TWI692249B - Monitoring terminal and monitoring method - Google Patents

Abstract

A monitoring method includes: acquiring object models and a scene map; displaying the object models and a scene map; generating a virtual scene map according to a user operating of moving an object model on the scene map; establishing a relationship between electronic objects in the scene and the object models; setting the monitoring parameters in the virtual scene map and working parameters of each object model, wherein the working parameters are associated with the monitoring parameters; according to the relationship, obtaining the working parameter values of the working parameters of the corresponding electronic object are from a server communicating with the electronic object as the working parameter value of the working parameter of the object model; analyzing the working parameter of the object model and the corresponding working parameter value obtains to obtain the monitoring parameter value of the monitoring parameter; and displaying the monitoring parameter and the monitoring parameter value on the virtual scene map. The invention also provides a monitoring terminal.

Description

Monitoring terminal and monitoring method

The invention relates to a monitoring terminal and a monitoring method.

In order to understand the status of the production site, office site, etc. in time, it is necessary to collect the operation status of the equipment arranged on the site to facilitate subsequent decision-making. At present, the relevant information of the equipment is generally collected through the scene, so it is impossible to intuitively know the running status of the entire scene.

In view of this, it is necessary to provide a monitoring terminal and a monitoring method that can intuitively obtain on-site conditions.

A monitoring terminal includes a processor and a memory. The processor is used to implement various instructions. The memory is used to store multiple instructions. The instructions are suitable for being loaded and executed by the processor. The instructions include : Obtain the object model and the scene map; display the object model and the scene map on a preset webpage opened on the monitoring terminal; move the object model to generate a virtual scene on the scene map according to user operations Figure; establish the correspondence between the electronic objects and the object model in the scene; set the monitoring parameters in the virtual scene and the working parameters of each object model, the working parameters are associated with the monitoring parameters; according to the Correspondence relationship Obtain the working parameter value of the working parameter of the electronic object from the server communicating with the electronic object as the working parameter value of the working parameter of the corresponding object model; analyze the working parameter of the object model And the corresponding working parameter value is the monitoring parameter value of the monitoring parameter; and the monitoring parameter and the monitoring parameter value are displayed on the virtual scene graph.

A monitoring method suitable for execution in a monitoring terminal. The method includes: acquiring an object model and a scene map; displaying the object model and the scene map on a preset webpage opened on the monitoring terminal; according to usage The operator moves the object model to generate a virtual scene graph on the scene map; establishes a correspondence between the electronic object in the scene and the object model; sets the monitoring parameters in the virtual scene and the working parameters of each object model , The working parameter is associated with the monitoring parameter; the working parameter value of the corresponding working parameter of the electronic object is acquired from the server communicating with the electronic object according to the correspondence as the index of the corresponding object model Working parameter values of the working parameters; analyzing the working parameters and corresponding working parameters of the object model to derive the monitoring parameter values of the monitoring parameters; and displaying the monitoring parameters and the monitoring parameters on the virtual scene graph Monitor parameter values.

The above monitoring terminal and monitoring method correspond to the object configuration map and the object model and the on-site electronic objects and electronic object placement positions to generate a virtual scene graph, and the monitoring parameters are obtained by analyzing the working parameter values of the working parameters of the on-site electronic objects The value of the monitoring parameter and display it, you can intuitively know the site status through the monitoring terminal.

100: monitoring system

20: Electronic objects

40: server

60: monitoring terminal

42: Processing unit

44: storage unit

46: Communication unit

22: Processing module

24: storage module

26: Communication module

62: processor

64: memory

66: Communication interface

68: Data acquisition module

70: display module

72: Scene generation module

74: Object configuration module

76: Parameter setting module

78: Analysis module

80: Warning module

82: Release module

S302-S324: Steps of monitoring method

Figure 1 is a structural diagram of a monitoring system.

FIG. 2 is a module diagram of the monitoring terminal in FIG. 1.

Figure 3 is a flowchart of a monitoring method.

Please refer to FIGS. 1 and 2, a monitoring system 100 includes at least one electronic object 20, a server 40 and a monitoring terminal 60. The at least one electronic object 20 is placed in a site, and the electronic object 20 may be, but not limited to, production equipment in a production site. The monitoring system 100 is used to monitor the status of the site.

The server 40 includes at least, but not limited to, at least one processing unit 42, storage unit 44 and communication unit 46. The processing unit 42 is used to calculate and process various data of the server 40 And instructions. The storage unit 44 is used to store various materials and instructions of the server 40. The communication unit 46 is used to communicate with the at least one electronic object 20 and the monitoring terminal 60.

