CN105681388B - Visualization system and method based on cloud internet of things monitoring - Google Patents

Abstract

The invention provides a visual operation system and a visual operation method based on Internet of things monitoring, wherein the method comprises the following steps: providing an interactive interface at the cloud or at a device end linked to the cloud; providing an event display unit, an action display unit, a condition area and a result area on the interactive interface; responding to the operation of dragging the event display unit to the condition area and dragging the action display unit to the result area, and establishing a trigger relation between the event corresponding to the event display unit in the condition area and the action corresponding to the action display resource in the result area by combining the custom attribute, thereby obtaining a rule based on the trigger relation; according to the rule and real-time data of the Internet of things equipment; and when the trigger condition of the rule is met, controlling the corresponding Internet of things equipment to complete the corresponding action.

Description

Visualization system and method based on cloud internet of things monitoring

Technical Field

The invention relates to a cloud technology, in particular to a cloud-based internet of things monitoring method and system.

Background

In China, digital cities and urban informatization begin to be vigorously developed more than ten years ago, but with the deepening of urban informatization construction, the defects are gradually reflected, particularly in a cloud-based Internet of things monitoring method and system, the method and the system face a data island problem that various application data are stored in a server and cannot be subjected to unified data analysis;

specifically, the resources of the acquired video in a video monitoring system can not be effectively utilized in the server of the video monitoring system, no matter the video is a network virtual server or a local server, for a video monitoring platform, the video monitoring platform only utilizes the network virtual server or the local server as a data transfer station or a storage center, and in some systems, the actions such as opening and closing of a door can be controlled according to the signals acquired by video monitoring, but the rules are single and fixed, so that the possibility of multi-aspect application of the resources is greatly limited, and the innovation idea in the process of creating a lot of innovation is limited.

Disclosure of Invention

The technical problem to be solved by the invention is how to further develop the possibility of multi-azimuth application of resources under the condition of solving the data isolated island.

In order to solve the technical problem, the invention provides a visualized operation method based on internet of things monitoring, which comprises the following steps:

providing an interactive interface at the cloud or at a device end linked to the cloud; providing an event display unit, an action display unit, a condition area and a result area on the interactive interface; each event display unit corresponds to an event determined by an event resource, and each action display unit corresponds to an action determined by an action resource; the event resources and the action resources are obtained based on information of the Internet of things equipment;

responding to the operation of dragging the event display unit to the condition area and dragging the action display unit to the result area, and establishing a trigger relation between the event corresponding to the event display unit in the condition area and the action corresponding to the action display resource in the result area by combining the custom attribute, thereby obtaining a rule based on the trigger relation; according to the rule and real-time data of the Internet of things equipment; and when the trigger condition of the rule is met, controlling the corresponding Internet of things equipment to complete the corresponding action.

Optionally, a link unit is further provided in the condition area, if there is more than one event display unit in the condition area;

responding to the operation of the external to the link unit, and establishing the relationship between the events corresponding to the event display unit in the trigger condition of the rule; the relationship provided by the linking unit includes at least one of a simultaneous satisfaction between corresponding events and a satisfaction between corresponding event resources.

Optionally, the visualization operation method based on internet of things monitoring further includes:

performing logic check on the events of the event display unit in the condition area, and giving feedback when the occurring events comprise opposite events, impossible events and illegal events;

the action of the action display unit in the result area is logically checked, and when the occurred action comprises a contrary event, an impossible event and an illegal event, feedback is given;

and checking the custom attributes, and giving feedback when the custom attributes which cannot be realized or exceed a preset threshold appear.

Optionally, when the event corresponding to the event display unit is satisfied, the event display unit is further marked as an active state.

Optionally, the sizes of the result area and the condition area are changed correspondingly with the change of the number of the event display units and the action display units dragged into.

The invention also provides a visualized operation method based on the Internet of things monitoring, which comprises an Internet of things module and a big data module, wherein:

the Internet of things module is used for:

providing an interactive interface at the cloud or at a device end linked to the cloud; providing an event display unit, an action display unit, a condition area and a result area on the interactive interface; each event display unit corresponds to an event determined by an event resource, and each action display unit corresponds to an action determined by an action resource;

responding to the operation of dragging an event display unit to a condition area, dragging the action display unit to a result area and the operation of customizing the attribute from the outside, and feeding back the operation to the big data module;

the big data module is used for:

according to the feedback of the Internet of things module, establishing a trigger relation between an event corresponding to the event display unit in the condition area and an action corresponding to the action display resource in the result area, so as to obtain a rule based on the trigger relation; according to the rule and real-time data of the Internet of things equipment; and when the trigger condition of the rule is met, controlling the corresponding Internet of things equipment to complete the corresponding action.

