CN117097763A - Active identification management platform based on identification analysis system and active identification technology - Google Patents

Abstract

The invention relates to the technical field of equipment identification of the Internet of things, in particular to an active identification management platform based on an identification analysis system and an active identification technology, wherein the platform is used for managing equipment and an active identification carrier of the equipment; the platform comprises an identification analysis module, a system setting module, an equipment grouping module and an equipment management module; the identification analysis module is used for carrying out prefix application management, data transmission key management and access management, and is also used for analyzing the identification coding information of the active identification carrier; the system setting module is used for setting authority information; the equipment grouping module is used for grouping and managing equipment; the device management module is used for managing device information of the device and health monitoring of operation data of the device. The invention can carry out centralized management on the active identification of various types of equipment, and promote the scale, standardization and low cost of the industrial Internet identification products and applications.

Description

Active identification management platform based on identification analysis system and active identification technology

Technical Field

The invention belongs to the technical field of equipment identification of the Internet of things, and particularly relates to an active identification management platform based on an identification analysis system and an active identification technology.

Background

The industrial Internet identification analysis system is an important component of an industrial Internet network system and is a nerve junction for supporting industrial Internet interconnection. The core elements of the industrial Internet identification analysis system comprise an identification code, an identification analysis system and an identification data service.

The identification code refers to an identity symbol which can uniquely identify physical resources such as materials, machines, products and virtual resources such as procedures, software, models, data and the like, and is similar to an identity card, and the identification code is usually stored in an identification carrier. The identification analysis system is a system capable of inquiring the network position of the target object or related information according to the identification code, and performs unique logic positioning and information inquiry on the physical object and the virtual object, and is a precondition and foundation for realizing accurate butt joint of a global supply chain system and an enterprise production system, full life cycle management of products and intelligent service. The identification data service refers to a data sharing shared service which can be used for carrying out industrial identification data management and across enterprises, industries, areas and countries by means of an identification coding resource and an identification analysis system.

The identification carrier refers to a physical entity carrying identification codes and is divided into an active identification carrier and a passive identification carrier. Passive identification carriers are typically attached to the surface of industrial equipment or products to facilitate reading by a reader. In the industrial internet, the passive identification carrier generally only carries the industrial internet identification code, but the remote network connection capability is lacking, and an identification reader-writer is required to be relied on to initiate an identification analysis request to an identification analysis server, so that the security capability is weak, and the necessary security capability required by certificates, algorithms, keys and the like is lacking. Common passive identification carriers are one-dimensional bar codes, two-dimensional bar codes, RFID, NFC, etc. The active identification carrier can be embedded in industrial equipment, bear industrial Internet identification codes and necessary security certificates, algorithms and keys thereof, has a networking communication function, and can actively initiate connection to an identification analysis service node or an identification data application platform and the like without triggering by means of identification read-write equipment. Universal Integrated Circuit Cards (UICCs), security chips (singlechips), communication modules, terminals, etc. are examples of active identification carriers.

From the above, the active identification technology makes up the defect of the passive identification technology, and can better promote the development of the Internet of things, so that the industrial Internet enables transformation and upgrading of different industries and becomes the most main methodology and propulsion path of digital transformation. At present, in the data acquisition link of the industrial Internet, different types of active identification carriers exist for a long time, and a collaborative development situation is formed. However, the application scene and the demand fragmentation lead to heterogeneous terminals, various network communication modes, forestation of industrial Internet platforms, and poor interconnection and interoperability between equipment and products of different factories. The enterprise has difficulty in acquiring the state information of each production device, cannot effectively master the device dynamics, often causes the production cycle to be prolonged due to the fact that the production line is coordinated according to the number of work orders and the device conditions in time effectively, and has the conditions of high time cost and low production efficiency, so that the production efficiency of the enterprise is difficult to promote and the production and manufacturing are difficult to cooperate.

