CN113973056A - Detection equipment configuration method and device, storage medium and computer equipment - Google Patents

Abstract

A method and a device for detecting equipment configuration, a storage medium and computer equipment are provided, the method comprises the following steps: acquiring an equipment model corresponding to target equipment, wherein the target equipment is provided with one or more measuring points, and the equipment model comprises the number of the measuring points contained in one type of equipment and a parameter configuration rule of each measuring point; configuring parameters of each measuring point in the target equipment according to the equipment model so that the target equipment can obtain detection data of each measuring point according to the configured parameters; acquiring detection data of each measuring point of the target equipment; wherein the target device is connected in a communication link. Through the scheme, the configuration efficiency of the detection equipment can be effectively improved.

Description

Detection equipment configuration method and device, storage medium and computer equipment

Technical Field

The invention relates to the technical field of computers, in particular to a detection equipment configuration method and device, a storage medium and computer equipment.

Background

With the development of the internet of things technology, a plurality of devices capable of being networked can perform centralized data collection and management through the internet of things technology. In the process of implementing the internet of things project based on the internet of things platform, an essential step is to configure the sensor device to collect data.

In the prior art, each measuring point of each detecting device is required to be configured one by one, the configuration workload is large, and the configuration efficiency is low.

Disclosure of Invention

The invention solves the technical problem of how to improve the configuration efficiency when configuring the detection equipment.

In order to solve the foregoing technical problem, an embodiment of the present invention provides a detection device configuration method, where the method includes: acquiring an equipment model corresponding to target equipment, wherein the target equipment is provided with one or more measuring points, and the equipment model comprises the number of the measuring points contained in one type of equipment and a parameter configuration rule of each measuring point; configuring parameters of each measuring point in the target equipment according to the equipment model so that the target equipment can obtain detection data of each measuring point according to the configured parameters; acquiring detection data of each measuring point of the target equipment; wherein the target device is connected in a communication link.

Optionally, the parameter configuration rule includes a general attribute configuration rule for configuring the target device and a measurement configuration rule for configuring measurement logic of each measurement point in the target device.

Optionally, the method further includes: when detecting that a target device is connected into a communication link, allocating a communication identifier for the target device; the acquiring of the detection data of each measuring point of the target device includes: and acquiring detection data, wherein the detection data comprises the communication identifier of the target equipment.

Optionally, after the obtaining of the detection data, the detecting data includes the communication identifier of the target device, the method further includes: and identifying the detection data to determine the detection data corresponding to each measuring point in the target equipment.

Optionally, the extracting the detection data from the register of the target device and transmitting the detection data through the communication link, where the identifying the detection data includes: and identifying the detection data based on the storage rule of the register of the target device.

Optionally, the obtaining of the device model corresponding to the target device includes: and identifying the equipment type of the target equipment, and acquiring an equipment model corresponding to the identified equipment type.

Optionally, the communication link is configured based on at least a serial communication protocol and/or an application layer communication protocol.

The embodiment of the invention also provides a device for configuring the detection equipment, which comprises: the device model acquisition module is used for acquiring a device model corresponding to target device, wherein the target device is provided with one or more measuring points, and the device model comprises the number of the measuring points contained in one type of device and a parameter configuration rule of each measuring point; the configuration module is used for configuring parameters of each measuring point in the target equipment according to the equipment model so that the target equipment can obtain detection data of each measuring point according to the configured parameters; the detection data acquisition module is used for acquiring detection data of each measuring point of the target equipment; wherein the target device is connected in a communication link.

The embodiment of the invention also provides a storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the steps of the detection device configuration method are realized.

The embodiment of the invention also provides computer equipment, which comprises a memory and a processor, wherein the memory stores a computer program, and the processor realizes the steps of the detection equipment configuration method when executing the computer program.

Compared with the prior art, the technical scheme of the embodiment of the invention has the following beneficial effects:

the embodiment of the invention provides a detection equipment configuration method, which comprises the following steps: acquiring an equipment model corresponding to target equipment, wherein the target equipment is provided with one or more measuring points, and the equipment model comprises the number of the measuring points contained in one type of equipment and a parameter configuration rule of each measuring point; configuring parameters of each measuring point in the target equipment according to the equipment model so that the target equipment can obtain detection data of each measuring point according to the configured parameters; acquiring detection data of each measuring point of the target equipment; wherein the target device is connected in a communication link. Compared with the prior art, in the scheme of the invention, the management end can remotely complete the parameter configuration of each measuring point of the detecting equipment through the established equipment model by the detecting equipment configuration method, and does not need to configure each measuring point one by one, thereby greatly reducing the workload when the detecting equipment is configured and improving the configuration efficiency.

