CN115440341B - Radiotherapy business process automation method and system based on BPMN standard - Google Patents

Abstract

The invention provides a BPMN standard-based radiotherapy business process automation method and a BPMN standard-based radiotherapy business process automation system, wherein the method comprises the following steps of: s1: configuring a business process node according to the radiotherapy business, and customizing the attribute of the business process node; s2: according to the configured service process nodes, creating a service process in a visual process configuration user interface of BPMN standard and deploying the service process in a service system; s3: grouping configuration is carried out on the service process nodes, and a starting node and an ending node of each group are set; s4: the selected start node is executed according to the actual condition of the patient. The radiotherapy business process automation method and system based on the BPMN standard have the advantages of compatibility, strong adaptability and easiness in maintenance, are easy to operate and low in training cost, and accordingly can liberate department business personnel from complicated form state modification.

Description

Radiotherapy business process automation method and system based on BPMN standard

Technical Field

The invention relates to the technical field of business processes of radiotherapy departments, in particular to a radiotherapy business process automation method and system based on BPMN standard.

Background

Radiotherapy needs to be through an accurate and loaded down with trivial details flow, and many radiotherapy business process management systems can carry out overall management to whole radiotherapy process at present to the management that the medical staff of being convenient for carried out radiotherapy work. For the process change in the radiotherapy process, the current radiotherapy business process is represented by form state change driven by an electronic form, or a workflow engine is simply used to drive part of business process consistency.

However, the above-described scheme also has the following problems: 1. the state conversion of the radiotherapy process is complex, the use is inconvenient, extra study burden of non-essential work exists, errors are easy to occur, and the like; 2. the training cost of new personnel is high, business personnel frequently flow, the training cost of the new personnel is high, and the predecessor state, the successor state and the like of the form need to be known besides the form which needs to be trained; 3. the management and maintenance cost is high, different process flow circulation configurations of different mechanisms and different periods and different technologies of the same mechanism cannot be realized, hard coding in the process can be only carried out aiming at each specific problem, codes need to be modified once the service or the technology is changed, and automatic circulation of the service process cannot be realized; 4. the flexibility is poor, partial processes such as positioning, target area sketching, planning, treatment and the like cannot be flexibly realized, and particularly, the field-changing and two-stroke treatment business processes need complex treatment and have no good consistency.

Disclosure of Invention

The radiotherapy business process automation method and system based on the BPMN standard can solve the technical problems in the process.

The technical scheme for solving the technical problems is as follows:

in a first aspect, the present invention provides a radiation therapy business process automation method based on BPMN standard, comprising the following steps:

s1: configuring a service process node according to the radiotherapy service, and customizing the attribute of the service process node;

s2: according to the configured service process nodes, creating a service process in a visual process configuration user interface of BPMN standard and deploying the service process in a service system;

s3: grouping configuration is carried out on the service process nodes, and a starting node and an ending node of each group are set;

s4: the selected start node is executed according to the actual condition of the patient.

In some embodiments, before S1, it is further required to start the service system, load the process engine, configure the service system to monitor a task creation instance of the process engine, and set a corresponding processing routine.

In some embodiments, the S2 comprises:

s21: a user issues a service flow;

s22: the service system calls a process engine interface and deploys a service process;

s23: the business system stores the business process deployment ID successfully deployed in the process engine.

In some embodiments, said S3 comprises:

s31: dividing continuous process nodes existing in a plurality of service processes into a group to complete process node grouping;

s32: taking a service process node for starting in a service process as a starting node; taking a service flow node for stopping in the service flow as an end node;

s33: and setting the applicable process of each process node group.

In some embodiments, the S4 comprises:

s41: selecting a specific starting node according to the actual condition of a patient;

s42: the business system calls a process engine service interface according to the business process deployment ID and starts a specific starting node;

s43: judging whether the next process node of the specific starting node belongs to an ending node, if so, ending the service process flow; if not, entering S44;

s44: the business system responds to the task creating event and executes a corresponding processing routine to generate a business task and display the business task to a user;

s45: the business system calls a flow engine service interface to execute the business task, judges whether the next flow node of the business task belongs to an end node or not, and if so, ends the flow of the business flow; if not, the process proceeds to S44.

In a second aspect, the present invention provides a radiation therapy business process automation system based on BPMN standard, comprising:

the business process node configuration module is used for configuring the business process nodes according to the radiotherapy business and customizing the attributes of the business process nodes;

the business process creating and deploying module is used for creating a business process in a visual process configuration user interface of BPMN standard according to the configured business process node and deploying the business process in a business system;

the flow node grouping configuration module is used for grouping configuration on the service flow nodes and setting a starting node and an ending node of each group;

and the flow executing module is used for executing the selected starting node according to the actual condition of the patient.

