

Step 5: the mine cloud service platform generates digital identity card information according to the user identification, the equipment identification, the value-added service identification and the authorization permission identification; encrypting the digital identity card information through an encryption algorithm; the encrypted data generates a digital identity card.

Step 6: and the mine cloud service platform returns the digital identity card to the mine client system and stores the digital identity card to the local.

As a preferred scheme, the digital identity card updating method comprises the following steps:

step 1: mine users submit an authorized update application through the mine client system.

Step 2: and the mine cloud service platform receives the authorization updating application and analyzes the mine user digital identity card.

Step 3: calling a digital identity card identification interface to analyze data information corresponding to the digital identity card; and analyzing the original information through a decryption algorithm.

Step 4: and searching whether the user is legal or not according to the associated user identification in the original information.

Step 5: and generating a device registry according to the authorization updating application information, and generating a service resource mapping.

Step 6: and generating a new authorization permission file according to the authorization updating application information and the service resource mapping information.

Step 7: the newly generated device registry is merged into the existing device registry.

Step 8: the newly generated service resource maps are merged into the existing service map.

Step 9: and regenerating the digital identity card information according to the user identification, the merged device registry, the merged service map, the existing authorized license and the newly generated authorized license.

Step 10: encrypting the digital identity card information and generating a new digital identity card.

Step 11: the new digital identity card is returned to the mine client system to replace the old digital identity card.

As a preferred scheme, the method for loading equipment copies and service copies by the mine client system comprises the following steps:

step 1: and starting the mine client system to acquire the locally stored digital identity card.

Step 2: and the mine client system sends a synchronous request of equipment copy and service copy to the mine cloud service platform, and a digital identity card is attached.

Step 3: and the mine service calling module receives the request, analyzes the digital identity card and verifies the legality.

Step 4: the mine service calling module calls the digital identity card identification interface to decrypt the digital identity card information.

Step 5: the mine user characteristic digital identity card management module acquires the user identification and verifies the legality of the user.

Step 6: the mine user characteristic digital identity card management module acquires authorization permission information and verifies the legality and the period of authorization.

Step 7: the mine user characteristic digital identity card management module returns the related information of the digital identity card to the mine service calling module.

Step 8: the mine user resource management module inquires the equipment registry and inquires information corresponding to the equipment identifier.

Step 9: and the mine user resource management module inquires the equipment resource pool to acquire equipment information required by the mine user.

Step 10: the mine user resource management module assembles equipment copy information.

Step 11: the mine user resource management module inquires service mapping and information corresponding to service identification.

Step 12: the mine user resource management module inquires the service resource pool to acquire relevant basic information.

Step 13: the mine user resource management module assembles service copy information.

Step 14: and the mine cloud service platform returns the equipment copy information and the service copy information to the mine client system.

Step 15: the mine client system updates the local device copy and the service copy.

Step 16: the mine client system reloads the client system UI.

The beneficial effects are that: according to the cloud service-based multi-mine user online management method and system, resource mapping is generated according to the digital identity card of the mine user, resource copies are loaded to the mine local area, mine user equipment and a mine client system interact directly, and the mine client interacts with the cloud service to form a complete data function flow. The invention can effectively manage the system resources and system operation of a plurality of mine users, improve the utilization rate of the resources of the plurality of mines and effectively reduce the cost of local deployment and operation of the mine.

Drawings

Fig. 1 is a schematic structural diagram of a multi-mine user management system based on cloud services.

Fig. 2 is a schematic diagram of a main module of a cloud service.

Fig. 3 is a schematic diagram of main modules of a mine client system and an equipment client system.

FIG. 4 is a schematic diagram of a device resource pool, device registry, and device replica relationship.

FIG. 5 is a schematic diagram of service resource pool, service map and service replica relationship.

Fig. 6 is a schematic diagram of basic information of authorization permissions.

Fig. 7 is a schematic diagram of digital identification card information and digital fingerprint identification generation.

