CN105550411A - Rapid design process event monitoring method and device of high speed train - Google Patents

Abstract

The invention discloses a rapid design process event monitoring method and device of a high speed train. The method comprises following steps: triggering a process start event monitor while starting a process; when a first node is a task node, creating a task monitor; generating a user task; when finishing the user task and executing a next step, triggering the finished task monitor. According to the rapid design process event monitoring method and device of the high speed train provided by the invention, the operation state of each stage in the executing process of the process task is monitored in real time, thus satisfying the demand for developing and manufacturing a vehicle rapidly and efficiently.

Description

A kind of flow events monitor method of bullet train rapid Design and device

Technical field

The invention belongs to public transportation vehicle technical field, particularly relate to a kind of flow events monitor method and device of bullet train rapid Design.

Background technology

In existing bullet train exploitation, after Vehicle manufacturers receives order, need artificially to decompose the train demand of order, decompose each component module, as carried component, walking component and car body component etc., research and development department's data according to demand that each component is corresponding afterwards, in conjunction with the design experiences of oneself, design the vehicle meeting technical requirement.Wherein, demand data comprises polytype, as design 100 cattle cars or 75 first-class seats, train running speeds are greater than 250km/h in a joint compartment, meet and runs etc. at low ambient temperatures.For the demand, research staff can directly obtain designing the quantity of inner seat position, compartment and grade, the power of vehicle and weight indicator when being met car speed by converting, or rule of thumb sets the air-conditioning quantity etc. of train.

But there is certain defect in the above-mentioned mode that relates to: different developers is for same demand, the parameter that may design the production vehicles obtained is inconsistent, such as: power A watt can meet the demand of train 250km/h with B watt, or seat layouts different in railway car can both meet the demand for amount of seats, owing to there is no unified design rule, the rule that different personnel or same personnel adopt in different times or project is different, the product designed is caused not have fixed standard, production maintenance is made to produce difficulty, and the level of different personnel is variant, cause product quality uneven, high-caliber research and development technical ability cannot be shared, and, the design of current most of train is not completely again develop new product, but present mode still needs after the fractionation of the demand order of car load, independently researched and developed by each department, therefore there is a large amount of repetition R&D works, as the seat in motor-car vehicle or air-conditioning window are arranged, can without the need to changing or being transplanted to after only doing less change in high ferro vehicle, in research and development high ferro product process, can without the need to repeating seat and air-conditioning in research and development vehicle, the setting of window, directly utilize existing product set-up mode and parameter, and emphasis development resources should be used for the obvious assemblies of difference such as power.

Due in the software development process of prior art, usually the running status of this flow nodes only can be detected to flow setting audiomonitor, therefore cannot monitor the state in each stage in the implementation of flow nodes, the demand of rapidly and efficiently carrying out vehicle research and development and manufacturing cannot be met.

Summary of the invention

For solving the problem, the invention provides a kind of flow events monitor method and device of bullet train rapid Design, Real-Time Monitoring can be carried out to the running status in each stage in the implementation of flow tasks, meet the demand of rapidly and efficiently carrying out vehicle research and development and manufacturing.

The flow events monitor method of a kind of bullet train rapid Design provided by the invention, comprising:

While flow startup, trigger flow starts event sniffer;

The creation task audiomonitor when first node is task node;

Produce user task;

When completing described user task and performing next step, trigger audiomonitor of finishing the work.

Preferably, in the flow events monitor method of above-mentioned bullet train rapid Design, described when completing described user task and performing next step, also comprise after triggering audiomonitor of finishing the work:

When next step Section Point is task node, trigger described task audiomonitor.

Preferably, in the flow events monitor method of above-mentioned bullet train rapid Design, described when first node is task node creation task audiomonitor comprise:

Carry the distribution token of previous task;

New producing of the task of record, for follow-up rollback is prepared;

Add flow process suggestion;

Add or preservation state data during Booting sequence;

If present node is distribution node, carries out task distribution, and directly return, otherwise down perform;

Obtain the data of distribution personnel from the context, distribute, if there are personnel, distribute, if not, down performed;

From database, loading personnel carry out personnel assignment.