In some embodiments, further comprising: and the instance creating module is used for starting the business system, loading the process engine, configuring a task creating instance of the business system monitoring the process engine and setting a corresponding processing routine.

In some embodiments, the business process creation deployment module comprises:

the business process issuing submodule is used for enabling a user to issue the business process;

the business process deployment submodule is used for enabling the business system to call the process engine interface and deploy the business process;

and the business process deployment ID storage submodule is used for enabling the business system to store the business process deployment ID which is successfully deployed in the process engine.

In some embodiments, the flow node grouping configuration module further comprises:

the flow node dividing submodule is used for dividing continuous flow nodes existing in a plurality of business flows into a group to complete flow node grouping;

a start stop node setting submodule for taking a service flow node for starting in a service flow as a start node; taking a service flow node for stopping in the service flow as an end node;

and the grouping applicability setting submodule is used for setting the applicability process of each process node grouping.

In some embodiments, the flow execution module comprises:

the starting node selection submodule is used for selecting a specific starting node according to the actual condition of a patient;

the starting node execution submodule is used for enabling the business system to call a process engine service interface according to the business process deployment ID and starting a specific starting node;

a process node judgment sub-module, configured to judge whether a next process node of the specific start node belongs to an end node, and if yes, end the service process flow; if not, entering a business task generation submodule;

the business task generation submodule is used for enabling the business system to respond to the task creation event and execute a corresponding processing routine, generating a business task and displaying the business task to a user;

the business task execution submodule is used for enabling a business system to call a process engine service interface to execute the business task and judging whether the next process node of the business task belongs to an end node or not, and if so, ending the business process flow; if not, entering a business task generation submodule.

In a third aspect, the invention provides a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method of any one of the above when executing the computer program.

In a fourth aspect, the invention provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the method of any one of the above.

The beneficial effect of this application is:

the radiation treatment business process automation method and system based on the BPMN standard provide self-defined business process nodes and node groups based on the international standard of the BPMN, help users to freely define department task processes, and have the advantages of compatibility and strong adaptability. Meanwhile, a visual flow configuration tool is provided, and code modification is avoided; the automatic flow function of the process nodes provided by the workflow engine can be effectively utilized, so that the automatic flow of different task nodes in service is achieved, and the automatic flow function of the workflow engine has the advantages of easiness in maintenance and high automation capability. In addition, the method and the system are easy to operate and low in training cost, so that the department service personnel can be liberated from the complicated form state modification, and only the current task needs to be done and how to do the current task needs to be known.

Drawings

Fig. 1 is a flow chart of a radiotherapy business process automation method based on BPMN standard according to the present application;

FIG. 2 is a sub-flowchart of step S2 of the present application;

FIG. 3 is a sub-flowchart of step S3 of the present application;

FIG. 4 is a sub-flowchart of step S4 of the present application;

fig. 5 is a schematic diagram illustrating the start, deployment and use of the business process of the present application.

Detailed Description

The principles and features of this invention are described below in conjunction with the following drawings, which are set forth by way of illustration only and are not intended to limit the scope of the invention.

In order that the above objects, features and advantages of the present application can be more clearly understood, the present disclosure will be further described in detail with reference to the accompanying drawings and examples. It is to be understood that the embodiments described are only a few embodiments of the present disclosure, and not all embodiments. The specific embodiments described herein are merely illustrative of the disclosure and are not intended to limit the scope of the disclosure. All other embodiments that can be derived by one of ordinary skill in the art from the description of the embodiments are intended to be within the scope of the present disclosure.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions.

Fig. 1 is a flowchart of an automated radiotherapy business process based on BPMN standard, and fig. 5 is a schematic diagram of the start, deployment and use of the business process.

The radiotherapy business process automation method based on the BPMN standard, combined with the figure 1 and the figure 5, comprises the following steps:

s1: configuring a business process node according to the radiotherapy business, and customizing the attribute of the business process node;

in some embodiments, before S1, it is further required to start the service system, load the process engine, configure the service system to monitor a task creation instance of the process engine, and set a corresponding processing routine.