Therefore, how to perform centralized management on active identifications of various types of equipment to enable data of the equipment to be unified to be gathered and processed, thereby promoting large-scale, standardized and low-cost application of industrial Internet identification products and applications, and becoming a problem to be solved urgently at present.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides an active identification management platform based on an identification analysis system and an active identification technology, which can perform centralized management on active identifications of various types of equipment, so that the data of the equipment can be converged and processed uniformly, thereby promoting the large-scale, standardized and low-cost industrial Internet identification products and applications.

In order to solve the technical problems, the invention adopts the following technical scheme:

an active identification management platform based on an identification analysis system and an active identification technology; the platform is used for managing the active identification carrier of the equipment and the equipment; the device is provided with an active identification carrier and an acquisition module; the acquisition module is used for acquiring the operation data of the equipment and transmitting the operation data to the platform through the active identification carrier;

the platform comprises an identification analysis module, a system setting module, an equipment grouping module and an equipment management module; the identification analysis module is used for carrying out prefix application management, data transmission key management and access management, and is also used for analyzing the identification coding information of the active identification carrier so as to acquire the network position and the identity information of the equipment; the system setting module is used for setting authority information, wherein the authority information comprises information of members, roles and organizations; the equipment grouping module is used for grouping and managing equipment; the group management comprises the steps of adding, editing, deleting and inquiring equipment groups; the device management module is used for managing device information of the device and health monitoring of operation data of the device.

Noun description: and prefix application management, namely, the management of prefix application provided when a user registers an account through a platform, such as enterprise information, legal information and contact information.

Preferably, the device management module is further provided with a device shadow function; the device management module is also used for reversely controlling the corresponding devices through the device shadow.

Preferably, the control content of the reverse control includes an acquisition frequency of an acquisition module.

Preferably, when the device management module performs health monitoring on the operation data of the device, if the monitoring result is that there is an abnormality, the device management module generates alarm information.

Preferably, the platform further comprises a data display module for displaying the received device operation data.

Preferably, the device further comprises a maintenance end; the maintenance end comprises a positioning module, a communication module and a state setting module; the state equipment module is used for setting a current state, wherein the current state comprises a maintenance state and a waiting state; the device management module is further configured to send maintenance information to a maintenance end that is in a waiting state and is closest to the abnormal device after the alarm information is generated, where the maintenance information includes information of the abnormal device.

Preferably, the device management module is further configured to receive overhaul completion information sent by the maintenance end after sending the maintenance information to the maintenance end; the equipment management module is also used for carrying out maintenance rechecking according to the real-time operation data of the corresponding equipment after receiving the maintenance completion information, and recording the rechecking result; the rechecking result comprises qualification and disqualification;

the platform also comprises a personnel management module, wherein maintenance personnel information corresponding to each maintenance end is stored in the personnel management module, and the maintenance personnel information comprises professional grades; the equipment management module is also used for searching the maintenance personnel information corresponding to the maintenance end in the personnel management module when the rechecking result is unqualified, sending a rework learning signal to the maintenance end if the professional level of the maintenance personnel is less than or equal to the preset level, screening the maintenance end of the maintenance personnel with the professional level being greater than the preset teaching level, and sending maintenance demonstration information to the maintenance end which is in a waiting state and is closest to the abnormal equipment; the maintenance presentation information includes information of an abnormal device.

Compared with the prior art, the invention has the following beneficial effects:

1. the method fuses the Internet of things technology and the identification analysis technology. The platform in the invention can perform centralized management on the equipment and the active identification carrier thereof. When the system is specifically used, after the user registers the account number on the platform, the permission setting and the equipment grouping setting can be performed through the system setting module and the equipment grouping module. After the equipment is started and operated, the identification analysis module can establish communication with the identification analysis module, and meanwhile, the acquisition module also acquires the operation data of the equipment and sends the operation data to the platform through the identification analysis module. Because the identification code of the active identification carrier has uniqueness, after registration and setting, the platform can carry out identity locking on the equipment and the operation data thereof through the active identification carrier. In this way, the active identification carriers of the devices can be managed intensively and effectively.