Preferably, in the flow events monitor method of above-mentioned bullet train rapid Design, described when completing described user task and performing next step, trigger audiomonitor of finishing the work and comprise:

Upgrade execution stack;

More new task suggestion;

Upgrade flow nodes state;

More new historical node.

The flow events monitoring device of a kind of bullet train rapid Design provided by the invention, comprising:

Start unit, for while flow startup, trigger flow starts event sniffer;

Creating unit, for the creation task audiomonitor when first node is task node;

Generation unit, for generation of user task;

First trigger element, for when completing described user task and performing next step, triggers audiomonitor of finishing the work.

Preferably, in the flow events monitoring device of above-mentioned bullet train rapid Design, also comprise:

Second trigger element, for when next step Section Point is task node, triggers described task audiomonitor.

Preferably, in the flow events monitoring device of above-mentioned bullet train rapid Design, described creating unit comprises:

Carrying part, for carrying the distribution token of previous task;

Recording-member, for recording new producing of task, for follow-up rollback is prepared;

Add parts, for adding flow process suggestion;

Add and preserve parts, for adding or preservation state data during Booting sequence;

Dispensing member, if be distribution node for present node, carry out task distribution, and directly returns, otherwise down perform;

Obtaining widget, for obtaining the data of distribution personnel from the context, distributes, if there are personnel, distributes, if not, down performed;

Distribution member, carries out personnel assignment for loading personnel from database.

Preferably, in the flow events monitoring device of above-mentioned bullet train rapid Design, described first trigger element comprises:

First upgrades parts, for upgrading execution stack;

Second upgrades parts, for more new task suggestion;

3rd upgrades parts, for upgrading flow nodes state;

4th upgrades parts, for more new historical node.

The flow events monitor method of above-mentioned bullet train rapid Design provided by the invention and device, owing to comprising: while flow startup, trigger flow starts event sniffer; The creation task audiomonitor when first node is task node; Produce user task; When completing described user task and performing next step, trigger audiomonitor of finishing the work, therefore, it is possible to carry out Real-Time Monitoring to the running status in each stage in the implementation of flow tasks, meet the demand of rapidly and efficiently carrying out vehicle research and development and manufacturing.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The schematic diagram of the flow events monitor method of the first bullet train rapid Design that Fig. 1 provides for the embodiment of the present application;

The schematic diagram of the flow events monitor method of the second bullet train rapid Design that Fig. 2 provides for the embodiment of the present application;

The schematic diagram of the flow events monitoring device of the first bullet train rapid Design that Fig. 3 provides for the embodiment of the present application;

The schematic diagram of the flow events monitoring device of the second bullet train rapid Design that Fig. 4 provides for the embodiment of the present application.

Embodiment

Core concept of the present invention is the flow events monitor method and the device that provide a kind of bullet train rapid Design, Real-Time Monitoring can be carried out to the running status in each stage in the implementation of flow tasks, meet the demand of rapidly and efficiently carrying out vehicle research and development and manufacturing.

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

The flow events monitor method of the first bullet train rapid Design that the embodiment of the present application provides as shown in Figure 1, the schematic diagram of the flow events monitor method of the first bullet train rapid Design that Fig. 1 provides for the embodiment of the present application.The method comprises the steps:

S1: while flow startup, trigger flow starts event sniffer;

S2: the creation task audiomonitor when first node is task node;

S3: produce user task;

S4: when completing described user task and performing next step, triggers audiomonitor of finishing the work.

The flow events monitor method of the above-mentioned bullet train rapid Design that the embodiment of the present application provides, owing to comprising: while flow startup, trigger flow starts event sniffer; The creation task audiomonitor when first node is task node; Produce user task; When completing described user task and performing next step, trigger audiomonitor of finishing the work, therefore, it is possible to carry out Real-Time Monitoring to the running status in each stage in the implementation of flow tasks, meet the demand of rapidly and efficiently carrying out vehicle research and development and manufacturing.

