WO2024051273A1

WO2024051273A1 - Cloud technology-based internet of things device information display method, and cloud management platform

Info

Publication number: WO2024051273A1
Application number: PCT/CN2023/101858
Authority: WO
Inventors: 陈星亮; 马会彬; 李�杰
Original assignee: 华为云计算技术有限公司
Priority date: 2022-09-08
Filing date: 2023-06-21
Publication date: 2024-03-14
Also published as: CN117708220A

Abstract

The present application provides a cloud technology-based Internet of Things device information display method, and a cloud management platform. The method comprises: a cloud management platform provides an Internet of Things device connection configuration interface used for receiving first identification information of a first Internet of Things device inputted by a first tenant; the cloud management platform establishes a connection relationship with the first Internet of Things device according to the first identification information; the cloud management platform provides an Internet of Things device information display interface used for receiving a first Internet of Things device information display model inputted by the first tenant, wherein the first Internet of Things device information display model is used for describing a first parameter item and a first display template of the first Internet of Things device; and the cloud management platform acquires first parameters of the first Internet of Things device according to the first Internet of Things device information display model, and displays the first parameters by means of the first display template. In the present application, the tenant can realize digital display of the Internet of Things device and the parameters thereof by means of the Internet of Things information display model provided by the cloud management platform.

Description

Internet of Things device information display method and cloud management platform based on cloud technology

Technical field

This application relates to the field of cloud technology, and in particular to a cloud technology-based Internet of Things device information display method and cloud management platform.

Background technique

In traditional industrial industries, enterprise IoT devices need to monitor the status of IoT devices in real time. Existing monitoring uses manual regular inspections. The monitoring efficiency is low and the accuracy is not high, and it is impossible to realize multi-dimensional monitoring of IoT devices. .

With the continuous development of cloud technology, more and more enterprises are deploying their business to the cloud. After enterprises move to the cloud, it is necessary to monitor the enterprise's IoT devices in real time through cloud technology.

Contents of the invention

This application provides a cloud technology-based IoT device information display method and cloud management platform. Tenants can digitally display IoT devices and their parameters through the IoT information display model provided by the cloud management platform.

In the first aspect, this application provides a method for displaying Internet of Things device information based on cloud technology. The method is applied to a cloud management platform. The cloud management platform is used to manage the infrastructure that provides public cloud services. The method includes: the cloud management platform provides The Internet of Things device connection configuration interface is used to receive the first identification information of the first Internet of Things device input by the first tenant, and the cloud management platform establishes a connection relationship with the first Internet of Things device based on the first identification information, The cloud management platform provides an IoT device information display interface. The IoT device information display interface is used to receive the first IoT device information display model input by the first tenant. The first IoT device information display model is used to describe the first IoT device. The first parameter item and the first display template, the cloud management platform collects the first parameter of the first IoT device according to the first IoT device information display model, and displays the first parameter through the first display template.

Based on the above method, the first tenant can connect the first IoT device to the cloud management platform, and select the relevant participation and display of the first IoT device that needs to be displayed through the preset display template of the IoT device on the cloud management platform. Template to achieve digital display of the first IoT device and its parameters.

In a possible implementation of the first aspect, the IoT device connection configuration interface is also used to receive the second identification information of the second IoT device input by the second tenant, and the cloud management platform communicates with the second IoT device based on the second identification information. The IoT devices establish a connection relationship. When the cloud management platform determines that the second IoT device and the first IoT device belong to the same IoT device, the cloud management platform reuses the first IoT device information display model and collects the second IoT device. 2. Second parameters of the Internet of Things device, and display the second parameters through the first display template.

Based on the above method, when the cloud management platform determines that the second IoT device input by the first tenant and the first IoT device belong to the same type of IoT device, the cloud management platform can directly reuse the first IoT device information display model. To display the relevant parameters of the second IoT device, the first tenant does not need to reconfigure the second IoT device, which saves time and improves efficiency.

In a possible implementation of the first aspect, establishing a connection relationship between the cloud management platform and the first IoT device according to the first identification information specifically includes: the cloud management platform compares the first identification information and the first IoT device in the cloud management flat The cloud management platform establishes a connection relationship with the first Internet of Things device when the first identification information matches the third identification information.

Based on the above method, when the cloud management platform establishes a connection relationship with the first IoT device, it needs to pass identification information verification, which improves the security of the connection and avoids information leakage caused by other irrelevant IoT devices accessing the cloud management platform. question.