Further, the management terminal assigns communication identifications to the respective detection devices connected in the communication link to manage the respective detection devices.

Furthermore, each detection device transmits the detection data of each measuring point to the management end according to a certain rule, so that the pipe end can identify the detection data corresponding to each measuring point according to the rule, and the detection data of each measuring point is subjected to statistical analysis.

Further, a detection device configuration system can be provided, which can automatically correspond to IoT device measurement points based on device models, can automatically calculate the functions of automatically calculating detection data through physical communication collection and corresponding to the measurement points according to a small number of configuration items, can replace a large amount of tedious configuration workload, and improves the implementation configuration efficiency.

Drawings

Fig. 1 is a schematic flowchart of a method for detecting device configuration according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a detection apparatus configuration method according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a detection device configuration system according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a detection device configuration apparatus according to an embodiment of the present invention.

Detailed Description

As for background technologies, in the prior art, each measurement point of each detection device in the internet of things needs to be configured one by one, configuration workload is large, and configuration efficiency is low.

In order to solve the problem, an embodiment of the present invention provides a method and an apparatus for detecting device configuration, a storage medium, and a computer device, wherein the method includes: acquiring an equipment model corresponding to target equipment, wherein the target equipment is provided with one or more measuring points, and the equipment model comprises the number of the measuring points contained in one type of equipment and a parameter configuration rule of each measuring point; configuring parameters of each measuring point in the target equipment according to the equipment model so that the target equipment can obtain detection data of each measuring point according to the configured parameters; acquiring detection data of each measuring point of the target equipment; wherein the target device is connected in a communication link.

Through the scheme, the efficiency of the detection equipment during configuration can be effectively improved.

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

Referring to fig. 1, fig. 1 is a schematic flow chart of a detection apparatus configuration method according to an embodiment of the present invention, where the method includes:

step S101, obtaining an equipment model corresponding to target equipment, wherein the target equipment is provided with one or more measuring points, and the equipment model comprises the number of the measuring points contained in one type of equipment and a parameter configuration rule of each measuring point;

the detection device may be any device for collecting detection data, each detection device may comprise one or more stations, and each station may collect detection data. Different stations of each device may collect the same type of test data or different types of test data. For example, the detection device may be an electricity meter, a water meter, or the like.

In the embodiment of the invention, one or more detection devices are referred to as target devices.

Alternatively, the measuring points may be sensors, and each device may collect the same type of detection data through the same sensor, or may collect different types of detection data through different sensors.

Optionally, the parameters for configuring the target device may include parameters such as general information for configuring the target device and detection requirements.

The device model is a model of the detection device which is established by the management terminal and used for managing each access communication link, and the device model corresponds to the detection device. The management end can remotely carry out parameter configuration on each measuring point of the detection equipment in the communication link through the equipment model.

Optionally, the device model may be established according to factors such as the type of the detection data collected by the detection device, the number of the measurement points, the model of the detection device, and actual test requirements. For example, a device model may be created for the detection devices containing the same number of stations and/or for collecting the same type of detection data, and the uniform configuration of the detection devices containing the same number of stations and/or for collecting the same type of detection data may be accomplished by the device model.

Alternatively, the device model may be an object model.

It should be noted that, the establishment basis of the device model and the corresponding relationship between the device model and the detection device, including but not limited to the above-mentioned cases, any scheme that can be obtained by abstracting the detection device based on a certain rule and can implement configuration of a plurality of detection devices according to a certain rule, may be regarded as the device model provided by the present invention.

Step S102, configuring parameters of each measuring point in the target equipment according to the equipment model, so that the target equipment obtains detection data of each measuring point according to the configured parameters;

the management end can carry out uniform parameter configuration on each measuring point of the target equipment according to the rule of parameter configuration contained in the obtained equipment model, and the configured target equipment can collect detection data corresponding to each measuring point in the corresponding detection environment according to the configured parameters.

Optionally, the device model may also perform calculation and/or data conversion on the collected detection data corresponding to each measurement point, so as to convert the collected raw data of each measurement point into data required by the application layer.

Step S103, acquiring detection data of each measuring point of the target equipment;

wherein the target device is connected in a communication link.

Each detection device is connected with the management terminal through a communication link, and when the target device accesses the communication link, the target device needs to be subjected to parameter configuration. Wherein the target device accesses the communication link via the communication configuration.

After the detection data are collected at each measuring point of the target equipment, the detection data can be sent to the management end through the communication link and are managed by the management end in a centralized mode.

Alternatively, it may be arranged that the parameter configuration is only performed when the detection device is first connected to the communication link or when a reconfiguration of the detection device is required.