The electronic object 20 includes at least, but not limited to, at least one processing module 22, storage module 24, and communication module 26. The processing module 22 is used to calculate and process various data and instructions of the object. The storage module 24 is used to store various data and instructions of the electronic object 20. The communication module 26 is used to communicate with the server 40.

The monitoring terminal 60 includes at least, but not limited to, at least one processor 62, memory 64, and communication interface 66. The processor 62 is used to calculate and process various materials and instructions of the monitoring terminal 60. The memory 64 is used to store various data and instructions of the monitoring terminal 60. The communication interface 66 is used to communicate with the communication unit 46 to achieve communication with the server 40.

The memory 64 stores a data acquisition module 68, a display module 70, a scene generation module 72, an object configuration module 74, a parameter setting module 76, and an analysis module 78. The data acquisition module 68 is used to acquire object models and scene maps. The display module 70 is used to display the object model and the scene map on a preset webpage opened on the monitoring terminal 60. The scene generation module 72 is used to move the object model to generate a virtual scene map on the scene map according to user operations. The user operation includes a click action. The user may click on the object model and a location on the scene map successively. The clicked object model will be automatically placed at the clicked location on the scene map, thereby generating Virtual scene graph.

The object configuration module 74 is used to establish a correspondence between the electronic object 20 and the object model in the field. For example, the production equipment and equipment model in the scene establish a corresponding relationship. The parameter setting module 76 is used to set monitoring parameters in the virtual scene and working parameters of each object model, and the monitoring parameters are associated with the working parameters. For example, the working voltage and working time of the production equipment can be set as the working parameters, and the power consumption of the production equipment is the monitoring parameter.

The communication module 26 is used to transmit the working parameters of the electronic object 20 and the corresponding working parameter values to the server 40. If the working voltage of the production equipment is 220V, the working time is 8 hours. The data acquisition module 68 is also used to correspond to the electronic object 20 according to the object model The relationship acquires the working parameter value of the corresponding working parameter of the electronic object 20 from the server 40 as the working parameter value of the working parameter of the corresponding object model.

The analysis module 78 is used to analyze the operating parameters of the object model and the corresponding operating parameters to obtain monitoring parameter values of the monitoring parameters. For example, the monitoring parameter is the daily power consumption on site. There are 5 production equipment on site, and the analysis module 78 calculates the power consumption based on the parameters such as the operating voltage of each production equipment and their parameter values, and then the power consumption of the 5 production equipment is added to obtain the power consumption on site . The display module 70 is also used to display the monitoring parameter and the monitoring parameter value on the virtual scene.

In an embodiment, the monitoring parameter may be one of the operating parameters. If the operating parameter includes the operating voltage, the monitoring parameter is set to the operating voltage. In another embodiment, the monitoring parameter is calculated from a plurality of operating parameters. If the working parameters include working voltage and working time, the monitoring parameter is set to power consumption.

The parameter setting module 76 is also used to set the normal range of the monitoring parameter value. The analysis module 78 is also used to determine whether the monitoring parameter value obtained by analysis is within the normal range. The memory 64 also stores a warning module 80. The warning module 80 is used to issue a warning prompt when the monitored monitoring parameter value is not within the normal range. In one embodiment, the warning is a warning tone, a color warning, an email notification or a short message notification. In another embodiment, the warning is text displayed on the monitoring terminal 60.

The memory 64 also stores a release module 82. The publishing module 82 is used to store the virtual scene graph to the cloud that is in communication with the monitoring terminal 60. The site may also be provided with a camera device for acquiring an image of the electronic object 20. The camera device transmits the image of the electronic object 20 to the server 40 in real time. The data acquisition module 68 is also used to acquire the image of the electronic object 20 from the server 40 in real time. The display module 70 is also used to display the image of the electronic object 20 in real time.

Please refer to FIG. 3, which is a flowchart of a monitoring method provided by the present invention. The method includes the following steps.

Step S302: The data acquisition module 68 acquires the object model and the scene map.

Step S304: The display module 70 displays the object model and the scene map on a preset webpage opened on the monitoring terminal 60.

Step S306: The scene generation module 72 moves the object model to generate a virtual scene map on the scene map according to user operations.

Step S308: The object configuration module 74 establishes a correspondence between the electronic object 20 and the object model in the scene.

Step S310: The parameter setting module 76 sets the monitoring parameters in the virtual scene and the working parameters of each object model, and the working parameters are associated with the monitoring parameters.

Step S312: The data acquisition module 68 acquires the corresponding working parameter value of the working parameter of the electronic object 20 from the server 40 communicating with the electronic object 20 according to the corresponding relationship as the work of the corresponding object model The working parameter value of the parameter.