Specifically, according to the scheme, firstly, a service system needs to be started, a process engine is loaded, a task creating instance of the process engine is configured and monitored by the service system, and a corresponding processing routine is set, so that the service system can monitor task creation and execute the task according to the processing routine corresponding to the task creating instance. Before a radiotherapy business process is created, a process node of the business process needs to be defined, and the configuration and definition of the process node in the radiotherapy business process need to be performed according to the actual situation of the radiotherapy business, wherein the business process node comprises a plurality of node attributes, for example, each business process node comprises a node code, and the node code is used for identifying the business process node; a button name corresponding to the names of the interface button and the display button; and the node icon expresses a display icon of the business process node in the operation routine. In addition, each business process node also contains other node attributes as follows:

s2: according to the configured service process nodes, creating a service process in a visual process configuration user interface of BPMN standard and deploying the service process in a service system;

in some embodiments, with reference to fig. 2, which is a sub-flowchart of step S2 of the present application, said S2 includes:

s21: a user issues a service flow;

s22: the business system calls a process engine interface and deploys a business process;

s23: the business system stores the business process deployment ID successfully deployed in the process engine.

Specifically, the scheme integrates a visual process configuration user interface based on the BPMN standard, selects from the service process nodes configured by the service process nodes when creating the flow chart, achieves the purpose of configuring the service process, and can be directly deployed into a service system once the configuration is completed, so that the service can be used.

S3: grouping configuration is carried out on the service process nodes, and a starting node and an ending node of each group are set;

in some embodiments, with reference to fig. 3, which is a sub-flowchart of step S3 of the present application, said S3 includes:

s31: dividing continuous process nodes existing in a plurality of service processes into a group to complete process node grouping;

s32: taking a service process node for starting in a service process as a starting node; taking a service flow node for stopping in the service flow as an end node;

s33: and setting the applicable process of each process node group.

Specifically, after the configuration of the service flow nodes and the service flow is completed, some service flow nodes can be selected in a designated flow and put into one group, and as long as two types of nodes are defined to start and stop, so that the service does not need to configure the sub-flows any more, the system can start the service flow nodes for starting in the flow groups as required, and automatically stop the flow of the flow according to the configuration of the node groups in the flow flowing process, so as to restart the segmented flow at any time. Meanwhile, when services such as field change, two-course treatment and the like are changed/differentiated, the started process nodes can be flexibly determined according to the configuration of node grouping, and the process can be triggered to be started only according to the starting nodes of the flow chart. In addition, the applicable flow of each flow node group needs to be set, and specifically, it needs to determine which service flows the flow node groups are applicable to according to the actual service flows.

S4: the selected starting node is executed according to the actual condition of the patient.

In some embodiments, according to fig. 4, which is a sub-flowchart of step S4 of the present application, said S4 includes:

s41: selecting a specific starting node according to the actual condition of a patient;

s42: the business system calls a process engine service interface according to the business process deployment ID and starts a specific starting node;

s43: judging whether the next process node of the specific starting node belongs to an ending node, if so, ending the service process flow; if not, entering S44;

s44: the business system responds to the task creating event and executes a corresponding processing routine to generate a business task and display the business task to a user;

s45: the business system calls a flow engine service interface to execute the business task, judges whether the next flow node of the business task belongs to an end node or not, and if so, ends the flow of the business flow; if not, the process proceeds to S44.

Specifically, after the business system calls a flow engine interface to complete a task in a specific flow engine corresponding to the business task, the flow engine can realize internal task circulation according to a flow diagram and generate a new task in the engine, the flow engine can inform the business system of the behavior in an event mode, when capturing the task creation event, the business system can start a corresponding processing routine in real time, determine whether and how to generate the corresponding business task according to business logic and rules, and endow the business task with different characteristics according to the configuration of the corresponding node. During execution, a specific starting node is selected according to the actual condition of a patient, and if the patient needs to carry out field change or two-course treatment, the field change or the two-course treatment can be selected as the specific starting node when the starting node is selected; then the business system calls a process engine service interface according to the business process deployment ID, and starts a business process node corresponding to the field-changing or two-process treatment; after the field-changing or two-course treatment process is completed, the business system can judge whether a node behind the specific starting node belongs to an ending node or not, if so, the business process can be stopped, if not, the business system can respond to a processing routine of a task creation event, generate a business task and display the business task to a user (namely medical staff), after the user confirms, the business system calls a process engine service interface to execute the business task and judges whether the next process node of the business task belongs to the ending node or not, and if so, the business process flow circulation is ended; if not, the business system continues to respond to the processing routine of the task creating event, generates the business task and displays the business task to the user, thereby achieving the purpose of automatically stopping or creating the task according to whether the business task belongs to the end node.