By using the method and the system, the dynamic state of each device can be mastered in time, so that the conditions of the production line and the like can be effectively coordinated according to the real-time conditions of the number of work orders, the conditions of the device and the like, the conditions of high time cost and low production efficiency in coordination are avoided, enterprises can effectively conduct collaborative production and manufacturing, and the production efficiency is improved.

In summary, the method and the system can perform centralized management on the active identifications of various types of equipment, so that the data of the equipment can be collected and processed uniformly, and the large-scale, standardized and low-cost industrial Internet identification products and applications are promoted.

2. The equipment management module can perform health monitoring on the operation data of the equipment, and can generate alarm information when the monitoring result is abnormal, so that staff can know the situation conveniently. When a worker knows the situation, the worker can also check the operation data of the equipment through the data display module, so that the specific problem can be analyzed in time.

3. The device management module is also provided with a device shadow function; the device management module is also used for reversely controlling the corresponding devices through the device shadow. Through the shadow function of the equipment, the manager can perform remote centralized control on the equipment.

4. The maintenance mode of the equipment can ensure that abnormal equipment can be effectively overhauled on one hand. On the other hand, for the maintenance personnel with unqualified maintenance, because the maintenance personnel just maintain the maintenance personnel and are unqualified, the maintenance personnel with high professional level performs on-site actual maintenance demonstration at the moment, and the specific insufficient and wrong places of the maintenance personnel can be deeply recognized through the comparison of actual operation, so that the actual maintenance operation capability of the maintenance personnel is increased in real time; if the place is not understood, the place can be communicated with the maintainer of high professional level on site at the first time, so that the learning effect is ensured. Of course, when in actual maintenance, if the maintenance personnel find that the equipment is difficult to maintain in an abnormal state at the current level, the maintenance end can also send maintenance completion information to the platform. And then, waiting until a maintainer with a high professional level performs actual operation maintenance and demonstration.

Drawings

For the purpose of making the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings, in which:

fig. 1 is a logic block diagram in an embodiment.

Detailed Description

The following is a further detailed description of the embodiments:

example 1

As shown in fig. 1, this embodiment discloses an active identifier management platform based on an identifier analysis system and an active identifier technology. The platform is used for managing the active identification carrier of the equipment. The device is provided with an active identification carrier and an acquisition module, wherein the acquisition module is used for acquiring operation data of the device and sending the operation data to the platform through the active identification carrier. In specific implementation, the active identification carrier can be integrated on a built-in MCU of the device.

The platform comprises an identification analysis module, a system setting module, an equipment grouping module, an equipment management module and a data display module.

The identification analysis module is used for prefix application management, data transmission key management and access management, and is also used for analyzing the identification coding information of the active identification carrier to obtain the network position and the identity information of the equipment. And prefix application management, namely, the management of prefix application provided when a user registers an account through a platform, such as enterprise information, legal information and contact information.

The system setting module is used for setting authority information, wherein the authority information comprises information of members, roles and organizations; the device grouping module is used for grouping and managing devices communicated with the platform; the group management includes the addition, editing, deletion and querying of device groups.

The device management module is used for managing device information of the device and health monitoring of operation data of the device. When the equipment management module monitors the operation data of the equipment in health, if the monitoring result is abnormal, the equipment management module generates alarm information.

The device management module also supports a device shadow function and is further used for controlling the corresponding device in a reverse direction through the device shadow function.