FIG. 8 is a flow chart for digital identification card generation.

FIG. 9 is a flow chart for updating digital ID card.

Fig. 10 is a client system start-up flowchart.

Detailed Description

The invention will be further described with reference to specific examples.

As shown in fig. 1, a multi-mine user online management system based on cloud service includes: mine cloud service platform, mine client system and equipment client system; as shown in fig. 2, the mine cloud service platform includes: the mine user resource management module, the mine user characteristic digital identity card management module and the mine service calling module; as shown in fig. 3, the mine client system includes: the mine client system comprises a mine client UI, a mine local digital identity card management module and a mine local resource management module, wherein the equipment client UI, an equipment identifier and equipment information.

And deploying and operating the mine cloud service platform on a cloud platform of a system provider or a local private cloud platform of a mine group, carrying out centralized management on authority and resources of all mine users of the system provider or all mines subordinate to the mine group, and providing corresponding value-added services. The mine cloud service platform manages mine user rights, equipment resources and value-added services of each mine client system; the mine client system manages the system access authority of the equipment client and the data interaction between the equipment client and the mine client system.

The mine user resource management module mainly comprises: equipment resources, value added service resources, mine users and authorized permissions.

The equipment resources mainly comprise: a device resource pool and a device registry. The equipment resource pool is all mine related equipment managed by the cloud service platform, comprises basic information such as manufacturers, types, specification models and the like of the equipment, and is a super abstract factory of the mine equipment. The equipment registry generates concrete equipment with unique identification for the mine user from the equipment resource pool according to the mine user information, and the concrete equipment comprises key information capable of being mapped with equipment in the equipment resource pool.

The value added service resources mainly comprise: and (5) value added service resource pool and value added service mapping. The value-added service resource pool is a unified value-added service set provided by the cloud service platform and comprises OTA upgrading, data storage, statistical analysis, big data prediction and the like. And generating a service map with unique identification for the mine user from the value-added service resource pool according to the mine user information, wherein the service map only comprises a service interface information set required by the mine user and a service function customized by the mine user.

The mine user is mainly responsible for managing basic information of the mine user.

The authorization permission is mainly responsible for generating a corresponding permission file for mine users, and at least comprises the following steps: the authorization type, the number of devices, the service identification and the corresponding license terms, wherein the license terms mainly relate to the two parts of the device and the service, the device license terms and the value added service terms.

The mine user characteristic digital identity card management module mainly comprises: and generating and verifying the mine user characteristic digital identity card. The mine user characteristic digital identity card is generated, equipment identification, value-added service identification, authorization permission identification and user identification generated for the mine user are obtained through a mine user, an equipment registry, value-added service mapping and authorization permission, basic information of the digital identity card is formed, the information is encrypted through an encryption algorithm, and the encrypted information is generated into a unique digital fingerprint identity card through a designated mode. The mine user characteristic digital identity card verification is mainly responsible for analyzing and verifying the digital identity card submitted by the mine user, acquiring the resource information associated with the digital identity card and returning the resource information to the mine service calling module.

The mine service calling module mainly comprises: the service calling route is a service calling interface provided by the cloud service platform outside, and according to the digital identity card provided by the mine client system, firstly, a mine user characteristic digital identity card verification module is called to verify the digital identity card and analyze the associated authorized resource, and then the associated authorized resource is routed to a correct interface through request information for relevant processing. The equipment API provides a unified equipment access interface for mine users; the value-added service API provides a unified value-added service access interface for mine users.

The mine client UI mainly comprises: and a functional interface and a value-added service interaction interface of cloud service authorization inherent to the mine unmanned system. The cloud service authorization value-added service interaction interface is dynamically loaded according to service resource information which is synchronized to the mine user by the mine client system.

The mining mountain local digital identity card management module mainly comprises: the method comprises the steps of mine user digital identity card application, mine user digital identity card submission and mine user digital identity card storage.