Optionally, a link unit is further provided in the condition area, if there is more than one event display unit in the condition area;

the Internet of things module is further used for responding to external operation on the link unit and feeding back the operation to the big data module, so that the relation between events corresponding to the event display unit in the trigger condition of the rule is established; the relationship provided by the linking unit includes at least one of a simultaneous satisfaction between corresponding events and a satisfaction between corresponding event resources.

Optionally, the big data module or the internet of things module is further configured to:

performing logic check on the events of the event display unit in the condition area, and giving feedback when the occurring events comprise opposite events, impossible events and illegal events;

the action of the action display unit in the result area is logically checked, and when the occurred action comprises a contrary event, an impossible event and an illegal event, feedback is given;

and checking the custom attributes, and giving feedback when the custom attributes which cannot be realized or exceed a preset threshold appear.

Optionally, when an event corresponding to the event display unit is satisfied, the internet of things module is further configured to mark the event display unit as an active state.

Optionally, the sizes of the result area and the condition area are changed correspondingly with the change of the number of the event display units and the action display units dragged into.

According to the invention, different event resources and action resources are integrated at the cloud, and a visual interface for calling the event resources and the action resources is provided, so that people can realize the establishment of rules, and the possibility of multi-directional application of the resources is further developed under the condition of solving a data island. Meanwhile, the visualization system and the visualization method also provide another simple and direct operation medium for an operator besides programming.

Drawings

Fig. 1 is a logic diagram of a cloud-based internet of things-based visual monitoring system and method according to an embodiment of the invention;

fig. 2 is an operation diagram of a cloud-based internet of things-based visual monitoring system according to an embodiment of the present invention;

fig. 3 is a schematic flowchart of a visual monitoring method based on cloud internet of things according to an embodiment of the present invention;

fig. 4 and 5 are schematic operation interfaces of the cloud-based internet of things monitoring method and system in an embodiment of the invention.

Detailed Description

The cloud-based internet of things visualization monitoring method and system provided by the present invention will be described in detail with reference to fig. 1 to 5, which are alternative embodiments of the present invention, and it is considered that those skilled in the art can modify and decorate the method and system without changing the spirit and content of the present invention.

The visual monitoring method for the cloud internet of things provided by combining the specific embodiment of the invention can be specifically developed as follows:

generating and storing event resources and action resources corresponding to the internet-of-things equipment according to information directly or indirectly fed back by the internet-of-things equipment at the cloud end; the Internet of things equipment comprises first equipment capable of being controlled to act and second equipment capable of acquiring external information and feeding back the external information; the Internet of things equipment is directly or indirectly connected with the cloud;

providing an interactive interface at the cloud or at a device end linked to the cloud;

responding to external operation on an event display unit on the interactive interface and an action display unit on the interactive interface, calling and processing the event resource and the action resource, forming a rule by combining a custom attribute, wherein each event display unit corresponds to an event determined by the event resource, and each action display unit corresponds to an action determined by the action resource;

according to the rule and real-time data of the Internet of things equipment; and when the trigger condition of the rule is met, controlling the corresponding first-class equipment to complete the corresponding action.

When the protection is requested, the invention specifically picks up part of the characteristics and explains the characteristics by combining a condition area and a result area, and specifically, the scheme requested by the invention is as follows:

a visualized operation method based on Internet of things monitoring is characterized in that: the method comprises the following steps:

providing an interactive interface at the cloud or at a device end linked to the cloud; providing an event display unit, an action display unit, a condition area and a result area on the interactive interface; each event display unit corresponds to an event determined by an event resource, and each action display unit corresponds to an action determined by an action resource;

responding to the operation of dragging the event display unit to the condition area and dragging the action display unit to the result area, and establishing a trigger relation between the event corresponding to the event display unit in the condition area and the action corresponding to the action display resource in the result area by combining the custom attribute, thereby obtaining a rule based on the trigger relation; according to the rule and real-time data of the Internet of things equipment; and when the trigger condition of the rule is met, controlling the corresponding Internet of things equipment to complete the corresponding action.

