CN112764637A - Smart agriculture Internet of things equipment description file generation method - Google Patents

Abstract

The invention discloses a method for generating an intelligent agricultural Internet of things equipment description file, which comprises the following steps: the method comprises the steps of defining equipment description specifications, defining page components, loading the page components and loading an equipment structure body, wherein the page components and the loading the equipment structure body comprise loading of main equipment, loading of sub-equipment and loading of a sensor, control information and configuration information adding equipment, the sub-equipment and the sensor in a configuration selection area, a label option for editing the page components is dragged to a main working area in a control selection area, component attributes are set in an attribute modification area, an equipment configuration list is built through graphical operation, a description file is dynamically generated, and a worker for maintaining the description file only needs to understand general business personnel formed by the equipment, so that the method is easier for mass operation, stronger in universality and higher in efficiency.

Description

Smart agriculture Internet of things equipment description file generation method

Technical Field

The invention belongs to the technical field of intelligent agricultural Internet of things, and particularly relates to a method for generating an intelligent agricultural Internet of things equipment description file.

Background

Basic model of development of the internet of things: (1) the Internet of things equipment sends data to the Internet of things platform through a network, and the platform analyzes the data and then stores and displays the data; (2) the Internet of things platform sends instruction data to the equipment, and the equipment completes corresponding instruction actions. When the internet of things equipment is connected to the internet of things platform, equipment merchants need to provide equipment description files for butt joint of the equipment and the internet of things platform, and the equipment description files need to conform to a certain fixed format. Generally, a programmer generates a device description file by means of code typing, but when the device structure is very complicated or the number of sensors of the device is very large, the description file becomes complicated, often thousands of lines or even tens of thousands of lines, the programming workload becomes quite large, errors are easy to occur, and the troubleshooting is heavy after errors occur; at the same time, this work must be written by a programmer.

So far, a more efficient method for generating the description file does not exist, namely a method which does not need manual coding, is efficient and accurate and is easy for mass operation is realized.

Disclosure of Invention

The invention aims to solve the technical problem and provides a method for generating an intelligent agricultural Internet of things device description file. By the invention, the staff for maintaining the description file is not a programmer with professional coding capability any more, but only a general service staff for understanding the equipment composition.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a method for generating an intelligent agricultural Internet of things device description file comprises the following steps:

starting at S1, then proceed to step S2;

step S2: defining a device description specification, specifying basic description items of the device, and then proceeding to step S3;

step S3, defining page components, and then entering step S4;

and step S4, loading the page component and the loading device structure body, wherein the loading of the main device, the loading of the sub-device and the loading of the sensor are included.

Further, the loading of the master device comprises the following steps:

beginning at step S101: selecting the main equipment, clicking the control information and the configuration information of the configuration selection area, and then entering the step S102;

step S102: selecting a page component, dragging a label option for editing the page component of the main equipment to a main working area in a control selection area, and then entering the step S103;

step S103: selecting the component attribute, setting the component attribute in the attribute modification area, and then entering the step S104;

step S104: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirements and the actual system hardware configuration, if so, jumping to the step S102, and if not, entering the step S105;

and S105, integrally saving and generating the JSON description file.

Further, the loading of the child device comprises the following steps:

beginning at step S201: newly adding the sub-equipment, clicking the configuration of the sub-equipment in the configuration selection area, adding the name, type code and number of the sub-equipment, and then entering step 202;

step S202: selecting a page component, clicking configuration information configured by the sub-equipment, dragging a label option describing the sub-equipment to a main working area in a control selection area, and then entering step S203;

step S203: setting the property of the component, setting the property of the component in the property modification area, and then entering step 204;

step S204: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirements and the actual system hardware configuration, if so, jumping to the step S202, otherwise, entering the step S205;

step S205: judging whether an instruction is needed, if so, entering step S206, otherwise, entering step S105;

step S206: adding a new instruction, clicking the control information of the configuration selection area, and then entering step S207;

step S207: configuring an instruction, clicking a control selection area to drag a label option of an editing instruction component to a main working area, editing attributes in an attribute modification area, and then entering step S208;

step S208: judging whether other instructions exist or not, judging by the user according to the requirements and the system hardware configuration, if so, jumping to the step S206, otherwise, entering the step S105;

and S105, integrally saving and generating the JSON description file.