In a possible implementation of the first aspect, establishing a connection relationship between the cloud management platform and the second IoT device according to the second identification information specifically includes: the cloud management platform compares the second identification information and the second IoT device in the cloud management The fourth identification information is reserved by the platform. When the second identification information matches the fourth identification information, the cloud management platform establishes a connection relationship with the second Internet of Things device.

Based on the above method, when the cloud management platform establishes a connection relationship with the second IoT device, it still needs to pass identification information verification, which improves the security of the connection and avoids information leakage caused by other irrelevant IoT devices accessing the cloud management platform. The problem.

In a possible implementation of the first aspect, the IoT device information display interface is also used to receive an instruction input by the first tenant to modify the first IoT device information display model. The modified first IoT device information display The model is used to describe the third parameter item and the second display template of the first Internet of Things device. The cloud management platform collects the third parameter of the first Internet of Things device according to the modified first Internet of Things device information display model, and uses the second The display template displays the third parameter.

Based on the above method, the first tenant can dynamically adjust the parameter information and display template of the Internet of Things device information display, which improves the interactivity between the first tenant and the cloud management platform in the display of Internet of Things device information.

In a possible implementation of the first aspect, the cloud management platform compares the first parameter with a preset threshold parameter of the first Internet of Things device. When the first parameter exceeds the threshold parameter, the cloud management platform sends a request to the third parameter. A tenant prompts alarm signals and provides alternative solutions.

Based on the above method, when displaying information about IoT devices, the cloud management platform also prompts alarms for abnormal parameters of the IoT devices and provides alternative solutions, which improves the efficiency of the first tenant in handling IoT device problems. , making the first tenant’s monitoring of IoT devices more intelligent.

In a possible implementation of the first aspect, the cloud management platform delivers the first Internet of Things device information display model to the first tenant's terminal device, and collects the first parameter of the first Internet of Things device and displays it in the first tenant's terminal device. The first parameter is displayed through the first display template on the terminal device.

Based on the above method, the cloud management platform can display the relevant parameter information of the first IoT device through the web page, or can send the parameter information to the terminal device of the first tenant, and display the parameter information of the first IoT device through the terminal device. Related parameters make the display of IoT device parameters more flexible and convenient.

In the second aspect, this application provides a cloud management platform. The cloud management platform is used to manage the infrastructure that provides public cloud services. The cloud management platform includes: a configuration interface providing module, a connection relationship establishing module, a display interface providing module, and an object providing module. Internet device information display module, Internet of Things device parameter monitoring module and Internet of Things device information delivery module. Wherein, the configuration interface providing module is used to provide an Internet of Things device connection configuration interface, the Internet of Things device connection configuration interface is used to receive the first identification information of the first Internet of Things device input by the first tenant, and the connection relationship establishment module is used to establish a connection relationship according to the first The identification information establishes a connection relationship with the first Internet of Things device, the display interface providing module is used to provide an Internet of Things device information display interface, and the Internet of Things device information display interface is used to receive the first Internet of Things device information display model input by the first tenant. An Internet of Things device information display model is used to describe the first parameter item and the first display template of the first Internet of Things device, and the Internet of Things device information display module is used to collect the first Internet of Things device information display model according to the first Internet of Things device information display model. The first parameter of the Internet of Things device, and the first parameter is displayed through the first display template.

The second aspect or any implementation of the second aspect is the device implementation corresponding to the first aspect or any implementation of the first aspect. The description in the first aspect or any implementation of the first aspect is applicable to the second aspect Or any implementation method of the second aspect, which will not be described again here.

In a third aspect, the present application provides a computing device cluster, including at least one computing device, each computing device including a processor and a memory; the processor of the at least one computing device is configured to execute instructions stored in the memory of the at least one computing device, to The computing device cluster is caused to implement the method disclosed in the first aspect and any possible implementation manner of the first aspect.

In the fourth aspect, the present application provides a computer program product containing instructions. When the instructions are run by a computer equipment cluster, the computer equipment cluster implements the method disclosed in the first aspect and any possible implementation manner of the first aspect.

In a fifth aspect, this application provides a computer-readable storage medium, including computer program instructions. When the computer program instructions are executed by a computing device cluster, the computing device cluster causes the computing device cluster to execute the first aspect and any possible implementation of the first aspect. Methods Revealed.

Description of the drawings

Figure 1 is a schematic system architecture diagram of a method for performance tuning of cloud services according to an embodiment of the present invention;

Figure 2 is a flow chart of a performance tuning method for cloud services according to an embodiment of the present invention;

Figure 3 is a schematic diagram of the performance tuning process for cloud services according to an embodiment of the present invention;

Figure 4 is a schematic diagram of the internal structure of the cloud management platform according to the embodiment of the present invention;

Figure 5 is a schematic structural diagram of a computing device for a method for performance tuning of cloud services according to an embodiment of the present invention;

Figure 6 is a schematic structural diagram of a computing device cluster for a method for performance tuning of cloud services according to an embodiment of the present invention.