The event resource at least corresponds to at least one of the state fed back by the first type of equipment and the information acquired by the second type of equipment; the action resource at least corresponds to an action instruction of the first type equipment.

In other words, the present invention divides the internet of things devices into information sensing devices (second type devices) and action execution devices (first type devices) according to their functions. A specific device may have functions of sensing information and performing an operation at the same time, or may have functions of sensing information of a plurality of types or performing a plurality of types of operations at the same time. The information sensing equipment can collect, capture and analyze the information of the self or the surrounding detection environment and obtain the corresponding result. The equipment for executing the action can execute and output according to the requirement, and change the equipment and the environment of the equipment or the periphery.

Each piece of internet-of-things equipment needs to have a direct or indirect networking function (for example, first connect to a server, etc.), and can report information obtained by itself to the cloud server, or can receive a control instruction from the cloud server.

No matter what type of internet of things equipment, a certain standard Restful method needs to be adopted to realize the interaction of information and commands. For the information sensing type device (i.e. the second type device), the state information obtained by the server can be updated by using a method such as PUT, etc., and for the execution control type device (i.e. the first type device), a method such as GET/POST, etc., can be monitored to complete a certain operation.

When the device meets the set condition or the device itself or the obtained state type changes, the updated device information state needs to be sent to the cloud server through the unified Restful interface. And after the data are acquired, the cloud server sends the data to an object for storage through methods such as message routing and the like, and performs secondary processing and persistence on the data. And meanwhile, the newly-entered equipment state information is delivered to the big data module for processing.

For example, the event that the red light is on can be obtained based on the event resource of the traffic light, and the action of opening or closing the door, even half-opening or half-closing the door, can be obtained based on the action resource of the automatic door. For another example, for a video monitoring system, a video acquisition and recognition device and a lamp may be configured, based on event resources of the video acquisition and recognition device, as shown in fig. 3, an event that mr. S is detected to occur may be obtained, and based on action resources of the lamp, an action that the color of the lamp light is changed into purple may be obtained, thereby forming rules of the event and the action.

It can also be seen from the above examples that, in the conventional internet of things system, even if the cloud platform is accessed, the linkage reaction is internal, limited, and even single and fixed, but in the present invention, these resources are all integrated, rather than a single individual data island, but an integrated platform that can realize the connection of these islands together is provided, which not only realizes the linkage of cross-system and cross-platform, but also provides an operable method and platform for the linkage, which is not thought in the art.

In addition, the rule includes an internet of things device monitoring event (i.e., a certain event obtained by the information sensing device) composing the rule, an execution event controlling the internet of things device to execute a certain action, and a description of a custom attribute of the rule.

When the device meets the set condition or the device itself or the obtained state type changes, the updated device information state needs to be sent to the cloud server through the unified Restful interface. And after the data are acquired, the cloud server sends the data to an object for storage through methods such as message routing and the like, and performs secondary processing and persistence on the data. And meanwhile, the newly-entered equipment state information is delivered to the big data module for processing.

When the reported state of a device meets a certain user-defined event condition, the event is marked as "Active" and put into the Active event pool. Similarly, once the reporting status of the device is no longer satisfied by the event condition, the device may need to be removed from the active pool.

The big data platform analyzes the existing activity event pool, calculates all the rules meeting the conditions according to the information of the activity event pool in real time, and judges whether to execute the rules according to the relevant attributes of the rules. If the execution condition is met, one or more pieces of execution action information contained in the rule are read, and control instructions are sent to the specific Internet of things equipment through the Restful API one by one.

And after the Internet of things equipment receives the corresponding Restful request, verifying the identity of the sender, and after the authentication is passed, executing corresponding operation according to the specific request content of the Restful, thereby finally completing the predefined multi-application linkage rule.

In order to implement such visualization operation, referring to fig. 4 and 5, the interactive interface is further provided with a condition area and a result area, and further includes, in response to an external operation on the event display unit and the action display unit:

in response to the external operation of dragging the event display unit (i.e., the event frame in the drawing) to the condition area and dragging the action display unit (i.e., the action frame in the drawing) to the result area, a trigger relationship between the event corresponding to the event display unit in the condition area and the action corresponding to the action display resource in the result area is established, so as to obtain a rule based on the trigger relationship. Of course, this operation is not limited to dragging, and may be implemented with further invocation of the window and importing export.

In conjunction with fig. 4 and 5, the logic of the linkage between multiple applications is indicated by the fact that the blocks can adapt to containers of varying sizes. Where "IF" indicates the condition (event) that the application linkage rule is triggered, and "THEN" indicates some action that is performed when the rule is triggered.