Further, the loading of the sensor comprises the steps of:

beginning at step S301: adding a new sensor, clicking the sensor configuration of the configuration selection area, and then entering the step S302;

step S302: selecting a page component, dragging the label option of the editing sensor component to a main working area in a control selection area, and then entering the step S303;

step S303: setting the component attribute, setting the component attribute in the attribute modification area, and then entering step 304;

step S304: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirement and the system hardware configuration, if so, the step S302 is skipped, otherwise, the step S305 is carried out;

step S305: judging whether an instruction is needed, if so, entering step S306, otherwise, entering step S105;

step S306: adding a new instruction, clicking the control information of the configuration selection area, and then entering the step S307;

step S307: configuring an instruction, clicking a control selection area to drag the label option of the editing instruction control to a main working area, editing the attribute in an attribute modification area, and then entering the step S308;

step S308: judging whether other instructions exist, if so, jumping to the step S306, otherwise, entering the step S105;

and S105, integrally saving and generating the JSON description file, clicking a ROOT node, and seeing the details of the JSON description file.

Further, the basic description items that all devices have include name (name), type (type), identification code (code), parameter object list (params), command object list (cmss), sensor list (sensors), and the device may contain sub-zero to a plurality of sub-devices (items), and so on for each sub-device.

Further, description of the parameter object list: the parameter object list "params" is edited by describing items such as a parameter name (name), a parameter identification code (key), a parameter type (propertyTYpe), a parameter default value (value), and whether the parameter is editable (editable).

Further, description of the instruction object list: editing the description items of the instruction object list "cmds" through an instruction name (name), a display type (displayType) of an instruction on a platform, an instruction identification code (key), an instruction processor (handerCode), and the like.

Further, the description of the sensor list edits the sensor list "sensors" through the sensor identification code (key), the transmission data type (dataType), the upper data alarm threshold (upperLimit), the lower data alarm threshold (lowerLimit), and the like.

Further, the page component loading and the equipment loading structure body loading comprise loading of the main equipment, loading of the sub-equipment and loading of the sensor; specifically, the description specification and all data items used in the description specification are loaded into a computer memory, initialization is carried out, the generated page components are distributed in a control selection area in a label mode, an equipment structure body is distributed in a configuration selection area, and a generated interface diagram is constructed.

Furthermore, JSON describes the details of the file, is formatted, is convenient to read and supports one-key copy.

By adopting the technical scheme, compared with the prior art, the invention has the following advantages:

1. through graphical operation, an equipment configuration list is constructed, the description file is dynamically generated, and a worker maintaining the description file is not a programmer with professional coding capacity any more, but only needs to understand general service personnel formed by equipment, so that the equipment configuration list is easier to operate by the public, and is higher in universality and efficiency.

2. The file generated by the method of constructing the equipment configuration list is more accurate and clearer.

3. From the aspect of display, the imaging is easier to perceive and more convenient to locate than the pure text information transmission.

4. In terms of promotion, the cost of learning and using the graphic tool is lower than the threshold of learning JSON, and the cost is low.

Drawings

FIG. 1 is a system flow diagram depicting a file generation method in an embodiment of the invention;

FIG. 2 is a device description specification program diagram according to an embodiment of the present invention;

FIG. 3 is a json description file generation interface diagram in an embodiment of the invention;

FIG. 4 is a diagram of json description file details in an embodiment of the invention;

in the figure, the position of the upper end of the main shaft,

1-control selection area, 2-configuration selection area, 3-main working area and 4-attribute modification area.

Detailed Description

The present invention is further described in the following examples, which will be understood by those skilled in the art, and are not intended to limit the technical scope of the present invention, but to fully describe how to implement the invention.

In an embodiment, defining the device description specification is to specify basic description items of the device, as shown in fig. 2, which are common to all devices, including name (name), type (type), identification code (code), parameter object list (params), instruction object list (cmss), and sensor list (sensors), and the device may include zero to multiple sub-devices (items), as well as description items of each sub-device.

Description within parameter object list: the parameter object list "params" is edited by describing items such as a parameter name (name), a parameter identification code (key), a parameter type (propertype), a parameter default value (value), and whether the parameter is editable (editable).

Description of instruction object list: editing the instruction object list "cmds" through an instruction name (name), a description item of an instruction on a display type (displayType) of the platform, an instruction identification code (key), an instruction processor (handerCode), and the like.

Description of the sensor list, the sensor list "sensors" is edited by a sensor identification code (key), a transmission data type (dataType), an upper data alarm threshold (upperLimit), a lower data alarm threshold (lowerLimit), and the like.