The mine user applies for the digital identity card, and submits user registration, authorization application and digital identity card application to the cloud service platform through the module.

The mine user digital identity card submitting is a module called when the mine client system requests data from the cloud service end and is used for submitting the locally stored digital identity card to the cloud service platform for identity verification.

The mine user digital identity card storage is mainly used for storing the characteristic digital identity card generated by the cloud service platform for the mine user in a safe area.

The mining mountain local resource management module mainly comprises a device copy, a service copy and a device access interface.

The device copy mainly comprises: equipment identification, general equipment information, and additional information locally relevant to the mine user. The equipment identification is to generate an equipment unique identification code associated with a mine user according to the mine user ID and equipment key information (such as VIN) when an equipment registry is created; the general equipment information is equipment information copy which is obtained from the cloud service platform and only contains information related to the operation of the mine client system; the additional information locally related to mine users is custom attribute information added to the equipment in the operation of the mine client system. The device copies are in one-to-one correspondence with the devices in the cloud service platform device registry, and the devices outside the device registry cannot be used.

The service copy mainly comprises the following steps: value added service identification, value added service related information and client localization related processing functions. The mine client system automatically integrates the service into the UI of the mine client system for mine users to use by loading the related information of the local value added service.

The equipment access interface is a unified interface provided for accessing local equipment of the mine to the system, and has the function of initial verification of the local equipment.

The equipment client system is a vehicle-mounted client intelligent system which operates on equipment and can interact with the mine client system, and mainly comprises functions inherent to equipment clients UI, local information management (equipment identification and equipment information) and mine unmanned system equipment clients. The equipment client system synchronizes the corresponding equipment identification and equipment information to the local through an interface provided by the mine client system for storage, and is used for identity verification when the vehicle equipment interacts with the mine client system in the production operation process.

A multi-mine user online management method based on cloud service mainly comprises the following steps: mine user identity generation method, vehicle equipment resource management method and value added service resource management method.

When a mine group A needs to collect and intensively monitor the use resources and operation data of subordinate mines, or when a mine unmanned system overall solution provider needs to collect mine operation data and conduct relevant big data analysis and prediction according to the data, by the method, a unique digital identity card is generated for each mine user on a mine cloud service platform, equipment resources and value added service resources of each mine are associated with the digital identity card, and different resources and authorizations of different mines are effectively managed and monitored.

Meanwhile, the mine cloud service platform can provide function expansion for collecting local operation data according to clients and data analysis requirements. Therefore, the barriers that data cannot be shared and resources cannot be monitored caused by single mine operation can be broken, and effective and real big data analysis prediction support is provided for mine operation.

1) The mine user identity generation method comprises the following specific steps:

step 1: the mine user submits a registration authorization application. The mine user A calls the digital identity card application module through the mine client UI, creates requests of mine user registration, authorization application and digital identity card application, and sends the requests to the mine cloud service platform.

Step 2: the mine cloud service platform creates a mine user A, generates a device registry corresponding to the mine user A, generates a value-added service mapping, and generates an authorization permission file through the device registry, the value-added service mapping and the user's authorization application.

Step 3: and the mine cloud service platform assembles digital identity card information for the mine user A.

Step 4: the mine cloud service platform encrypts the digital identity card information and generates a digital identity card.

Step 5: and the mine cloud service platform returns the digital identity card to the mine client system of the mine user A.

Step 6: and the mine client system of the mine user A receives the digital identity card and stores the digital identity card into a local disk of the system through the digital identity card storage module.

Step 7: and (5) registering and authorizing applications of other mine users, and repeating the steps 1-6.

2) The vehicle equipment resource management method comprises the following specific steps:

step 1: when the mine client system of the mine user A is started, the digital identity card is carried to automatically send a synchronization request to the mine cloud service platform.

Step 2: and the mine cloud service platform returns authorized equipment copy and service copy information to the mine user A.

Step 3: the mine client system of the mine user A reloads the mine client UI according to the service copy information.