According to the requirements of the user, the user can select one or more event display units from the event pool (namely, the left side frame) to drag into the condition area of the 'IF', and select one or more action display units required to be executed by the rule from the action pool (namely, the right side frame) to drag into the result area of the 'THEN'. Thus, the underlying rules inherent logic is established.

Still further, a link unit is further provided in the condition area, if there is more than one event display unit in the condition area;

and in response to the operation of the link unit from the outside, establishing the relationship among the events corresponding to the event display unit in the trigger condition of the rule. Further, the relationship provided by the linking unit includes a simultaneous satisfaction between the corresponding events and at least one satisfaction of the corresponding events. Further, the link structure of each event in the condition area is divided into two types, namely "and" or ", and for a plurality of events in the" and "connection range, the events must be satisfied at the same time, and for a plurality of events in the" or "connection range, only the trigger condition of one event needs to be satisfied.

In an optional embodiment of the present invention, the cloud-based internet of things monitoring method further includes:

performing logic check on the events of the event display unit in the condition area, and giving feedback when the occurring events comprise opposite events, impossible events and illegal events;

the action of the action display unit in the result area is logically checked, and when the occurred action comprises a contrary event, an impossible event and an illegal event, feedback is given;

and checking the custom attribute, and giving feedback when the custom attribute which cannot be realized or exceeds a preset threshold appears.

Further, the design function of the condition area needs to check the logic of events in the area, and the system needs to provide a warning and confirm the event to the user when there are adverse events (some state values of different devices exist simultaneously), impossible events (different state values of the same device exist simultaneously), and illegal events (an event with insufficient authority or incorrect authority).

Similarly, the design function of the result area also needs to check the logic of the action in the area, and when there are contradictory actions (for different executing action parties), impossible actions (two different executing results are initiated simultaneously for the same executing action party), and illegal actions (with insufficient authority or incorrect action), the system needs to give a warning and confirm to the user.

Similarly, custom attributes of a rule need to be checked, such as uniqueness of the same rule name (not repeatable with other rules) for the same user, timing triggers that cannot exceed a set threshold for time constraints, multiple triggers that cannot exceed a certain frequency, set time that cannot be in the past or in the infinite future, etc.

As can be seen in fig. 1, rules can be checked using a rule checking engine to exclude corresponding actions from implementation.

In an alternative embodiment of the present invention, when the event corresponding to the event display unit is satisfied, the event display unit is further marked as an active state.

In an optional embodiment of the present invention, before or after providing the interactive interface, a process of external operation authority is further included, and then event resources and action resources which can be used for operation to form rules are determined according to different operation authorities. Specifically, the system acquires the identity of the user in the background, inquires the event resources and action resources which can be acquired by the user in the object storage of the cloud platform, and lists the event resources and action resources on two sides of the page in sequence, namely, only the event display units and action display units with corresponding rights are displayed in the corresponding condition area and result area.

With reference to fig. 1, on a cloud computing platform, after the identity authority of a user is authenticated through analysis of a cloud server, an authorized user can sequentially add a trigger event (an event generated when an information sensing device detects a certain special state value) of an internet of things device and a control action (a control action execution device performs a certain specific operation) of the internet of things device in a mass storage under a safe environment, and can formulate a many-to-many binding linkage rule based on the trigger event and the control operation under a UI interface.

In most embodiments of the present invention, after the basic logic of the rule is determined, the user may complete configuration of the related attributes of the rule in the corresponding option box, such as rule naming, time constraint of action execution (one-time trigger, multiple triggers, timing trigger), and the like, which is not the aforementioned custom attribute.

Correspondingly, the invention provides a visual monitoring system based on cloud internet of things, which comprises all the options and effects mentioned above, including an internet of things module and a big data module, wherein:

the Internet of things module is used for:

providing an interactive interface at the cloud or at a device end linked to the cloud; providing an event display unit, an action display unit, a condition area and a result area on the interactive interface; each event display unit corresponds to an event determined by an event resource, and each action display unit corresponds to an action determined by an action resource;

responding to the operation of dragging an event display unit to a condition area, dragging the action display unit to a result area and the operation of customizing the attribute from the outside, and feeding back the operation to the big data module;

the big data module is used for:

according to the feedback of the Internet of things module, establishing a trigger relation between an event corresponding to the event display unit in the condition area and an action corresponding to the action display resource in the result area, so as to obtain a rule based on the trigger relation; according to the rule and real-time data of the Internet of things equipment; and when the trigger condition of the rule is met, controlling the corresponding Internet of things equipment to complete the corresponding action.