The second aspect of the present invention also provides a radiation therapy business process automation system based on BPMN standard, comprising:

the business process node configuration module is used for configuring the business process nodes according to the radiotherapy business and customizing the attributes of the business process nodes;

the business process creating and deploying module is used for creating a business process in a visual process configuration user interface of BPMN standard according to the configured business process node and deploying the business process in a business system;

the flow node grouping configuration module is used for carrying out grouping configuration on the service flow nodes and setting a starting node and an ending node of each group;

and the flow executing module is used for executing the selected starting node according to the actual condition of the patient.

In some embodiments, further comprising: and the instance creating module is used for starting the business system, loading the process engine, configuring the task creating instance of the business system monitoring the process engine and setting a corresponding processing routine.

In some embodiments, the business process creation deployment module comprises:

the business process issuing submodule is used for enabling a user to issue the business process;

the business process deployment submodule is used for enabling the business system to call the process engine interface and deploy the business process;

and the business process deployment ID storage submodule is used for enabling the business system to store the business process deployment ID which is successfully deployed in the process engine.

In some embodiments, the flow node grouping configuration module further comprises:

the flow node dividing submodule is used for dividing continuous flow nodes existing in a plurality of service flows into a group to complete the grouping of the flow nodes;

a start stop node setting submodule for taking a service flow node for starting in a service flow as a start node; taking a service flow node for stopping in the service flow as an end node;

and the grouping applicability setting submodule is used for setting the applicable flow of each flow node grouping.

In some embodiments, the flow execution module comprises:

the starting node selection submodule is used for selecting a specific starting node according to the actual condition of a patient;

the starting node execution submodule is used for enabling the business system to call a process engine service interface according to the business process deployment ID and starting a specific starting node;

a flow node judgment submodule for judging whether a next flow node of the specific start node belongs to an end node, if so, ending the service flow circulation; if not, entering a business task generation submodule;

the business task generation submodule is used for enabling the business system to respond to the task creation event and execute a corresponding processing routine, generating a business task and displaying the business task to a user;

the business task execution submodule is used for enabling a business system to call a process engine service interface to execute the business task and judging whether the next process node of the business task belongs to an end node or not, and if so, ending the business process flow; if not, entering a business task generation sub-module.

The third aspect of the invention also provides a computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, the processor implementing the method as claimed in any one of the above when executing the computer program.

The fourth aspect of the invention also provides a computer readable storage medium having stored thereon a computer program which, when executed by a processor, performs the method of any one of the above.

Those skilled in the art will appreciate that although some embodiments described herein include some features included in other embodiments instead of others, combinations of features of different embodiments are meant to be within the scope of the application and form different embodiments.

Those skilled in the art will appreciate that the description of each embodiment has a respective emphasis, and reference may be made to the related description of other embodiments for those parts of an embodiment that are not described in detail.

Although the embodiments of the present application have been described in conjunction with the accompanying drawings, those skilled in the art will be able to make various modifications and variations without departing from the spirit and scope of the present application, and such modifications and variations are included in the scope of the appended claims, which are intended to be only specific embodiments of the present invention, and the scope of the present invention is not limited thereto, and any equivalent modifications or substitutions may be easily made by those skilled in the art within the technical scope of the present disclosure, and these modifications or substitutions should be included in the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

While the invention has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (8)

1. A radiotherapy business process automation method based on BPMN standard is characterized by comprising the following steps:

s1: configuring a service process node according to the radiotherapy service, and customizing the attribute of the service process node;

s2: according to the configured service process nodes, creating a service process in a visual process configuration user interface of BPMN standard and deploying the service process in a service system;

s3: grouping configuration is carried out on the service process nodes, and a starting node and an ending node of each group are set;

s4: executing the selected starting node according to the actual condition of the patient;

the S3 comprises the following steps:

s31: dividing continuous process nodes existing in a plurality of service processes into a group to complete process node grouping;

s32: taking a service process node for starting in a service process as a starting node; taking a service flow node for stopping in the service flow as an end node;

s33: setting an applicable process of each process node group;

s34: determining a starting node according to the configuration of node grouping when changing the flow of field change and second-course treatment;

the S4 comprises the following steps:

s41: selecting a specific starting node according to the actual condition of a patient;

s42: the business system calls a process engine service interface according to the business process deployment ID and starts a specific starting node;

s43: judging whether the next process node of the specific starting node belongs to an ending node, if so, ending the service process flow; if not, entering S44;