Step 4: mine user A updates equipment copy information and adds additional information through a mine client system.

Step 5: when a mine vehicle equipment client system used in a mine of a mine user A is started, checking whether the equipment client system is initialized or not, and if not, synchronizing and storing the local equipment identifier and equipment information to the mine vehicle local through an interface provided by the mine client system; if so, carrying the device identification request to access the mine client system.

Step 6: the mine vehicle equipment client system used in the mine of the mine user A carries a local equipment identifier when interacting each time, so that the mine vehicle equipment client system can be used for checking, and if the local primary checking is successful, the subsequent data interaction is carried out; and if the local primary verification fails, a secondary verification request needs to be initiated to the mine cloud service platform.

And 7, the mine client system of the mine user A carries a digital identity card and sends a device verification request to the mine cloud service platform.

Step 8: the mine cloud service platform receives the request information of the mine client system, analyzes the mine user digital identity card, calls the mine user characteristic digital identity card verification module, verifies the validity of the digital identity card, and analyzes mine user resources contained in the digital identity card.

Step 9: and the mine cloud service platform checks whether the requested equipment is legal according to the mine user equipment registry information, and returns a check result to the mine client system.

Step 10: and the mine client system of the mine user A receives a verification result returned by the mine cloud service platform and decides whether to continue to perform subsequent data interaction with the request equipment.

Step 11: and (5) checking the equipment resource use of other mine users, and repeating the steps 1-10.

3) The value added service resource management method comprises the following specific steps:

step 1: when the mine client system of the mine user A is started, the digital identity card is carried to automatically send a synchronization request to the mine cloud service platform.

Step 2: and the mine cloud service platform returns authorized equipment copy and service copy information to the mine client system of the mine user A.

Step 3: the mine client system of the mine user A reloads the mine client UI according to the service copy information.

Step 4: mine user A updates equipment copy information and adds additional information through a mine client system.

Step 5: and when the mine user A operates on the UI interface of the mine client and uses the value-added service, the mine client system carries a digital identity card to send a value-added service calling request to the mine cloud service platform.

Step 6: the mine cloud service platform receives the request information of the mine client system, analyzes the mine user digital identity card, calls the mine user characteristic digital identity card verification module, verifies the validity of the digital identity card, and analyzes mine user resources contained in the digital identity card.

Step 7: and according to the mine user resource information returned in the last step, the mine cloud service platform checks whether the mine user A has the authority to access the appointed resource, and routes the appointed resource to the appointed API according to the request information.

Step 8: and the mine cloud service platform returns value-added service data according to the appointed API interface, and returns a request response to the mine user client system.

Step 9: the mine client system of the mine user A receives the returned value-added service data and presents the result to the mine client UI.

Step 10: and (5) using the value added service resources of other mine users, and repeating the steps 1-9.

According to the embodiment shown in fig. 4, the device information in the device resource pool does not have a unique identifier and is indexed by key information such as a model number. The equipment in the equipment registry is provided with a unique identifier, the unique identifier is associated with equipment copies, and the unique identifier is associated with data in an equipment resource pool through key information such as models and the like. The unique identification of the equipment and the equipment information required by the operation of the local system are stored in the equipment copy, and meanwhile, the attribute of the additional information of the equipment can be added according to the local production requirement.

According to the illustration of fig. 5, services in a value added service resource pool provide specific service processing with generic service interface definitions. The service in the value added service mapping has a service unique identifier, and the service interface information required by the mine user is directly contained without customization; the customization is needed to increase the customization service processing. The service copy corresponds to the service in the service mapping table through the service identifier, and meanwhile contains relevant information loaded from the cloud service, and is used for loading the corresponding service by the client system. The client system adds a localization processing function according to the needs of mine users, performs preliminary processing on related data, and then calls a cloud service corresponding interface for final processing.