By the detection equipment configuration method, the management end can remotely complete parameter configuration of each measuring point of the detection equipment through the established equipment model without configuring each measuring point one by one, so that the workload of configuration of the detection equipment is greatly reduced, and the configuration efficiency is improved.

Optionally, the parameter configuration rule includes a general attribute configuration rule for configuring the target device and a measurement configuration rule for configuring measurement logic of each measurement point in the target device. For each detection device, the parameters to be configured include both generic attribute parameters and measurement configuration parameters. The general attribute parameter is a parameter for uniformly setting a type of equipment, for example, a model of the equipment. The same set of configuration parameters can be configured for a plurality of detection devices corresponding to the same device model as a general attribute configuration rule so as to configure the general attribute parameters of the detection devices.

The measurement configuration parameters are parameters for configuring a certain device differently according to different test requirements, such as a threshold value, a test type, and the like when measuring at each test point. A set of measurement configuration rules can be proposed by logically abstracting a plurality of detection devices corresponding to the same device model, and the measurement configuration rules are used for configuring measurement configuration parameters of the detection devices.

Referring to fig. 2, fig. 2 is a schematic diagram illustrating a method for configuring a detection device according to an embodiment; the management end establishes one or more equipment models 201, and each equipment model 201 comprises a general attribute configuration rule and a measurement configuration rule so as to configure parameters of the detection equipment 202. Each detection device 202 is coupled into the communication link via a communication arrangement.

Optionally, a rule and/or a conversion rule may be further calculated in each device model 201, so as to calculate and/or convert the collected detection data corresponding to each measurement point.

In one embodiment, the method for detecting device configuration may further include: when detecting that a target device is connected into a communication link, allocating a communication identifier for the target device; step S103 in fig. 1 acquires detection data of each station of the target device, including: and acquiring detection data, wherein the detection data comprises the communication identifier of the target equipment.

The communication identifier is an identifier for identifying each target device, and may be an identification number or a component address.

When each target device is connected to the communication link, the management terminal allocates a communication identifier for identifying the target device to the target device, and the communication identifier serves as an identification basis when the target device communicates with the management terminal. When each detection device sends the collected detection data to the management terminal, the communication identifier of the device is added to the sent detection data, and the management terminal is used for identifying the detection device sending the detection data.

Optionally, only when a detection device (or called target device) is connected to the communication link for the first time, a communication identifier is allocated to the detection device; alternatively, a detection device may be assigned a communication identification based on the test location in which it is located when it is connected to the communication link.

In this embodiment, the management terminal assigns a communication identifier to each detection device connected to the communication link to manage each detection device.

In an embodiment, after the obtaining of the detection data and the detection data includes the communication identifier of the target device, the method may further include: and identifying the detection data to determine the detection data corresponding to each measuring point in the target equipment.

After receiving the detection data sent by each detection device, the management terminal distinguishes the detection data measured by each measuring point of the target device from the detection data according to a preset identification rule. The preset identification rule may be set based on the order in which the target device transmits data.

Optionally, the extracting the detection data from the register of the target device and transmitting the detection data through the communication link, where the identifying the detection data includes: and identifying the detection data based on the storage rule of the register of the target device.

When the target device takes the detection data out of the local register of the target device and sends the detection data to the management end, the preset identification rule can be set according to the storage rule of the detection data of each measuring point of the target device in the register. The storage rule of the register may include a position in the register where the detection data measured by each station of the target device is stored. Optionally, the preset identification rule may further set a sending sequence of the data stored in each storage location of the register when the target device sends the data.

Optionally, after the detection data corresponding to each measurement point is identified, a corresponding calculation and/or conversion rule may be further obtained, and the identified detection data is calculated and/or data converted, so as to convert the collected original data of each measurement point into data required by the application layer.

It should be noted that the preset identification rule includes, but is not limited to, the setting method described above.

In this embodiment, each detection device transmits the detection data of each measurement point to the management end according to a certain rule, so that the pipe end can identify the detection data corresponding to each measurement point according to the rule, and perform statistical analysis on the detection data of each measurement point.

Optionally, please continue to refer to fig. 1, where the obtaining of the device model corresponding to the target device in step S101 in fig. 1 may include: and identifying the equipment type of the target equipment, and acquiring an equipment model corresponding to the identified equipment type.

The device model can be established based on the device types possibly connected to the communication link, and when the management terminal detects the newly-accessed detection device, the corresponding device model can be identified based on the device type of the device. The equipment type can be obtained by classifying the detection equipment according to the equipment model, the equipment brand and the like.