Optionally, a link unit is further provided in the condition area, if there is more than one event display unit in the condition area;

the Internet of things module is further used for responding to external operation on the link unit and feeding back the operation to the big data module, so that the relation between events corresponding to the event display unit in the trigger condition of the rule is established; the relationship provided by the linking unit includes at least one of a simultaneous satisfaction between corresponding events and a satisfaction between corresponding event resources.

Optionally, the big data module or the internet of things module is further configured to:

performing logic check on the events of the event display unit in the condition area, and giving feedback when the occurring events comprise opposite events, impossible events and illegal events;

the action of the action display unit in the result area is logically checked, and when the occurred action comprises a contrary event, an impossible event and an illegal event, feedback is given;

and checking the custom attributes, and giving feedback when the custom attributes which cannot be realized or exceed a preset threshold appear.

Optionally, when an event corresponding to the event display unit is satisfied, the internet of things module is further configured to mark the event display unit as an active state.

Optionally, the sizes of the result area and the condition area are changed correspondingly with the change of the number of the event display units and the action display units dragged into.

According to the invention, different event resources and action resources are integrated at the cloud, and a visual interface for calling the event resources and the action resources is provided, so that people can realize the establishment of rules, and the possibility of multi-directional application of the resources is further developed under the condition of solving a data island. Meanwhile, the visualization system and the visualization method also provide another simple and direct operation medium for an operator besides programming.

Claims (6)

1. A visualized operation method based on Internet of things monitoring is characterized in that: the method comprises the following steps:

integrating different event resources and action resources at a cloud end; providing an interactive interface at the cloud or at a device end linked to the cloud; providing an event display unit, an action display unit, a condition area and a result area on the interactive interface; each event display unit corresponds to an event determined by an event resource, each action display unit corresponds to an action determined by an action resource, the event resource at least corresponds to at least one of a state fed back by an action execution device and information collected by an information sensing device, and the action resource at least corresponds to an action instruction of the action execution device;

before or after the interactive interface is provided, the process of external operation authority is further included, and then event resources and action resources which can be used for operation to form rules are determined according to different operation authorities;

responding to the operation of dragging the event display unit to the condition area and dragging the action display unit to the result area, and establishing a triggering relation between the event corresponding to the event display unit in the condition area and the action corresponding to the action display resource in the result area by combining the self-defined attribute, thereby obtaining a rule based on the triggering relation, and marking the logic of linkage among multiple applications by using a container with a block capable of adapting to size change in the middle; according to the rule and real-time data of the information sensing equipment; when the trigger condition of the rule is met, controlling the corresponding action executing equipment to complete the corresponding action;

when the equipment meets the set conditions or the self or the obtained state type of the equipment changes, the updated equipment information state needs to be sent to a cloud end through a unified Restful interface, after the cloud end obtains data, the cloud end sends the data to an object for storage and secondary processing and persistence of the data, and meanwhile, big data processing is carried out on the newly-entered equipment state information; analyzing the existing activity event pool, calculating to obtain all rules meeting the conditions according to the information of the activity event pool in real time, and judging whether to execute the rules according to the relevant attributes of the rules; if the execution conditions are met, reading one or more pieces of execution action information contained in the rule, and sending control instructions to specific Internet of things equipment one by one through a Restful API; after the Internet of things equipment receives the corresponding Restful request, the identity of a sender is verified, after the authentication is passed, corresponding operation is executed according to the specific request content of the Restful, and finally the predefined multi-application linkage rule is completed;

the rule comprises an information sensing device monitoring event and an execution event of an action execution device which form the rule, and a custom attribute description of the rule;

further comprising:

performing logic check on the events of the event display unit in the condition area, and giving feedback when the occurring events comprise opposite events, impossible events and illegal events;

the action of the action display unit in the result area is logically checked, and when the occurred action comprises a contrary event, an impossible event and an illegal event, feedback is given;

the custom attributes are checked, and when the custom attributes which cannot be realized or exceed a preset threshold appear, feedback is given;

the checking of the custom attribute comprises: whether the same rule name of the same user has uniqueness; for time constraint, whether the timing trigger exceeds a set threshold, whether the multiple triggers exceed a certain frequency, and whether the set time is the past or infinite future;

the condition area is further provided with a link unit, if the number of the event display units in the condition area is more than one;

responding to the operation of the external to the link unit, and establishing the relationship between the events corresponding to the event display unit in the trigger condition of the rule; the relationship provided by the linking unit includes at least one of a simultaneous satisfaction between corresponding events and a satisfaction between corresponding event resources.