According to fig. 6, the authorization permissions mainly include an authorization type, a number of devices, a service identification, and an authorization deadline. The number of the devices is the total number of production operation devices required by mine users, is not limited to types, can add related types of devices to a device registry according to actual needs, and manages the authorized permission of the devices by matching with the authorized deadlines of the devices. The service identifier is a value-added service identifier purchased by a mine user, is matched with a permission term corresponding to the service identifier, and manages the authorization permission of the value-added service.

According to fig. 7, the digital identity card mainly forms basic information of the digital identity card based on mine user identification, authorization identification, equipment resource identification and value added service identification, and the digital fingerprint identity card is generated after the information is encrypted by an encryption algorithm.

According to the figure 8, a digital identity card generation flow for mine users is shown:

(1) Mine users fill in user registration applications and authorization applications through a client system,

(2) After receiving the application, the cloud service firstly registers the user and generates a user identifier;

(3) Then, according to the authorization application, a device registry is created for the user, and a value-added service mapping is created for the user;

(4) Generating an authorization permission file according to the authorization application information and the value added service identifier;

(5) Generating digital identity card information according to the user identification, the equipment identification, the value-added service identification and the authorization permission identification; encrypting the digital identity card information through an encryption algorithm; the encrypted data generates a digital fingerprint identity card;

(6) And returning the digital identity card to the mine client system and storing the digital identity card to the local.

According to fig. 9, the digital identity card updating process for mine users is as follows:

(1) Mine users submit authorized updating applications through a mine client system;

(2) The cloud service platform receives the application and analyzes the digital identity card of the mine user;

(3) Calling a digital identity card identification interface to analyze data information corresponding to the digital identity card; analyzing the original information through a decryption algorithm;

(4) Searching whether the user is legal or not according to the user identification associated with the digital identity card information;

(5) Generating a device registry according to the application information, and generating a service resource mapping;

(6) Generating a new authorization permission file according to the authorization application information and the service resource mapping information;

(7) Merging the newly generated device registry into an existing device registry;

(8) Merging the newly generated service resource mapping into the existing service mapping;

(9) Regenerating digital identity card information according to the user identification, the combined device registry, the combined service mapping, the existing authorized license and the newly generated authorized license;

(10) Encrypting the digital identity card information and generating a new digital fingerprint identity card;

(11) And returning to the mine client system to replace the old digital identity card.

According to the scheme shown in fig. 10, the device copy and service copy flows are loaded for the mine client system:

(1) Starting a client system to acquire a locally stored digital identity card;

(2) A digital identity card is attached to a cloud service sending device and a service copy synchronization request;

(3) The service calling module receives the request, analyzes the digital identity card and verifies the legality;

(4) The service calling module calls the digital identity card identification interface to decrypt the digital identity card information;

(5) The digital identity card recognition module acquires a user identifier and verifies the legality of the user;

(6) The digital identity card recognition module acquires authorization permission information and verifies the legality and the period of authorization;

(7) The digital identity card recognition module returns the related information of the digital identity card to the service dispatching module;

(8) Inquiring a device registry, and inquiring information corresponding to the device identifier;

(9) Inquiring an equipment resource pool to acquire equipment information required by a mine user;

(10) Assembling equipment copy information;

(11) Inquiring service mapping and inquiring information corresponding to the service identification;

(12) Inquiring a service resource pool to obtain related basic information;

(13) Assembling service copy information;

(14) Returning the equipment copy information and the service copy information to the mine client system;

(15) The mine client system updates the local equipment copy and the service copy;

(16) The mine client system reloads the client system UI.

The foregoing is only a preferred embodiment of the invention, it being noted that: it will be apparent to those skilled in the art that various modifications and adaptations can be made without departing from the principles of the present invention, and such modifications and adaptations are intended to be comprehended within the scope of the invention.