The Device Shadow (Device Shadow), which is a virtual Device model established between the internet of things Device and the cloud, stores the latest state and control information of the internet of things Device, and provides the capability of remotely accessing the information. The device shadow enables the Internet of things device to maintain the state of the Internet of things device offline and synchronously update the Internet of things device to the cloud end during networking, and the device can be subjected to virtualization control through the cloud end. The device shadow is typically made up of three parts: device state, device metadata, and device expected state. The equipment state records the current attribute and state information of the equipment; the device metadata contains additional information such as the identity, type, firmware version and the like of the device; the expected device state is the expected device state set by the application program and can be used for remotely controlling the device. By using the equipment shadow technology, the bidirectional communication and data synchronization of the equipment and the cloud can be realized, and the application program is convenient to manage and control the equipment. Meanwhile, the shadow of the device can also provide functions of historical state inquiry, fault removal and the like of the device, and is beneficial to improving the reliability and stability of the device.

The data display module is used for displaying the received equipment operation data. In specific implementation, the data display module transmits the operation data acquired in real time to the display page for display by the active identification carrier through the WebSocket technology. The user can view the operation condition of the device associated with the active identification carrier through the presentation page.

The active identification carrier is used in the invention, can be embedded into industrial equipment, and can actively initiate connection to the platform without triggering by means of identification read-write equipment; and the active identifier has the capability of actively establishing a network connection channel, and has the capability of bearing industrial Internet identifier codes and necessary identity credentials and security algorithms. The active identification technology is embedded in the communication module of the industrial intelligent device, the information such as an address, a device name, an operation instruction and the like is registered and associated by the embedded active identification carrier, the communication module sends an analysis request at regular time to realize carrier data subscription, the address and the operation information of each terminal device are queried through the identification analysis system, the running quality and the fault state of workshop equipment are monitored in real time, and the safety problems such as address exposure and identity verification are solved. The industrial equipment combined with the active identification carrier is immediately connected with the Internet after being electrified, the industrial intelligent equipment state data is continuously sent to the industrial Internet of things platform, the platform can actively initiate a reverse reading request according to the running state of the equipment, the data uploading period frequency is supported to be set in a targeted and strategic mode, and corresponding operation and management are carried out through the active identification management platform.

The method fuses the Internet of things technology and the identification analysis technology. The platform in the invention can perform centralized management on the equipment and the active identification carrier thereof. When the system is specifically used, after the user registers the account number on the platform, the permission setting and the equipment grouping setting can be performed through the system setting module and the equipment grouping module. After the equipment is started and operated, the identification analysis module can establish communication with the identification analysis module, and meanwhile, the acquisition module also acquires the operation data of the equipment and sends the operation data to the platform through the identification analysis module. Because the identification code of the active identification carrier has uniqueness, after registration and setting, the platform can carry out identity locking on the equipment and the operation data thereof through the active identification carrier. In this way, the active identification carriers of the devices can be managed intensively and effectively. By using the method and the system, the dynamic state of each device can be mastered in time, so that the conditions of the production line and the like can be effectively coordinated according to the real-time conditions of the number of work orders, the conditions of the device and the like, the conditions of high time cost and low production efficiency in coordination are avoided, enterprises can effectively conduct collaborative production and manufacturing, and the production efficiency is improved.

In addition, the equipment management module can perform health monitoring on the operation data of the equipment, and can generate alarm information when the monitoring result is abnormal, so that staff can know the situation conveniently. When a worker knows the situation, the worker can also check the operation data of the equipment through the data display module, so that the specific problem can be analyzed in time. In addition, the device management module is also provided with a device shadow function; the device management module is also used for reversely controlling the corresponding devices through the device shadow. Through the shadow function of the equipment, the manager can perform remote centralized control on the equipment.

In order to enable those skilled in the art to more clearly understand the technical scheme of the invention, the specific use process of the platform is described as follows.

Firstly, a user registers an active identification management platform account number in a platform, and applies for a prefix through an identification analysis module, and enterprise information, legal information and contact information are required to be provided when the application is implemented. For example: organization name, type of business, industry category, place of registration, business license, legal name, legal identification card, etc.

Then, setting authority information of members, roles, organizations and the like through a system setting module; setting equipment grouping and adding equipment through an equipment grouping module; and setting the correlation information and the connection protocol of the equipment through the equipment management module.