The flow events monitor method of the second bullet train rapid Design that the embodiment of the present application provides as shown in Figure 2, the schematic diagram of the flow events monitor method of the second bullet train rapid Design that Fig. 2 provides for the embodiment of the present application.The method comprises the steps:

A1: while flow startup, trigger flow starts event sniffer;

A2: the creation task audiomonitor when first node is task node;

A3: produce user task;

A4: when completing described user task and performing next step, triggers audiomonitor of finishing the work;

A5: when next step Section Point is task node, triggers described task audiomonitor.

The flow events monitor method of the third bullet train rapid Design that the embodiment of the present application provides, except having the technical characteristic identical with above-mentioned second method, also comprises following technical characteristic:

Steps A 2 specifically comprises the steps:

A21: the distribution token carrying previous task;

A22: new producing of the task of record, for follow-up rollback is prepared;

A23: add flow process suggestion;

A24: add or preservation state data during Booting sequence;

A25: if present node is distribution node, carries out task distribution, and directly return, otherwise down perform;

A26: the data obtaining distribution personnel from the context, distributes, if there are personnel, distributes, if not, down performed;

A27: loading personnel carry out personnel assignment from database.

The flow events monitor method of the 4th kind of bullet train rapid Design that the embodiment of the present application provides, except having the technical characteristic identical with the third method above-mentioned, also comprises following technical characteristic:

Steps A 4 specifically comprises the steps:

A41: upgrade execution stack;

A42: more new task suggestion;

A43: upgrade flow nodes state;

A44: more new historical node.

The flow events monitoring device of the first bullet train rapid Design that the embodiment of the present application provides as shown in Figure 3, the schematic diagram of the flow events monitoring device of the first bullet train rapid Design that Fig. 3 provides for the embodiment of the present application.This device comprises:

Start unit 301, for while flow startup, trigger flow starts event sniffer;

Creating unit 302, for the creation task audiomonitor when first node is task node;

Generation unit 303, for generation of user task;

First trigger element 304, for when completing described user task and performing next step, triggers audiomonitor of finishing the work.

The flow events monitoring device of the above-mentioned bullet train rapid Design that the embodiment of the present application provides, can carry out Real-Time Monitoring to the running status in each stage in the implementation of flow tasks, meets the demand of rapidly and efficiently carrying out vehicle research and development and manufacturing.

The flow events monitoring device of the second bullet train rapid Design that the embodiment of the present application provides as shown in Figure 4, the schematic diagram of the flow events monitoring device of the second bullet train rapid Design that Fig. 4 provides for the embodiment of the present application.This device comprises:

Start unit 401, for while flow startup, trigger flow starts event sniffer;

Creating unit 402, for the creation task audiomonitor when first node is task node;

Generation unit 403, for generation of user task;

First trigger element 404, for when completing described user task and performing next step, triggers audiomonitor of finishing the work;

Second trigger element 405, for when next step Section Point is task node, triggers described task audiomonitor.

The flow events monitoring device of the third bullet train rapid Design that the embodiment of the present application provides, except having the technical characteristic identical with above-mentioned the second device, also comprises following technical characteristic:

Described creating unit comprises:

Carrying part, for carrying the distribution token of previous task;

Recording-member, for recording new producing of task, for follow-up rollback is prepared;

Add parts, for adding flow process suggestion;

Add and preserve parts, for adding or preservation state data during Booting sequence;

Dispensing member, if be distribution node for present node, carry out task distribution, and directly returns, otherwise down perform;

Obtaining widget, for obtaining the data of distribution personnel from the context, distributes, if there are personnel, distributes, if not, down performed;

Distribution member, carries out personnel assignment for loading personnel from database.

The flow events monitoring device of the 4th kind of bullet train rapid Design that the embodiment of the present application provides, except having the technical characteristic identical with the third device above-mentioned, also comprises following technical characteristic:

Described first trigger element comprises:

First upgrades parts, for upgrading execution stack;

Second upgrades parts, for more new task suggestion;

3rd upgrades parts, for upgrading flow nodes state;

4th upgrades parts, for more new historical node.