Claims (9)

1. A cloud service-based multi-mine user online management system is characterized in that: comprising the following steps: mine cloud service platform, mine client system and equipment client system;

the mine cloud service platform comprises: the mine user resource management module, the mine user characteristic digital identity card management module and the mine service calling module;

the mine client system comprises: mine customer end UI, mine local digital identity card management module and mine local resource management module;

the device client system: the device identification and the device information are used for identity verification when the vehicle device interacts with the mine client system in the production operation process;

The mine user resource management module comprises: equipment resources, value added service resources, mine users and authorized permissions;

the mine user characteristic digital identity card management module comprises: generating and verifying the mine user characteristic digital identity card;

the mine service calling module comprises: device APIs, value added service APIs, and service call routing;

the mine client UI comprises: the mine unmanned system is provided with an inherent functional interface and a cloud service authorized value-added service interaction interface; the cloud service authorized value-added service interactive interface is used for dynamically loading service resource information which is synchronized to the mine user local according to the mine client system;

the mining mountain local digital identity card management module comprises: applying for the digital identity card of the mine user, submitting the digital identity card of the mine user and storing the digital identity card of the mine user;

the mining mountain local resource management module comprises: device copy, service copy, and device access interface;

the device copy, comprising: equipment identification, general equipment information and additional information locally related to mine users;

the equipment identification is used for generating an equipment unique identification code associated with the mine user according to the mine user ID and the equipment key information when the equipment registry is created;

The general equipment information is used for acquiring equipment information copies which only contain information related to the operation of the mine client system from the cloud service platform;

additional information locally related to mine users is used for custom attribute information added to equipment in the operation of a mine client system;

the service copy is used for automatically integrating the service into the UI of the mine client system for mine users by loading the service copy into the local value-added service related information;

the equipment access interface is used for accessing the mine local equipment to a unified interface provided by the system and has the function of initial verification of the equipment local.

2. The cloud service-based multi-mine user online management system of claim 1, wherein:

the device resources include: a device resource pool and a device registry; the equipment resource pool is all mine related equipment managed by the cloud service platform and is a super abstract factory of mine equipment; the equipment registry generates concrete equipment with unique identification from the equipment resource pool according to the mine user information, and the concrete equipment comprises mapping key information capable of being mapped with equipment in the equipment resource pool;

The value added service resource includes: a value added service resource pool and a value added service mapping; the value added service resource pool is a unified value added service set provided by the cloud service platform; the value added service mapping generates a service mapping with unique identification for the mine user from a value added service resource pool according to mine user information, and the service mapping comprises a service interface information set required by the mine user and a service function customized by the mine user;

the mine user is used for managing basic information of the mine user;

the authorization permission is used for generating a corresponding permission file for mine users, and at least comprises the following steps: the type of authorization, the number of devices, the service identification, and the corresponding license terms.

3. The cloud service-based multi-mine user online management system of claim 1, wherein:

the mine user characteristic digital identity card is generated, and is used for acquiring equipment identification, value-added service identification, authorization permission identification and user identification generated for the mine user through a mine user, an equipment registry, value-added service mapping and authorization permission to form basic information of the digital identity card, encrypting the information through an encryption algorithm, and generating the encrypted information into a unique digital fingerprint identity card through a designated mode;

And the mine user characteristic digital identity card verification is used for analyzing and verifying the digital identity card submitted by the mine user, acquiring the resource information associated with the digital identity card and returning the resource information to the mine service calling module.

4. The cloud service-based multi-mine user online management system of claim 1, wherein:

the service calling route is used for calling a service calling interface provided by the cloud service platform outside, calling a mine user characteristic digital identity card verification module to verify the digital identity card and analyze out associated authorized resources according to the digital identity card provided by the mine client system, and carrying out related processing by requesting information route to a correct interface;

the equipment API is used for providing a unified equipment access interface for mine users;

the value-added service API is used for providing a unified value-added service access interface for mine users.