And then, the device can be started and connected with the management platform, so that the device is on line. At this time, the collection module may collect the operation data of the device and send the operation data to the platform through the active identification carrier. And the device management module of the platform monitors the health of the device according to the received operation data of the device. In addition, the data display module transmits the operation data acquired in real time to the display page for display through the WebSocket technology. The user can view the operation condition of the device associated with the active identification carrier through the presentation page.

When a user wants to control the device, a command can be sent in reverse through the shadow device function of the device management module to control or change the device tasks and part of the acquisition logic, for example, to control the acquisition frequency of the acquisition module.

Through the operation, the platform can perform identification registration, data classification and scene creation on the received operation data of the equipment. In order to make full use of the data of the internet of things, subscription and forwarding of operation data can be realized through the platform to the external API during implementation.

Example two

In the first embodiment, the platform further includes a personnel management module, and maintenance personnel information corresponding to each maintenance end is stored in the personnel management module, where the maintenance personnel information includes a professional level; the maintenance end comprises a positioning module, a communication module and a state setting module; the state equipment module is used for setting a current state, wherein the current state comprises a maintenance state and a waiting state; in specific implementation, the maintenance end may be an intelligent terminal, such as a smart phone, that loads a corresponding APP.

The equipment management module is also used for sending maintenance information to a maintenance end which is in a waiting state and is nearest to the abnormal equipment after generating the alarm information, wherein the maintenance information comprises information of the abnormal equipment; the equipment management module is also used for receiving maintenance completion information sent by the maintenance end after sending the maintenance information to the maintenance end;

the equipment management module is also used for carrying out maintenance rechecking according to the real-time operation data of the corresponding equipment after receiving the maintenance completion information, and recording the rechecking result; the rechecking result comprises qualification and disqualification; the equipment management module is also used for searching the maintenance personnel information corresponding to the maintenance end in the personnel management module when the rechecking result is unqualified, sending a rework learning signal to the maintenance end if the professional level of the maintenance personnel is less than or equal to the preset level, screening the maintenance end of the maintenance personnel with the professional level being greater than the preset teaching level, and sending maintenance demonstration information to the maintenance end which is in a waiting state and is closest to the abnormal equipment; the maintenance presentation information includes information of an abnormal device.

The specific implementation process is as follows:

the equipment management module generates alarm information, namely after the equipment is found to be abnormal, the equipment management module sends maintenance information to a maintenance end which is in a waiting state and is nearest to the abnormal equipment. After the corresponding maintenance personnel receive the maintenance information, the maintenance personnel can arrive at the abnormal equipment in time to carry out maintenance treatment on the equipment. After the processing is completed, maintenance personnel can send a maintenance completion signal to the platform through the maintenance end.

Then, the equipment management module performs maintenance and rechecking according to the real-time operation data of the corresponding equipment, and records the rechecking result; if the rechecking result is unqualified, the corresponding maintainer information of the maintenance end is searched in the personnel management module, and if the professional level of the maintainer is smaller than or equal to the preset level, the maintainer is likely to be unqualified in the maintenance result caused by insufficient professional or practical experience. Therefore, the equipment management module screens out maintenance ends of maintenance personnel with professional grades larger than the preset teaching grade, namely screens out maintenance personnel with excellent maintenance strength (enough for teaching other people), and sends maintenance demonstration information to the maintenance end which is in a waiting state and is nearest to the abnormal equipment; and simultaneously, sending a reworking learning signal to the maintenance end with unqualified maintenance.

By adopting the processing mode, on one hand, abnormal equipment can be ensured to be effectively overhauled. On the other hand, for the maintenance personnel with unqualified maintenance, because the maintenance personnel just maintain the maintenance personnel and are unqualified, the maintenance personnel with high professional level performs on-site actual maintenance demonstration at the moment, and the specific insufficient and wrong places of the maintenance personnel can be deeply recognized through the comparison of actual operation, so that the actual maintenance operation capability of the maintenance personnel is increased in real time; if the place is not understood, the place can be communicated with the maintainer of high professional level on site at the first time, so that the learning effect is ensured.