Detailed ways

The technical solutions in the embodiments of the present invention will be described below with reference to the accompanying drawings in the embodiments of the present invention. Obviously, the described embodiments are only some, not all, of the embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by those of ordinary skill in the art without creative efforts fall within the scope of protection of the present invention.

In order to facilitate understanding of the embodiments of the present application, first, some terms involved in the present invention are explained.

Cloud management platform: The cloud management platform is used to manage multiple cloud data centers set up by cloud vendors in different regions. The cloud management platform can provide interfaces related to public cloud services, such as pages or application program interfaces (Application Program Interface, API) to Tenants can remotely access public cloud services. Tenants can log in to the cloud management platform on the public cloud access page with their pre-registered account and password. After successful login, they can select and purchase the cloud data center in the region selected by the tenant on the public cloud access page. Public cloud services, such as object storage services, virtual machine services, container services, etc.

IoT Devices: IoT devices are connected devices that can communicate with other devices and networks. IoT devices leverage their network connections to allow users to remotely access and operate the device, or receive firmware updates from the manufacturer.

Embodiments of the present invention provide a method for displaying Internet of Things device information based on cloud technology. The method is applied to a cloud management platform. The cloud management platform is used to manage infrastructure that provides public cloud services. The method includes:

The cloud management platform provides an IoT device connection configuration interface, which is used to receive the first The first identification information of the first Internet of Things device input by the tenant;

The cloud management platform establishes a connection relationship with the first Internet of Things device based on the first identification information;

The cloud management platform provides an IoT device information display interface. The IoT device information display interface is used to receive the first IoT device information display model input by the first tenant. The first IoT device information display model is used to describe the first IoT device. The first parameter item and the first display template;

The cloud management platform collects the first parameter of the first Internet of Things device according to the first Internet of Things device information display model, and displays the first parameter through the first display template.

The above solution will be further clearly explained below. It is worth noting that the specific embodiments below are specific implementations based on the overall idea of the above solution.

Please refer to Figure 1 below. Figure 1 is a schematic system architecture diagram of a method for displaying Internet of Things device information based on cloud technology according to an embodiment of the present invention. In the embodiment shown in Figure 1, the tenant 40 accesses the cloud management platform 10 through the client 20 via the Internet 30. The cloud management platform 10 is used to manage the infrastructure that provides public cloud services. The infrastructure includes multiple areas: area 1, area 2...area N. Each region includes multiple cloud data centers: cloud data center A, cloud data center B, cloud data center C…. Tenants 40 can purchase Internet of Things device information display services through the cloud management platform 10 according to their own needs.

Based on the cloud technology-based IoT device information display method implemented by the above system architecture, embodiments of the present invention further disclose a cloud technology-based IoT device information display method. For details, see below:

Please refer to Figure 2 below. Figure 2 is a flow chart of a method for displaying Internet of Things device information based on cloud technology according to an embodiment of the present invention. The method includes:

S101: The cloud management platform 10 provides the tenant 40 with an Internet of Things device connection configuration interface.

The tenant 40 logs into the cloud management platform 10 through the client 20. The cloud management platform 10 provides the tenant 40 with an Internet of Things device connection configuration interface. The Internet of Things device connection configuration interface may be, for example, an application program interface API or a configuration interface.

S102: The tenant 40 inputs the identification information A of the Internet of Things device A through the Internet of Things device connection configuration interface.

The IoT device connection configuration interface provided by the cloud management platform 10 is used to receive the identification information A of the IoT device A input by the tenant 40. Optionally, the identification information A may be the device code of the IoT device A, and the device code is To verify the identity information of the IoT device A.

S103: The cloud management platform 10 establishes a connection relationship with the Internet of Things device A based on the identification information A input by the tenant 40.

Specifically, the cloud management platform 10 will compare the identification information A with the identification information C reserved by the IoT device A on the cloud management platform 10. When the identification information A matches the identification information C, the cloud management platform 10 and the IoT device Networked device A establishes a connection relationship.

It should be noted that in this embodiment, the cloud management platform 10 verifies the identification information A of the Internet of Things device A as a security guarantee for establishing a connection with the Internet of Things device A. In other embodiments, the cloud management platform 10 may also verify the identification information A of the Internet of Things device A. Networked device A sends a verification code, and Internet of Things device A returns the verification code to the cloud management platform 10 for verification and other verification methods. The verification method for security protection in the embodiment of the present invention is not limited.