Optionally, the communication link is configured based on at least a serial communication protocol and/or an application layer communication protocol.

Each detection device can be connected with the management terminal through a serial communication protocol or an application layer communication protocol, and communication links of a plurality of detection devices and the management terminal can be deployed based on the serial communication protocol only, or the application layer communication protocol only, or can be deployed based on the two protocols in combination. The serial communication Protocol may be a modbus Protocol, and the application layer communication Protocol may be a socket (socket) or a HyperText Transfer Protocol (Http).

The detection device configuration method of fig. 1 and fig. 2 may be used to configure an Internet of Things (IoT) device, please refer to fig. 3, and fig. 3 is a schematic diagram of a detection device configuration system; the detection device configuration system may include two parts, communication configuration and object model management/IoT device management. When the detection equipment configuration system is actually created, the following steps are included:

s301, establishing a data channel and configuring communication parameters; that is, a data channel for communication between the management terminal and each detection device is created in the system, a part of communication parameters in the data channel can be configured first, and the rest of communication parameters are configured when the detection device accesses the data channel.

Step S302, an equipment model is established, and a parameter configuration rule is set; one or more equipment models (the equipment model can be an object model) are created at a management end, and the equipment models comprise a plurality of parameter configuration rules for configuring the detection equipment.

Step S303, configuring an IoT device based on the device model; further, when each IoT device (each device includes one or more measurement points) accesses the communication link (the communication link may refer to a data channel), the management end selects a device model corresponding to the IoT device according to the model, brand, and the like of the IoT device, and configures each measurement point of the IoT device according to a parameter configuration rule included in the selected device model, that is, step S305, automatically configures each measurement point of the plurality of IoT devices.

Step S304, associating data channels and distributing communication identifiers; connecting the IoT equipment needing to be added into the detection to a communication link, and distributing a communication identifier which is convenient for management of a management end to each equipment; at this time, the communication parameters corresponding to the accessed IoT device in step S301 may be supplemented.

The detection device configuration system can be used for realizing automatic configuration of a plurality of measuring points for simultaneously configuring a plurality of IoT devices. According to the method, the IoT equipment measuring points are automatically corresponding based on the equipment model, the functions of automatically calculating the detection data collected through physical communication and corresponding to the measuring points can be realized according to a small number of configuration items, a large amount of complex configuration workload can be replaced, and the implementation configuration efficiency is improved.

Referring to fig. 4, the present invention further provides a detecting device configuring apparatus 40, where the detecting device configuring apparatus 40 includes:

an equipment model obtaining module 401, configured to obtain an equipment model corresponding to a target equipment, where the target equipment has one or more measurement points, and the equipment model includes the number of measurement points included in a class of equipment and a parameter configuration rule of each measurement point;

a configuration module 402, configured to configure parameters of each measurement point in the target device according to the device model, so that the target device obtains detection data of each measurement point according to the configured parameters;

a detection data obtaining module 403, configured to obtain detection data of each measurement point of the target device;

wherein the target device is connected in a communication link.

Optionally, the parameter configuration rule includes a general attribute configuration rule for configuring the target device and a measurement configuration rule for configuring measurement logic of each measurement point in the target device.

In one embodiment, the detection device configuration apparatus further includes:

the communication identifier distribution module is used for distributing a communication identifier for the target equipment when the target equipment is detected to be connected into a communication link;

the detection data obtaining module 403 is further configured to obtain detection data, where the detection data includes a communication identifier of the target device.

In one embodiment, the detecting device configuring apparatus 40 further includes:

and the data identification module is used for identifying the detection data so as to determine the detection data corresponding to each measuring point in the target equipment.

In one embodiment, the detection data is retrieved from a register of the target device and transmitted through the communication link, and the data identification module is further configured to identify the detection data based on a storage rule of the register of the target device.

In an embodiment, the device model obtaining module 401 is further configured to identify a device type of the target device, and obtain a device model corresponding to the identified device type.

Optionally, the communication link is configured based on at least a serial communication protocol and/or an application layer communication protocol.

For more contents of the working principle and the working mode of the detection device configuration apparatus 40, reference may be made to the above description of the detection device configuration method in fig. 1 to fig. 3, and details are not repeated here.

Further, the embodiment of the present invention further discloses a storage medium, on which a computer program is stored, and when the computer program is executed by a processor, the technical solution of the method for configuring a detection device shown in fig. 1 to 3 is executed.

Further, the embodiment of the present invention further discloses a computer device, which includes a memory and a processor, where the memory stores a computer program capable of running on the processor, and the processor executes the technical solution of the detection device configuration method shown in fig. 1 to 3 when running the computer program. The computer device is the management terminal and can be implemented by a server (such as a cloud terminal server) and a server set.