5. The cloud service-based multi-mine user online management system of claim 1, wherein:

the mine user digital identity card application is used for submitting user registration, authorization application and digital identity card application to the cloud service platform through the module;

The mine user digital identity card submitting module is used for a module called when the mine client system requests data from the cloud service end, and the locally stored digital identity card is submitted to the cloud service platform for identity verification;

the mine user digital identity card storage is used for storing the characteristic digital identity card generated by the cloud service platform for the mine user to a safe area.

6. A multi-mine user online management method based on cloud service is characterized by comprising the following steps of: comprising the following steps: a mine user identity generation method, a vehicle equipment resource management method and a value added service resource management method;

the mine user identity generation method comprises the following steps:

step 1.1: a mine user invokes a digital identity card application module through a mine client UI, creates a request for registration, authorization application and digital identity card application of the mine user, and sends the request to a mine cloud service platform;

step 1.2: the mine cloud service platform creates mine users, generates an equipment registry corresponding to the mine users, generates value-added service mapping, and generates an authorization permission file through the equipment registry, the value-added service mapping and the authorization application of the users;

step 1.3: the mine cloud service platform assembles digital identity card information for mine users according to the equipment identifier, the value added service identifier, the authorization permission identifier and the user identifier;

Step 1.4: encrypting the digital identity card information by the mine cloud service platform and generating a digital identity card;

step 1.5: the mine cloud service platform returns the digital identity card to a mine client system of a mine user;

step 1.6: the mine client system of the mine user receives the digital identity card and stores the digital identity card in a local disk of the system through the digital identity card storage module;

the vehicle equipment resource management method comprises the following steps:

step 2.1: when a mine client system of a mine user is started, carrying a digital identity card to automatically send a synchronization request to a mine cloud service platform;

step 2.2: the mine cloud service platform returns authorized equipment copy and service copy information to mine users;

step 2.3: the mine client system of the mine user reloads the mine client UI according to the service copy information;

step 2.4: the mine user updates equipment copy information and adds additional information through a mine client system;

step 2.5: when a mine vehicle equipment client system used in a mine of a mine user is started, checking whether the equipment client system is initialized or not, and if not, synchronizing and storing the local equipment identifier and equipment information to the local of the mine vehicle through an interface provided by the mine client system; if the mine client system is initialized, carrying a device identifier request to access the mine client system;

Step 2.6: the mine vehicle equipment client systems used in mines of mine users carry own equipment identifiers during each interaction, so that the mine vehicle equipment client systems can be used for verification, and subsequent data interaction can be performed if the local primary verification is successful; if the local primary verification fails, a secondary verification request needs to be initiated to the mine cloud service platform;

step 2.7, the mine client system of the mine user carries a digital identity card and sends a device verification request to the mine cloud service platform;

step 2.8: the mine cloud service platform receives the request information of the mine client system, analyzes the mine user digital identity card, calls the mine user characteristic digital identity card verification module, verifies the legitimacy of the digital identity card, and analyzes mine user resources contained in the digital identity card;

step 2.9: the mine cloud service platform checks whether the requested equipment is legal according to the mine user equipment registry information, and returns a checking result to the mine client system;

step 2.10: the mine client system of the mine user receives a verification result returned by the mine cloud service platform and decides whether to continue to perform subsequent data interaction with the request equipment;

The value added service resource management method comprises the following steps:

step 3.1: when a mine client system of a mine user is started, carrying a digital identity card to automatically send a synchronization request to a mine cloud service platform;

step 3.2: the mine cloud service platform returns authorized equipment copy and service copy information to a mine client system of a mine user;

step 3.3: the mine client system of the mine user reloads the mine client UI according to the service copy information;

step 3.4: the mine user updates equipment copy information and adds additional information through a mine client system;

step 3.5: when a mine user operates on a mine client UI interface and uses value-added service, the mine client system carries a digital identity card to send a value-added service calling request to a mine cloud service platform;

step 3.6: the mine cloud service platform receives the request information of the mine client system, analyzes the mine user digital identity card, calls the mine user characteristic digital identity card verification module, verifies the legitimacy of the digital identity card, and analyzes mine user resources contained in the digital identity card;

step 3.7: according to the mine user resource information returned in the last step, the mine cloud service platform checks whether the mine user has the authority to access the appointed resource or not, and routes to the appointed API according to the request information;

Step 3.8: the mine cloud service platform returns value-added service data according to the appointed API interface, and returns a request response to the mine user client system;

step 3.9: and the mine client system of the mine user receives the returned value-added service data and presents the result to the mine client UI.