S104: The cloud management platform 10 provides the tenant 40 with an Internet of Things device information display interface.

The IoT device information display interface is used to receive the IoT device A information display model input by the tenant 40. The IoT device information display interface may be, for example, an application program interface API or a configuration interface.

S105: The tenant 40 inputs the information display model of the Internet of Things device A through the Internet of Things device information display interface.

Optionally, the Internet of Things device A information display model is used to describe the parameter A project and display template A of the Internet of Things device A.

S106: The cloud management platform 10 collects the parameter A of the IoT device A according to the IoT information display model input by the tenant 40, and displays the parameter A through the display template A.

Specifically, the IoT information display model input by the tenant 40 is used to instruct the cloud management platform 10 to display the parameter A of the IoT device A.

S107: The tenant 40 inputs the identification information B of the Internet of Things device B through the Internet of Things device connection configuration interface.

S108: The cloud management platform 10 establishes a connection relationship with the Internet of Things device B based on the identification information B input by the tenant 40.

For the specific implementation of steps S107-S108, reference can be made to the description of steps S102-S103 in Figure 2, which will not be described again here.

S109: When the cloud management platform 10 determines that the Internet of Things device A and the Internet of Things device B belong to the same Internet of Things device, it reuses the information display model of the Internet of Things device A, collects the parameter B of the Internet of Things device B, and displays it through the display template. A displays parameter B.

Specifically, the cloud management platform 10 will compare the type of the IoT device input later by the tenant 40 with the type of the IoT device input previously. If both belong to the same device type, the cloud management platform 10 will reuse the information previously input by the tenant 40 Display model, the tenant 40 does not need to repeatedly set up the display model of the Internet of Things device, which saves the tenant 40 time and improves the efficiency of digital display of the Internet of Things device.

It should be noted that, in addition to comparing the types of IoT devices input by the same tenant, the cloud management platform 10 will also compare the types of IoT devices input by different tenants. The IoT device type input by a tenant belongs to the same device type. The cloud management platform 10 will also reuse the information display model input by the previous tenant. The latter tenant does not need to duplicate the display model of the IoT device. At the same time, for the same Display models for various types of IoT devices, and developers do not need to repeat development.

Specifically, developers can combine UI components (such as drop-down boxes, multi-select boxes, pie charts, line charts, etc.) and services (interfaces provided externally by the IoT device management system, including status query of IoT devices, device start and stop, Control command operations) form a reusable component: IoT device card. According to the characteristics of the IoT equipment, the business attributes of the IoT equipment (such as the location of the equipment room and the equipment switch) and the equipment technical parameters provided by the IoT equipment model service (such as the location coordinates, working mode, and operating gear of the IoT equipment) are combined. Developers perform manual correlation to shield complex technical parameters. When subsequent business personnel use IoT device cards, they no longer need to face complex technical parameters, but use easy-to-understand business attributes.

Please refer to Figure 3. Figure 3 is a key attribute diagram of an Internet of Things device information display model development card based on cloud technology according to an embodiment of the present invention. Developers can provide metadata standards for IoT device cards so that they can be easily identified and understood when various IoT device cards are referenced by different applications. The key attributes of the IoT device card are shown in the following table:

At the same time, the card builder can automatically generate an "IoT device card package" suitable for web applications or mobile applications based on your selection. The card package will follow a unified directory structure specification to facilitate card distribution and parsing. The packaged structure is, for example:

As a piece of parsing code, card parsing can be loaded into the web server and mobile application running environment as a plug-in. It is used to parse the IoT device card package and is responsible for the display and interaction of the IoT device card.

For example, the tenant 40 registers an exclusive account on the cloud management platform 10 through the client 20, and then logs in to the cloud management platform 10 by logging in to the account. The tenant 40 can purchase the Internet of Things device information display service on the cloud management platform 10. , this service can be provided by connecting the coal mine fan equipment of the tenant 40 to the cloud management platform 10. The tenant 40 can select a model for displaying the information of the coal mine fan equipment on the cloud management platform. The model includes the fans of the coal mine fan equipment that the tenant 40 needs to obtain. Parameter items such as location, wind speed gear, and gas concentration are displayed at the same time through tables, charts, etc. set by the tenant 40.