s44: the business system responds to the task creation event and executes a corresponding processing routine to generate a business task and display the business task to the user;

s45: the business system calls a flow engine service interface to execute the business task, judges whether the next flow node of the business task belongs to an end node or not, and if so, ends the flow of the business flow; if not, entering S44;

the S4 further includes:

s46: after the business system calls the flow engine interface to complete the task in the specific flow engine corresponding to the business task, the flow engine can realize internal task circulation according to the flow chart and generate a new task in the engine, the flow engine can inform the business system in an event mode, when capturing the task creation event, the business system starts a corresponding processing routine in real time, determines whether and how to generate the corresponding business task according to business logic and rules, and endows the business task with corresponding characteristics according to the configuration of the corresponding node.

2. The BPMN-standard-based radiotherapy business process automation method of claim 1, wherein before S1, a business system needs to be started, a process engine is loaded, and the business system is configured to monitor a task creation instance of the process engine and set a corresponding processing routine.

3. The BPMN-standard-based radiotherapy traffic flow automation method of claim 1, wherein the S2 comprises:

s21: a user issues a service flow;

s22: the service system calls a process engine interface and deploys a service process;

s23: the business system stores the business process deployment ID successfully deployed in the process engine.

4. Radiotherapy business process automation system based on BPMN standard, its characterized in that includes:

the business process node configuration module is used for configuring the business process nodes according to the radiotherapy business and customizing the attributes of the business process nodes;

the business process creating and deploying module is used for creating a business process in a visual process configuration user interface of BPMN standard according to the configured business process nodes and deploying the business process in a business system;

the flow node grouping configuration module is used for carrying out grouping configuration on the service flow nodes and setting a starting node and an ending node of each group;

the flow executing module is used for executing the selected starting node according to the actual condition of the patient;

the flow node grouping configuration module comprises:

the flow node dividing submodule is used for dividing continuous flow nodes existing in a plurality of service flows into a group to complete the grouping of the flow nodes;

a start stop node setting submodule for taking a service flow node for starting in a service flow as a start node; taking a service flow node for stopping in the service flow as an end node;

the grouping applicability setting submodule is used for setting the applicability flow of each flow node grouping;

the flow changing sub-module is used for determining a starting node according to the configuration of node grouping when the flow is changed by field changing and two-course treatment;

the flow executing module comprises:

the starting node selection submodule is used for selecting a specific starting node according to the actual condition of a patient;

the starting node execution submodule is used for enabling the business system to call a process engine service interface according to the business process deployment ID and starting a specific starting node;

a flow node judgment submodule for judging whether a next flow node of the specific start node belongs to an end node, if so, ending the service flow circulation; if not, entering a business task generation submodule;

the business task generation submodule is used for enabling the business system to respond to the task creation event and execute a corresponding processing routine, generating a business task and displaying the business task to a user;

the business task execution submodule is used for enabling a business system to call a process engine service interface to execute the business task and judging whether the next process node of the business task belongs to an end node or not, and if so, ending the business process flow; if not, entering a service task generation sub-module;

the flow executing module further comprises:

and the task flow submodule is used for enabling the business system to call a flow engine interface to complete the task in a specific flow engine corresponding to the business task, then the flow engine can realize internal task flow according to the flow chart and generate a new task in the engine, the flow engine can inform the business system in an event mode, when capturing the task creation event, the business system starts a corresponding processing routine in real time, determines whether and how to generate the corresponding business task according to business logic and rules, and endows the business task with corresponding characteristics according to the configuration of the corresponding node.

5. The BPMN-standard-based radiotherapy traffic flow automation system of claim 4, further comprising: and the instance creating module is used for starting the business system, loading the process engine, configuring a task creating instance of the business system monitoring the process engine and setting a corresponding processing routine.

6. The BPMN-standard-based radiotherapy business process automation system of claim 4, wherein the business process creation deployment module comprises:

the business process issuing submodule is used for enabling a user to issue the business process;

the business process deployment submodule is used for enabling the business system to call the process engine interface and deploy the business process;

and the business process deployment ID storage submodule is used for enabling the business system to store the business process deployment ID which is successfully deployed in the process engine.

7. A computer device comprising a memory, a processor and a computer program stored on the memory and executable on the processor, characterized in that the processor implements the method according to any of claims 1-4 when executing the computer program.

8. A computer-readable storage medium, on which a computer program is stored which, when being executed by a processor, carries out the method according to any one of claims 1-4.

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