Of course, when in actual maintenance, if the maintenance personnel find that the equipment is difficult to maintain in an abnormal state at the current level, the maintenance end can also send maintenance completion information to the platform. And then, waiting until a maintainer with a high professional level performs actual operation maintenance and demonstration.

Finally, it should be noted that the above embodiments are only for illustrating the technical solution of the present invention and not for limiting the technical solution, and those skilled in the art should understand that modifications and equivalents may be made to the technical solution of the present invention without departing from the spirit and scope of the present invention, and all such modifications and equivalents are included in the scope of the claims.

Claims (7)

1. The active identification management platform based on the identification analysis system and the active identification technology is characterized in that: the platform is used for managing the active identification carrier of the equipment and the equipment; the device is provided with an active identification carrier and an acquisition module; the acquisition module is used for acquiring the operation data of the equipment and transmitting the operation data to the platform through the active identification carrier;

the platform comprises an identification analysis module, a system setting module, an equipment grouping module and an equipment management module; the identification analysis module is used for carrying out prefix application management, data transmission key management and access management, and is also used for analyzing the identification coding information of the active identification carrier so as to acquire the network position and the identity information of the equipment; the system setting module is used for setting authority information, wherein the authority information comprises information of members, roles and organizations; the equipment grouping module is used for grouping and managing equipment; the group management comprises the steps of adding, editing, deleting and inquiring equipment groups; the device management module is used for managing device information of the device and health monitoring of operation data of the device.

2. The active identification management platform based on an identification resolution system and an active identification technique as claimed in claim 1, wherein: the device management module is also provided with a device shadow function; the device management module is also used for reversely controlling the corresponding devices through the device shadow.

3. The active identification management platform based on an identification resolution system and an active identification technique as claimed in claim 2, wherein: the control content of the reverse control comprises the acquisition frequency of the acquisition module.

4. The active identification management platform based on an identification resolution system and an active identification technique as claimed in claim 1, wherein: when the equipment management module monitors the operation data of the equipment in health, if the monitoring result is abnormal, the equipment management module generates alarm information.

5. The active identification management platform based on the identification resolution system and the active identification technology as claimed in claim 4, wherein: the platform also comprises a data display module used for displaying the received equipment operation data.

6. The active identification management platform based on the identification resolution system and the active identification technology as claimed in claim 4, wherein: the system also comprises a maintenance end; the maintenance end comprises a positioning module, a communication module and a state setting module; the state equipment module is used for setting a current state, wherein the current state comprises a maintenance state and a waiting state; the device management module is further configured to send maintenance information to a maintenance end that is in a waiting state and is closest to the abnormal device after the alarm information is generated, where the maintenance information includes information of the abnormal device.

7. The active identification management platform based on the identification resolution system and the active identification technology as claimed in claim 6, wherein: the equipment management module is also used for receiving maintenance completion information sent by the maintenance end after sending the maintenance information to the maintenance end; the equipment management module is also used for carrying out maintenance rechecking according to the real-time operation data of the corresponding equipment after receiving the maintenance completion information, and recording the rechecking result; the rechecking result comprises qualification and disqualification;

the platform also comprises a personnel management module, wherein maintenance personnel information corresponding to each maintenance end is stored in the personnel management module, and the maintenance personnel information comprises professional grades; the equipment management module is also used for searching the maintenance personnel information corresponding to the maintenance end in the personnel management module when the rechecking result is unqualified, sending a rework learning signal to the maintenance end if the professional level of the maintenance personnel is less than or equal to the preset level, screening the maintenance end of the maintenance personnel with the professional level being greater than the preset teaching level, and sending maintenance demonstration information to the maintenance end which is in a waiting state and is closest to the abnormal equipment; the maintenance presentation information includes information of an abnormal device.