Optionally, the cloud management platform 10 provides the tenant 40 with a modification function of the Internet of Things device information display model. Specifically, the tenant 40 can also input an instruction to modify the information display model of the Internet of Things device A through the Internet of Things device information display interface. The modified Internet of Things device A information display model is used to describe the parameter B item and display template of the Internet of Things device A. B. The cloud management platform 10 will collect the parameter C of the Internet of Things device A according to the modified information display model of the Internet of Things device A, and display the parameter C through the display template B.

Optionally, the cloud management platform 10 provides the tenant 40 with an alarm function for abnormal display parameters of Internet of Things device information. Specifically, when the cloud management platform 10 displays the parameter A of the Internet of Things A through the information display model of the Internet of Things device A, it will compare the parameter A with the preset threshold parameter of the Internet of Things device A in real time. When the parameter A exceeds the threshold parameter , cloud management The platform 10 will prompt the tenant 40 with an alarm signal and provide alternative solutions.

Optionally, the cloud management platform 10 can display the relevant parameters A of the tenant 40 IoT device A through a web application, or can display the relevant parameters A of the tenant 40 IoT device A through a mobile application. Specifically, the cloud management platform 10 delivers the first IoT device information display model to the first tenant's terminal device, and collects the first parameters of the first IoT device on the first tenant's terminal device. The first parameter is displayed on the terminal device through the first display template.

According to the IoT device information display method based on cloud technology disclosed in the embodiment of the present invention, tenants can digitally display IoT devices and their parameters through the IoT information display model provided by the cloud management platform.

According to the above cloud technology-based Internet of Things device information display method, embodiments of the present invention further disclose the internal structure of the cloud management platform. For details, see below:

Please refer to Figure 4 below. Figure 4 is a schematic diagram of the internal structure of the cloud management platform according to an embodiment of the present invention. The cloud management platform is used to manage network infrastructure. The cloud management platform includes: a configuration interface providing module 101, a connection relationship establishing module 102, a display interface providing module 103, an IoT device information display module 104, and an IoT device parameter monitoring module 105. and the Internet of Things device information delivery module 106. in:

The configuration interface providing module 101 is used to provide an Internet of Things device connection configuration interface. The Internet of Things device connection configuration interface is used to receive the first identification information of the first Internet of Things device input by the first tenant;

The connection relationship establishment module 102 is used to establish a connection relationship with the first Internet of Things device according to the first identification information;

The display interface providing module 103 is used to provide an Internet of Things device information display interface. The Internet of Things device information display interface is used to receive a first Internet of Things device information display model input by the first tenant. The first Internet of Things device information display model is used to Describing the first parameter item and the first display template of the first Internet of Things device;

The Internet of Things device information display module 104 is used to collect the first parameters of the first Internet of Things device according to the first Internet of Things device information display model, and display the first parameters through the first display template;

The IoT device parameter monitoring module 105 is configured to compare the first parameter with the preset threshold parameter of the first IoT device, and when the first parameter exceeds the threshold parameter, prompt an alarm signal to the first tenant and provide alternatives. s solution;

The Internet of Things device information delivery module 106 is used to deliver the first Internet of Things device information display model to the first tenant's terminal device, and collect the first parameters of the first Internet of Things device and pass them through on the first tenant's terminal device. The first display template displays the first parameter.

At the same time, the IoT device connection configuration interface is also used to receive the second identification information of the second IoT device input by the second tenant, and the connection relationship establishment module 102 is also used to establish a connection with the second IoT device based on the second identification information. Connection relationship; when the IoT device information display module 104 determines that the second IoT device and the first IoT device belong to the same IoT device, it reuses the first IoT device information display model and collects the second IoT device. The second parameter of the device, and display the second parameter through the first display template.

In addition, the connection relationship establishing module 102 is specifically configured to: compare the first identification information with the third identification information reserved by the first Internet of Things device, and when the first identification information matches the third identification information, compare the first identification information with the first identification information. The Internet of Things device establishes a connection relationship or compares the second identification information with the fourth identification information reserved by the second Internet of Things device. If the second identification information matches the fourth identification information, establishes a connection with the second Internet of Things device. relation.

In addition, the IoT device information display interface is also used to receive an instruction input by the first tenant to modify the first IoT device information display model. The modified first IoT device information display model is used to describe the first IoT device. The third parameter item and the second display template, the Internet of Things device information display module 104 is also used to modify the first The Internet of Things device information display model collects the third parameter of the first Internet of Things device, and displays the third parameter through the second display template.