Referring to fig. 1, a method for generating an intelligent agricultural internet of things device description file includes the following specific steps:

the step starts at S1, and then proceeds to step S2;

step S2: defining a device description specification, specifying basic description items of the device, and then proceeding to step S3;

step S3, defining page components, processing all data items used in the specification, arranging the page components into page components capable of displaying, dragging and modifying attributes on a WEB page, and then entering step S4;

the page components and functions are as follows:

s4, loading page components and loading equipment structures, including the loading of main equipment, the loading of sub-equipment and the loading of sensors; specifically, the description specification and all data items used in the description specification are loaded into a computer memory, initialization is performed, the generated page assembly is distributed in a control selection area in a label mode, an equipment structure body is distributed in a configuration selection area, a generated interface diagram as shown in fig. 3 is constructed, then the step S101, the step S201 or the step S301 is performed, the step S101, the step S201 and the step S301 are not in sequence, and a user can independently select according to requirements and system hardware configuration.

The loading of the master device starts in step S101: selecting the main equipment, clicking the control information and the configuration information of the configuration selection area, and then entering the step S102;

step S102: selecting a page component, dragging a label option for editing the page component of the main equipment to a main working area in a control selection area, and then entering the step S103;

step S103: selecting the component attribute, setting the component attribute in the attribute modification area, and then entering the step S104;

step S104: and judging whether other attributes exist or not by the user according to the requirements and the actual system hardware configuration, if so, jumping to the step S102, and otherwise, entering the step S105.

The loading of the child device starts with step S201: newly adding the sub-equipment, clicking the configuration of the sub-equipment in the configuration selection area, adding the name, type code and number of the sub-equipment, and then entering step 202;

step S202: selecting a page component, clicking configuration information configured by the sub-equipment, dragging a label option describing the sub-equipment to a main working area in a control selection area, and then entering step S203;

step S203: setting the property of the component, setting the property of the component in the property modification area, and then entering step 204;

step S204: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirements and the actual system hardware configuration, if so, jumping to the step S202, otherwise, entering the step S205;

step S205: judging whether an instruction is needed, if so, entering step S206, otherwise, entering step S105;

step S206: adding a new instruction, clicking the control information of the configuration selection area, and then entering step S207;

step S207: configuring an instruction, clicking a control selection area to drag a label option of an editing instruction component to a main working area, editing attributes in an attribute modification area, and then entering step S208;

step S208: and judging whether other instructions exist or not, wherein the judgment is carried out by the user according to the requirements and the system hardware configuration, if so, the step S206 is skipped, and if not, the step S105 is carried out.

The loading of the sensor starts in step S301: adding a new sensor, clicking the sensor configuration of the configuration selection area, and then entering the step S302;

step S302: selecting a page component, dragging the label option of the editing sensor control to a main working area in a control selection area, and then entering the step S303;

step S303: setting the component attribute, setting the component attribute in the attribute modification area, and then entering step 304;

step S304: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirement and the system hardware configuration, if so, the step S302 is skipped, otherwise, the step S305 is carried out;

step S305: judging whether an instruction is needed, if so, entering step S306, otherwise, entering step S105;

step S306: adding a new instruction, clicking the control information of the configuration selection area, and then entering the step S307;

step S307: configuring an instruction, clicking a control selection area to drag a label option of an editing instruction component to a main working area, editing attributes in an attribute modification area, and then entering step S308;

step S308: judging whether other instructions exist, if so, jumping to the step S306, otherwise, entering the step S105;

and S105, integrally storing and generating the JSON description file, clicking a ROOT node as shown in FIG. 4, and seeing the details of the JSON description file, wherein the JSON description file is formatted, is convenient to read and supports one-key copy.

The foregoing is illustrative of the best mode of the invention and details not described herein are within the common general knowledge of a person of ordinary skill in the art. The scope of the present invention is defined by the appended claims, and any equivalent modifications based on the technical teaching of the present invention are also within the scope of the present invention.

Claims (10)

1. A method for generating an intelligent agricultural Internet of things device description file is characterized by comprising the following steps:

starting at S1, then proceed to step S2;

step S2: defining a device description specification, specifying basic description items of the device, and then proceeding to step S3;

step S3, defining page components, and then entering step S4;

and step S4, loading the page component and the loading device structure body, wherein the loading of the main device, the loading of the sub-device and the loading of the sensor are included.

2. The method for generating the device description file of the intelligent agricultural internet of things as claimed in claim 1, wherein the loading of the master device comprises the following steps:

beginning at step S101: selecting the main equipment, clicking the control information and the configuration information of the configuration selection area, and then entering the step S102;

step S102: selecting a page component, dragging a label option for editing the page component of the main equipment to a main working area in a control selection area, and then entering the step S103;

step S103: selecting the component attribute, setting the component attribute in the attribute modification area, and then entering the step S104;

step S104: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirements and the actual system hardware configuration, if so, jumping to the step S102, and if not, entering the step S105;

and S105, integrally saving and generating the JSON description file.