Specifically, in the embodiment of the present invention, the processor may be a Central Processing Unit (CPU), and the processor may also be other general-purpose processors, Digital Signal Processors (DSPs), Application Specific Integrated Circuits (ASICs), Field Programmable Gate Arrays (FPGAs) or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, and the like. A general purpose processor may be a microprocessor or the processor may be any conventional processor or the like.

It will also be appreciated that the memory in the embodiments of the subject application can be either volatile memory or nonvolatile memory, or can include both volatile and nonvolatile memory. The nonvolatile memory may be a read-only memory (ROM), a Programmable ROM (PROM), an Erasable PROM (EPROM), an Electrically Erasable PROM (EEPROM), or a flash memory. Volatile memory can be Random Access Memory (RAM), which acts as external cache memory. By way of example and not limitation, many forms of Random Access Memory (RAM) are available, such as Static RAM (SRAM), Dynamic RAM (DRAM), Synchronous DRAM (SDRAM), double data rate SDRAM (dddram), enhanced SDRAM (enhanced SDRAM), synchronous DRAM (SLDRAM), Synchronous Link DRAM (SLDRAM), and direct bus RAM (DR RAM).

It should be understood that the term "and/or" herein is merely one type of association relationship that describes an associated object, meaning that three relationships may exist, e.g., a and/or B may mean: a exists alone, A and B exist simultaneously, and B exists alone. In addition, the character "/" in this document indicates that the former and latter related objects are in an "or" relationship.

The "plurality" appearing in the embodiments of the present application means two or more.

The descriptions of the first, second, etc. appearing in the embodiments of the present application are only for illustrating and differentiating the objects, and do not represent the order or the particular limitation of the number of the devices in the embodiments of the present application, and do not constitute any limitation to the embodiments of the present application.

The term "connect" in the embodiments of the present application refers to various connection manners, such as direct connection or indirect connection, to implement communication between devices, which is not limited in this embodiment of the present application.

Although the present invention is disclosed above, the present invention is not limited thereto. Various changes and modifications may be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims (10)

1. A method for detecting device configuration, the method comprising:

acquiring an equipment model corresponding to target equipment, wherein the target equipment is provided with one or more measuring points, and the equipment model comprises the number of the measuring points contained in one type of equipment and a parameter configuration rule of each measuring point;

configuring parameters of each measuring point in the target equipment according to the equipment model so that the target equipment can obtain detection data of each measuring point according to the configured parameters;

acquiring detection data of each measuring point of the target equipment;

wherein the target device is connected in a communication link.

2. The method of claim 1, wherein the parameter configuration rules include general attribute configuration rules for configuring the target device and measurement configuration rules for configuring measurement logic of each measurement point in the target device.

3. The method of claim 1, further comprising:

when detecting that a target device is connected into a communication link, allocating a communication identifier for the target device;

the acquiring of the detection data of each measuring point of the target device includes:

and acquiring detection data, wherein the detection data comprises the communication identifier of the target equipment.

4. The method according to claim 3, wherein after the obtaining detection data, which includes the communication identifier of the target device, further comprises:

and identifying the detection data to determine the detection data corresponding to each measuring point in the target equipment.

5. The method of claim 4, wherein the detection data is retrieved from a register of the target device and transmitted over a communication link, and wherein identifying the detection data comprises: and identifying the detection data based on the storage rule of the register of the target device.

6. The method of claim 1, wherein the obtaining of the device model corresponding to the target device comprises:

and identifying the equipment type of the target equipment, and acquiring an equipment model corresponding to the identified equipment type.

7. The method of claim 1, wherein the communication link is configured based on at least a serial communication protocol and/or an application layer communication protocol.

8. An apparatus for configuring a test device, the apparatus comprising:

the device model acquisition module is used for acquiring a device model corresponding to target device, wherein the target device is provided with one or more measuring points, and the device model comprises the number of the measuring points contained in one type of device and a parameter configuration rule of each measuring point;

the configuration module is used for configuring parameters of each measuring point in the target equipment according to the equipment model so that the target equipment can obtain detection data of each measuring point according to the configured parameters;

the detection data acquisition module is used for acquiring detection data of each measuring point of the target equipment;

wherein the target device is connected in a communication link.

9. A storage medium having a computer program stored thereon, the computer program, when being executed by a processor, performing the steps of the method of any one of claims 1 to 7.

10. A computer device comprising a memory and a processor, the memory storing a computer program, wherein the processor implements the steps of the method of any one of claims 1 to 7 when executing the computer program.

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