Step S314: The analysis module 78 analyzes the working parameters of the object model and the corresponding working parameters to derive the monitoring parameter values of the monitoring parameters;

Step S316: The display module 70 displays the monitoring parameter and the monitoring parameter value on the virtual scene graph.

In another embodiment, the method further includes the following steps.

Step S318: The publishing module 82 stores the virtual scene graph to the cloud that is in communication with the monitoring terminal 60.

Step S320: The parameter setting module 76 sets the normal range of the monitoring parameter value.

Step S322: The analysis module 78 judges whether the monitored monitoring parameter value obtained by analysis is within the normal range;

Step S324: The warning module 80 issues a warning prompt when the analyzed monitoring parameter value is not within the normal range.

The monitoring system 100 and the monitoring method correspond to the object configuration map and the object model and the on-site electronic objects 20 and the placement positions of the electronic objects 20, and through the working parameters of the on-site electronic objects 20 The number of working parameter values is analyzed to obtain and display the monitoring parameter values of the monitoring parameters, and the site conditions can be directly known through the monitoring terminal 60.

For those skilled in the art, other corresponding changes or adjustments can be made according to the inventive solutions and inventive concepts of the present invention in combination with the actual needs of production, and these changes and adjustments should fall within the scope of the present invention.

64: memory

66: Communication interface

68: Data acquisition module

70: display module

72: Scene generation module

74: Object configuration module

76: Parameter setting module

78: Analysis module

80: Warning module

Claims (9)

A monitoring terminal includes a processor and a memory. The processor is used to implement various instructions. The memory is used to store multiple instructions. The instructions are suitable for being loaded and executed by the processor. The instructions include : Obtain the object model and the scene map; display the object model and the scene map on a preset webpage opened on the monitoring terminal; move the object model to generate a virtual scene on the scene map according to user operations Figure; establish the correspondence between the electronic objects in the scene and the object model; set the monitoring parameters in the virtual scene and the working parameters of each object model, the working parameters are associated with the monitoring parameters; according to the correspondence Obtain the corresponding working parameter value of the working parameter of the electronic object from the server communicating with the electronic object as the working parameter value of the working parameter of the corresponding object model; analyze the working parameter and correspondence of the object model The working parameters are worth the monitoring parameter values of the monitoring parameters; displaying the monitoring parameters and the monitoring parameter values on the virtual scene graph; real-time acquisition of a live image of the electronic object from the server ; And instantly display the live image of the electronic object. The monitoring terminal according to item 1 of the patent application scope, wherein the monitoring parameter is one of the working parameters. The monitoring terminal according to item 1 of the patent application scope, wherein the monitoring parameters are calculated by a plurality of working parameters together. The monitoring terminal according to item 1 of the patent application scope, wherein the instruction further includes: setting a normal range of the monitoring parameter value; It is determined whether the monitoring parameter value obtained by the analysis is within the normal range. The monitoring terminal according to item 4 of the patent application scope, wherein the instruction further includes: issuing a warning prompt when the value of the monitoring parameter obtained by analysis is not within the normal range. The monitoring terminal according to item 1 of the patent application scope, wherein the instruction further includes: storing the virtual scene graph to a cloud in communication connection with the monitoring terminal. A monitoring method suitable for execution in a monitoring terminal. The method includes: acquiring an object model and a scene map; displaying the object model and the scene map on a preset webpage opened on the monitoring terminal; according to usage The operator moves the object model to generate a virtual scene graph on the scene map; establishes a correspondence between the electronic objects in the scene and the object model; sets the monitoring parameters in the virtual scene and the working parameters of each object model. The working parameter is associated with the monitoring parameter; according to the corresponding relationship, the working parameter value of the working parameter of the electronic object is obtained from the server communicating with the electronic object as the work of the corresponding object model Working parameter values of the parameters; analyzing the working parameters of the object model and the corresponding working parameters are the monitoring parameter values of the monitoring parameters; displaying the monitoring parameters and the monitoring parameter values on the virtual scene graph ; Instantly obtain the live image of the electronic object from the server; and instantaneously display the live image of the electronic object. The monitoring method according to item 7 of the patent application scope, wherein the method further includes: setting a normal range of the monitoring parameter value; determining whether the monitored monitoring parameter value obtained by analysis is within the normal range; A warning prompt is issued when the monitored parameter value obtained by analysis is not within the normal range. The monitoring method as described in item 7 of the patent application scope, wherein the method further includes: Store the virtual scene graph to the cloud that is communicatively connected to the monitoring terminal.

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