2. A visual operation method based on internet of things monitoring as claimed in claim 1, wherein: when the event corresponding to the event display unit is satisfied, the event display unit is further marked as an active state.

3. A visual operation method based on internet of things monitoring as claimed in claim 1, wherein: the sizes of the result area and the condition area are changed correspondingly with the change of the number of the event display units and the action display units dragged into.

4. A visual operation system based on thing allies oneself with control, its characterized in that: including thing networking module and big data module, wherein:

the Internet of things module is used for:

integrating different event resources and action resources at a cloud end; providing an interactive interface at the cloud or at a device end linked to the cloud; providing an event display unit, an action display unit, a condition area and a result area on the interactive interface; each event display unit corresponds to an event determined by an event resource, each action display unit corresponds to an action determined by an action resource, the event resource at least corresponds to at least one of a state fed back by an action execution device and information collected by an information sensing device, and the action resource at least corresponds to an action instruction of the action execution device;

before or after the interactive interface is provided, the process of external operation authority is further included, and then event resources and action resources which can be used for operation to form rules are determined according to different operation authorities;

responding to the operation of dragging an event display unit to a condition area, dragging the action display unit to a result area and the operation of customizing the attribute from the outside, and feeding back the operation to the big data module;

the big data module is used for:

according to the feedback of the Internet of things module, establishing a trigger relation between an event corresponding to the event display unit in the condition area and an action corresponding to the action display resource in the result area, so as to obtain a rule based on the trigger relation; according to the rule and real-time data of the information sensing equipment; when the trigger condition of the rule is met, controlling the corresponding action executing equipment to complete the corresponding action;

when the equipment meets the set conditions or the self or the obtained state type of the equipment changes, the updated equipment information state needs to be sent to a cloud end through a unified Restful interface, after the cloud end obtains data, the data are sent to an object to be stored and subjected to secondary processing and persistence, and meanwhile, the newly-entered equipment state information is sent to a big data module to be subjected to big data processing; the big data module analyzes the existing activity event pool, calculates all the rules meeting the conditions according to the information of the activity event pool in real time, and judges whether to execute the rules according to the relevant attributes of the rules; if the execution conditions are met, reading one or more pieces of execution action information contained in the rule, and sending control instructions to specific Internet of things equipment one by one through a Restful API; after the Internet of things equipment receives the corresponding Restful request, the identity of a sender is verified, after the authentication is passed, corresponding operation is executed according to the specific request content of the Restful, and finally the predefined multi-application linkage rule is completed;

the rule comprises an information sensing device monitoring event and an execution event of an action execution device which form the rule, and a custom attribute description of the rule;

the big data module or the internet of things module is further used for:

performing logic check on the events of the event display unit in the condition area, and giving feedback when the occurring events comprise opposite events, impossible events and illegal events;

the action of the action display unit in the result area is logically checked, and when the occurred action comprises a contrary event, an impossible event and an illegal event, feedback is given;

the custom attributes are checked, and when the custom attributes which cannot be realized or exceed a preset threshold appear, feedback is given;

the checking of the custom attribute comprises: whether the same rule name of the same user has uniqueness; for time constraint, whether the timing trigger exceeds a set threshold, whether the multiple triggers exceed a certain frequency, and whether the set time is the past or infinite future;

the condition area is further provided with a link unit, if the number of the event display units in the condition area is more than one;

the Internet of things module is further used for responding to external operation on the link unit and feeding back the operation to the big data module, so that the relation between events corresponding to the event display unit in the trigger condition of the rule is established; the relationship provided by the linking unit includes at least one of a simultaneous satisfaction between corresponding events and a satisfaction between corresponding event resources.

5. The visual operation system based on the internet of things monitoring as claimed in claim 4, wherein: and when the event corresponding to the event display unit is met, the Internet of things module is further used for marking the event display unit in an active state.

6. The visual operation system based on the internet of things monitoring as claimed in claim 4, wherein: the sizes of the result area and the condition area are changed correspondingly with the change of the number of the event display units and the action display units dragged into.

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