It should be noted that the configuration interface providing module 101, the connection relationship establishing module 102, the display interface providing module 103, the IoT device information display module 104, the IoT device parameter monitoring module 105 and the IoT device information delivery module 106 can all be configured through Implemented in software, or may be implemented in hardware. Illustratively, the following takes the configuration interface providing module 101 as an example to introduce the implementation of the configuration interface providing module 101. Similarly, for the implementation of the connection relationship establishment module 102, the display interface providing module 103, the IoT device information display module 104, the IoT device parameter monitoring module 105 and the IoT device information delivery module 106, please refer to the configuration interface providing module 101. Method to realize.

When implemented by software, the configuration interface providing module 101 may be an application program or code block running on the computer device. The computer device may be at least one of a physical host, a virtual machine, a container, and other computing devices. Further, the above computer equipment may be one or more. For example, the configuration interface providing module 101 may be an application running on multiple hosts/virtual machines/containers. It should be noted that multiple hosts/virtual machines/containers used to run the application can be distributed in the same availability zone (AZ) or in different AZs. Multiple hosts/VMs/containers used to run the application can be distributed in the same region or in different regions. Among them, usually a region can include multiple AZs.

Likewise, multiple hosts/VMs/containers used to run the application can be distributed in the same virtual private cloud (VPC) or across multiple VPCs. Among them, usually a region can include multiple VPCs, and a VPC can include multiple AZs.

When implemented by hardware, the configuration interface providing module 101 may include at least one computing device, such as a server. Alternatively, the configuration interface providing module 101 may also be a device implemented using an application-specific integrated circuit (ASIC) or a programmable logic device (PLD). Among them, the above-mentioned PLD can be a complex programmable logical device (CPLD), a field-programmable gate array (field-programmable gate array, FPGA), a general array logic (generic array logic, GAL), or any combination thereof.

Multiple computing devices included in the configuration interface providing module 101 may be distributed in the same AZ or in different AZs. Multiple computing devices included in the configuration interface providing module 101 may be distributed in the same region or in different regions. Similarly, multiple computing devices included in the configuration interface providing module 101 may be distributed in the same VPC or in multiple VPCs. The plurality of computing devices may be any combination of computing devices such as servers, ASICs, PLDs, CPLDs, FPGAs, and GALs.

It should be noted that any of the configuration interface providing module 101, the connection relationship establishing module 102, the display interface providing module 103, the IoT device information display module 104, the IoT device parameter monitoring module 105 and the IoT device information delivery module 106 Each module can be used to perform some or all steps in the configuration method of the cloud connection service based on the public cloud.

Each module of the cloud management platform 10 disclosed in the embodiment of the present invention has a clear division of labor and close cooperation. Each module cooperates with each other to efficiently complete performance optimization services for cloud services.

The present invention also provides a computing device. Please refer to FIG. 5 below. FIG. 5 is a schematic structural diagram of a computing device for a method for performance tuning of cloud services according to an embodiment of the present invention. Computing device 100 includes bus 107, processor 109, memory 108, and communication interface 110. The processor 109, the memory 108 and the communication interface 110 communicate through the bus 107. Computing device 100 may be a server or a terminal device. It should be understood that this application does not limit the number of processors and memories in the computing device 100.

Bus 107 may be a peripheral component interconnect (PCI) bus or Extended industry standard architecture (EISA) bus, etc. The bus can be divided into address bus, data bus, control bus, etc. For ease of presentation, only one line is used in Figure 5, but it does not mean that there is only one bus or one type of bus. Bus 107 may include a path that carries information between various components of computing device 100 (eg, memory 108, processor 109, communications interface 110).

The processor 109 may include a central processing unit (CPU), a graphics processing unit (GPU), a microprocessor (MP) or a digital signal processor (DSP). any one or more of them.

Memory 108 may include volatile memory, such as random access memory (RAM). The processor 109 may also include non-volatile memory, such as read-only memory (ROM), flash memory, hard disk drive (HDD) or solid state drive (SSD). drive, SSD).

The memory 108 stores executable program code, and the processor 109 executes the executable program code to respectively implement the aforementioned configuration interface provision module 101, connection relationship establishment module 102, display interface provision module 103, and Internet of Things device information display module 104. , the functions of the Internet of Things device parameter monitoring module 105 and the Internet of Things device information delivery module 106, thereby realizing the configuration method of cloud connection services based on public cloud. That is, the memory 108 stores instructions for the cloud management platform to execute the configuration method of the cloud connection service based on the public cloud.

The communication interface 110 uses transceiver modules such as, but not limited to, network interface cards and transceivers to implement communication between the computing device 100 and other devices or communication networks.

An embodiment of the present invention also provides a computing device cluster. The computing device cluster includes at least one computing device. The computing device may be a server, such as a central server, an edge server, or a local server in a local data center. In some embodiments, the computing device may also be a terminal device such as a desktop computer, a laptop computer, or a smartphone.