3. The method for generating the device description file of the intelligent agricultural internet of things as claimed in claim 1, wherein the loading of the sub-device comprises the following steps:

beginning at step S201: newly adding the sub-equipment, clicking the configuration of the sub-equipment in the configuration selection area, adding the name, type code and number of the sub-equipment, and then entering step 202;

step S202: selecting a page component, clicking configuration information configured by the sub-equipment, dragging a label option describing the sub-equipment to a main working area in a control selection area, and then entering step S203;

step S203: setting the property of the component, setting the property of the component in the property modification area, and then entering step 204;

step S204: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirements and the actual system hardware configuration, if so, jumping to the step S202, otherwise, entering the step S205;

step S205: judging whether an instruction is needed, if so, entering step S206, otherwise, entering step S105;

step S206: adding a new instruction, clicking the control information of the configuration selection area, and then entering step S207;

step S207: configuring an instruction, clicking a control selection area to drag a label option of an editing instruction component to a main working area, editing attributes in an attribute modification area, and then entering step S208;

step S208: judging whether other instructions exist or not, judging by the user according to the requirements and the system hardware configuration, if so, jumping to the step S206, otherwise, entering the step S105;

and S105, integrally saving and generating the JSON description file.

4. The method for generating the device description file of the intelligent agricultural internet of things as claimed in claim 1, wherein the loading of the sensor comprises the following steps:

beginning at step S301: adding a new sensor, clicking the sensor configuration of the configuration selection area, and then entering the step S302;

step S302: selecting a page component, dragging the label option of the editing sensor component to a main working area in a control selection area, and then entering the step S303;

step S303: setting the component attribute, setting the component attribute in the attribute modification area, and then entering step 304;

step S304: judging whether other attributes exist or not, wherein the judgment is carried out by a user according to the requirement and the system hardware configuration, if so, the step S302 is skipped, otherwise, the step S305 is carried out;

step S305: judging whether an instruction is needed, if so, entering step S306, otherwise, entering step S105;

step S306: adding a new instruction, clicking the control information of the configuration selection area, and then entering the step S307;

step S307: configuring an instruction, clicking a control selection area to drag the label option of the editing instruction control to a main working area, editing the attribute in an attribute modification area, and then entering the step S308;

step S308: judging whether other instructions exist, if so, jumping to the step S306, otherwise, entering the step S105;

and S105, integrally saving and generating the JSON description file, clicking a ROOT node, and seeing the details of the JSON description file.

5. The intelligent agricultural internet of things device description file generation method of claim 1, wherein: the basic description items that all devices have include name (name), type (type), identification code (code), parameter object list (params), instruction object list (cmss), sensor list (sensors), and the description items of the devices may include sub-zero to a plurality of sub-devices (items), and the same is true for each sub-device.

6. The intelligent agricultural internet of things device description file generation method of claim 1, wherein: description of parameter object list: the parameter object list "params" is edited by describing items such as a parameter name (name), a parameter identification code (key), a parameter type (propertyTYpe), a parameter default value (value), and whether the parameter is editable (editable).

7. The intelligent agricultural internet of things device description file generation method of claim 1, wherein: description of instruction object list: editing the description items of the instruction object list "cmds" through an instruction name (name), a display type (displayType) of an instruction on a platform, an instruction identification code (key), an instruction processor (handerCode), and the like.

8. The intelligent agricultural internet of things device description file generation method of claim 1, wherein: description of the sensor list, the sensor list "sensors" is edited through a sensor identification code (key), a transmission data type (dataType), a data alarm upper threshold (upperLimit), a data alarm lower threshold (lowerLimit) and the like.

9. The intelligent agricultural internet of things device description file generation method of claim 1, wherein: the page loading assembly and the loading equipment structure body comprise loading of main equipment, loading of sub-equipment and loading of a sensor; specifically, the description specification and all data items used in the description specification are loaded into a computer memory, initialization is carried out, the generated page components are distributed in a control selection area in a label mode, an equipment structure body is distributed in a configuration selection area, and a generated interface diagram is constructed.

10. The intelligent agricultural internet of things device description file generation method of claim 1, wherein: JSON describes the details of the file, is formatted, is convenient to read, and supports one-key copy.

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