Below the code used in reality is described:

Can use task variable in code, this variable is DelegateTask example, and this code can be used to perform corresponding method.

1. executor is set.

Task.setAssignee (user ID);

2. add candidate

Task.addCandidateUser (user ID)

3. add candidate's group

Task.addGroupIdentityLink (" organization type ", " organization id ")

4. setting procedure variable

Task.setVariable (" variable name ", " variate-value ");

5. the privately owned flow process variable of the task that arranges

Task.setVariableLocal (" variable name ", " variate-value ");

The flow process variable of system can be used in this script, such as:

Have a flow process variable in flow process of asking for leave, ask for leave number of days days:

If asked for leave, number of days is greater than 3 days, and examination & approval people is general manager (GM);

If asked for leave, number of days is less than or equal to 3 days, and examination & approval people is departmental manager;

if(days>3){

Task.setAssignee (" general manager (GM) ");

}

else{

Task.setAssignee (" departmental manager ");

}

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (8)

1. a flow events monitor method for bullet train rapid Design, is characterized in that, comprising:

While flow startup, trigger flow starts event sniffer;

The creation task audiomonitor when first node is task node;

Produce user task;

When completing described user task and performing next step, trigger audiomonitor of finishing the work.

2. the flow events monitor method of bullet train rapid Design according to claim 1, is characterized in that, described when completing described user task and performing next step, also comprises after triggering audiomonitor of finishing the work:

When next step Section Point is task node, trigger described task audiomonitor.

3. the flow events monitor method of bullet train rapid Design according to claim 2, is characterized in that, described when first node is task node creation task audiomonitor comprise:

Carry the distribution token of previous task;

New producing of the task of record, for follow-up rollback is prepared;

Add flow process suggestion;

Add or preservation state data during Booting sequence;

If present node is distribution node, carries out task distribution, and directly return, otherwise down perform;

Obtain the data of distribution personnel from the context, distribute, if there are personnel, distribute, if not, down performed;

From database, loading personnel carry out personnel assignment.

4. the flow events monitor method of the bullet train rapid Design according to any one of claim 1-3, is characterized in that, described when completing described user task and performing next step, triggers audiomonitor of finishing the work and comprises:

Upgrade execution stack;

More new task suggestion;

Upgrade flow nodes state;

More new historical node.

5. a flow events monitoring device for bullet train rapid Design, is characterized in that, comprising:

Start unit, for while flow startup, trigger flow starts event sniffer;

Creating unit, for the creation task audiomonitor when first node is task node;

Generation unit, for generation of user task;

First trigger element, for when completing described user task and performing next step, triggers audiomonitor of finishing the work.

6. the flow events monitoring device of bullet train rapid Design according to claim 5, is characterized in that, also comprise:

Second trigger element, for when next step Section Point is task node, triggers described task audiomonitor.

7. the flow events monitoring device of bullet train rapid Design according to claim 6, is characterized in that, described creating unit comprises:

Carrying part, for carrying the distribution token of previous task;

Recording-member, for recording new producing of task, for follow-up rollback is prepared;

Add parts, for adding flow process suggestion;

Add and preserve parts, for adding or preservation state data during Booting sequence;

Dispensing member, if be distribution node for present node, carry out task distribution, and directly returns, otherwise down perform;

Obtaining widget, for obtaining the data of distribution personnel from the context, distributes, if there are personnel, distributes, if not, down performed;

Distribution member, carries out personnel assignment for loading personnel from database.

8. the flow events monitoring device of the bullet train rapid Design according to any one of claim 5-7, is characterized in that, described first trigger element comprises:

First upgrades parts, for upgrading execution stack;

Second upgrades parts, for more new task suggestion;

3rd upgrades parts, for upgrading flow nodes state;

4th upgrades parts, for more new historical node.