7. The cloud service-based multi-mine user online management method of claim 6, wherein the method comprises the following steps:

the method for generating the digital identity card comprises the following steps:

step 1: filling in a user registration application and an authorization application by a mine user through a mine client system;

step 2: after receiving the application, the mine cloud service platform registers the user and generates a user identifier;

step 3: the mine cloud service platform creates a device registry for the user according to the authorization application, and creates a value-added service mapping for the user;

step 4: the mine cloud service platform generates an authorization permission file according to the authorization application information and the value-added service identifier;

step 5: the mine cloud service platform generates digital identity card information according to the user identification, the equipment identification, the value-added service identification and the authorization permission identification; encrypting the digital identity card information through an encryption algorithm; the encrypted data generates a digital identity card;

Step 6: and the mine cloud service platform returns the digital identity card to the mine client system and stores the digital identity card to the local.

8. The cloud service-based multi-mine user online management method of claim 6, wherein the method comprises the following steps:

the digital identity card updating method comprises the following steps:

step 1: mine users submit authorized updating applications through a mine client system;

step 2: the mine cloud service platform receives the authorization updating application and analyzes the digital identity card of the mine user;

step 3: calling a digital identity card identification interface to analyze data information corresponding to the digital identity card; analyzing the original information through a decryption algorithm;

step 4: searching whether the user is legal or not according to the associated user identification in the original information;

step 5: generating a device registry according to the authorization updating application information, and generating a service resource mapping;

step 6: generating a new authorization permission file according to the authorization updating application information and the service resource mapping information;

step 7: merging the newly generated device registry into an existing device registry;

step 8: merging the newly generated service resource mapping into the existing service mapping;

step 9: regenerating digital identity card information according to the user identification, the combined device registry, the combined service mapping, the existing authorized license and the newly generated authorized license;

Step 10: encrypting the digital identity card information and generating a new digital identity card;

step 11: the new digital identity card is returned to the mine client system to replace the old digital identity card.

9. The cloud service-based multi-mine user online management method of claim 6, wherein the method comprises the following steps:

the method for loading the equipment copy and the service copy by the mine client system comprises the following steps:

step 1: starting a mine client system to acquire a locally stored digital identity card;

step 2: the mine client system sends a synchronous request of equipment copy and service copy to the mine cloud service platform, and a digital identity card is attached;

step 3: the mine service calling module receives the request, analyzes the digital identity card and verifies the legality;

step 4: the mine service calling module calls the digital identity card identification interface to decrypt the digital identity card information;

step 5: the mine user characteristic digital identity card management module acquires a user identifier and verifies the legality of the user;

step 6: the mine user characteristic digital identity card management module acquires authorization permission information and verifies the legality and the period of authorization;

step 7: the mine user characteristic digital identity card management module returns the related information of the digital identity card to the mine service calling module;

Step 8: the mine user resource management module inquires an equipment registry and inquires information corresponding to equipment identifiers;

step 9: the mine user resource management module inquires the equipment resource pool to acquire equipment information required by a mine user;

step 10: the mine user resource management module assembles equipment copy information;

step 11: the mine user resource management module inquires service mapping and information corresponding to service identification;

step 12: the mine user resource management module inquires a service resource pool to acquire related basic information;

step 13: the mine user resource management module assembles service copy information;

step 14: the mine cloud service platform returns the equipment copy information and the service copy information to the mine client system;

step 15: the mine client system updates the local equipment copy and the service copy;

step 16: the mine client system reloads the client system UI.