Please refer to FIG. 6 below. FIG. 6 is a schematic structural diagram of a computing device cluster for a method for performance tuning of cloud services according to an embodiment of the present invention. The cluster of computing devices includes at least one computing device 100 . The memory 108 of one or more computing devices 100 in the computing device cluster may store instructions of the same cloud management platform for executing the configuration method of the cloud connection service based on the public cloud.

In some possible implementations, one or more computing devices 100 in the computing device cluster may also be used to execute part of the instructions of the cloud management platform for executing the configuration method of the cloud connection service based on the public cloud. In other words, a combination of one or more computing devices 100 may jointly execute instructions of the cloud management platform for performing the configuration method of the public cloud-based cloud connection service.

It should be noted that the memory 108 in different computing devices 100 in the computing device cluster can store different instructions for executing some functions of the cloud management platform. That is, the instructions stored in the memory 108 in different computing devices 100 can implement the configuration interface provision module 101, the connection relationship establishment module 102, the display interface provision module 103, the Internet of Things device information display module 104, and the Internet of Things device parameter monitoring module 105. and the functions of one or more modules in the Internet of Things device information delivery module 106.

An embodiment of the present invention also provides a computer program product including instructions. The computer program product may be a software or program product containing instructions capable of running on a computing device or stored in any available medium. When the computer program product is run on at least one computer device, at least one computer device is caused to execute the above configuration method applied to a cloud management platform for executing a public cloud-based cloud connection service.

An embodiment of the present invention also provides a computer-readable storage medium. The computer-readable storage medium may be Any available media that a computing device can store or a data storage device such as a data center that contains one or more available media. The available media may be magnetic media (eg, floppy disk, hard disk, tape), optical media (eg, DVD), or semiconductor media (eg, solid state drive), etc. The computer-readable storage medium includes instructions that instruct the computing device to execute the above configuration method applied to a cloud management platform for executing a public cloud-based cloud connection service.

Finally, it should be noted that the above embodiments are only used to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art should understand that it can still be used Modifications are made to the technical solutions described in the foregoing embodiments, or equivalent substitutions are made to some of the technical features; however, these modifications or substitutions do not cause the essence of the corresponding technical solutions to depart from the protection scope of the technical solutions of the various embodiments of the present invention.

Claims

A method for displaying Internet of Things device information based on cloud technology, characterized in that the method is applied to a cloud management platform, and the cloud management platform is used to manage infrastructure that provides public cloud services. The method includes:

The cloud management platform provides an Internet of Things device connection configuration interface, and the Internet of Things device connection configuration interface is used to receive the first identification information of the first Internet of Things device input by the first tenant;

The cloud management platform establishes a connection relationship with the first Internet of Things device according to the first identification information;

The cloud management platform provides an Internet of Things device information display interface. The Internet of Things device information display interface is used to receive a first Internet of Things device information display model input by the first tenant. The first Internet of Things device information display model A first parameter item and a first display template used to describe the first Internet of Things device;

The cloud management platform collects the first parameters of the first IoT device according to the first IoT device information display model, and displays the first parameters through the first display template.
The method according to claim 1, further comprising:

The Internet of Things device connection configuration interface is also used to receive the second identification information of the second Internet of Things device input by the second tenant;

The cloud management platform establishes a connection relationship with the second Internet of Things device according to the second identification information;

When the cloud management platform determines that the second Internet of Things device and the first Internet of Things device belong to the same Internet of Things device, the cloud management platform reuses the first Internet of Things device information display model and collects the third Internet of Things device. and display the second parameters of the Internet of Things device through the first display template.
The method according to claim 1 or 2, characterized in that establishing a connection relationship between the cloud management platform and the first Internet of Things device according to the first identification information specifically includes:

The cloud management platform compares the first identification information with the third identification information reserved by the first Internet of Things device on the cloud management platform, and the first identification information matches the third identification information. In the case of , the cloud management platform establishes a connection relationship with the first Internet of Things device.
The method according to any one of claims 1 to 3, characterized in that establishing a connection relationship between the cloud management platform and the second Internet of Things device according to the second identification information specifically includes:

The cloud management platform compares the second identification information with the fourth identification information reserved by the second Internet of Things device on the cloud management platform, and the second identification information matches the fourth identification information. In the case of , the cloud management platform establishes a connection relationship with the second Internet of Things device.
The method according to any one of claims 1 to 4, characterized in that the method further includes:

The IoT device information display interface is also used to receive an instruction input by the first tenant to modify the first IoT device information display model. The modified first IoT device information display model is used to describe the first IoT device information display model. The third parameter item and the second display template of the first Internet of Things device;

The cloud management platform collects the third parameter of the first Internet of Things device according to the modified first Internet of Things device information display model, and displays the third parameter through the second display template.
The method according to any one of claims 1 to 5, characterized in that the method further includes:

The cloud management platform compares the first parameter with a preset threshold parameter of the first Internet of Things device. When the first parameter exceeds the threshold parameter, the cloud management platform sends a request to the first parameter. The first tenant prompts alarm signals and provides alternative solutions.
The method according to any one of claims 1 to 6, further comprising:

The cloud management platform delivers the first Internet of Things device information display model to the terminal device of the first tenant. equipment, and collects the first parameter of the first Internet of Things device and displays the first parameter through the first display template on the terminal device of the first tenant.
A cloud management platform, characterized in that the cloud management platform is used to manage infrastructure that provides public cloud services, and the cloud management platform includes:

A configuration interface providing module is used to provide an Internet of Things device connection configuration interface, and the Internet of Things device connection configuration interface is used to receive the first identification information of the first Internet of Things device input by the first tenant;

A connection relationship establishment module, configured to establish a connection relationship with the first Internet of Things device according to the first identification information;

A display interface providing module is used to provide an Internet of Things device information display interface. The Internet of Things device information display interface is used to receive a first Internet of Things device information display model input by the first tenant. The first Internet of Things device information The display model is used to describe the first parameter item and the first display template of the first Internet of Things device;

The Internet of Things device information display module is configured to collect the first parameters of the first Internet of Things device according to the first Internet of Things device information display model, and display the first parameters through the first display template.
The cloud management platform according to claim 8, characterized in that,

The Internet of Things device connection configuration interface is also used to receive the second identification information of the second Internet of Things device input by the second tenant,

The connection relationship establishment module is also configured to establish a connection relationship with the second Internet of Things device according to the second identification information;

When the IoT device information display module determines that the second IoT device and the first IoT device belong to the same IoT device, the IoT device information display module reuses the first IoT device information display model and collects The second parameters of the second Internet of Things device are displayed through the first display template.
The cloud management platform according to claim 8 or 9, further comprising:

The connection relationship establishment module establishes a connection relationship with the first Internet of Things device according to the first identification information. The connection relationship establishment module is specifically used to compare the first identification information with the first Internet of Things device. The third identification information reserved by the device establishes a connection relationship with the first Internet of Things device when the first identification information matches the third identification information.
The cloud management platform according to claim 8 or 10, further comprising:

The connection relationship establishment module establishes a connection relationship with the second Internet of Things device according to the second identification information. The connection relationship establishment module is specifically used to compare the second identification information with the second Internet of Things device. The fourth identification information reserved by the device establishes a connection relationship with the second Internet of Things device when the second identification information matches the fourth identification information.
The cloud management platform according to claim 8 or 11, further comprising:

The Internet of Things device information display interface is also used to receive an instruction input by the first tenant to modify the first Internet of Things device information display model. The modified first Internet of Things device information display model is used to describe the first Internet of Things device information display model. The third parameter item and the second display template of the first Internet of Things device;

The IoT device information display module is also configured to collect the third parameter of the first IoT device according to the modified first IoT device information display model, and display the third parameter through the second display template. Three parameters.
The cloud management platform according to claim 8 or 12, further comprising:

An Internet of Things device parameter monitoring module, configured to compare the first parameter with a preset threshold parameter of the first Internet of Things device, and when the first parameter exceeds the threshold parameter, send a request to the third parameter. A tenant prompts an alarm signal and provide alternative solutions.
The cloud management platform according to claim 8 or 13, further comprising:

The Internet of Things device information delivery module is used to deliver the first Internet of Things device information display model to the terminal device of the first tenant, and collect the first parameter of the first Internet of Things device in the first The first parameter is displayed on a tenant's terminal device through the first display template.
A computing device cluster, characterized by including at least one computing device, each computing device including a processor and a memory;

The processor of the at least one computing device is configured to execute instructions stored in the memory of the at least one computing device, so that the cluster of computing devices performs the method according to any one of claims 1 to 7.
A computer program product containing instructions, characterized in that, when the instructions are run by a cluster of computer equipment, the cluster of computer equipment causes the cluster of computer equipment to perform the method according to any one of claims 1 to 7.
A computer-readable storage medium, characterized in that it includes computer program instructions. When the computer program instructions are executed by a computing device cluster, the computing device cluster performs the method according to any one of claims 1 to 7.