CN110794968A - Emergency drilling interaction system and method based on scene construction - Google Patents

Abstract

The invention relates to the technical field of emergency drilling, in particular to an emergency drilling interaction system and method based on scene construction. The emergency drilling interaction system constructed based on the scenes comprises: the device comprises a scene construction module, a drill role module, a sensing feedback module and a data interaction module. The emergency drilling interaction system and the emergency drilling interaction method based on the scene construction receive event information to construct a virtual scene, receive drilling instructions of drilling roles to generate operation data, and update scene data of drilling contents corresponding to the virtual roles in the virtual scene in real time according to the operation data, so that the drilling selection is more scientific and flexible, and the drilling reality degree and accuracy are improved.

Description

Emergency drilling interaction system and method based on scene construction

Technical Field

The invention relates to the technical field of emergency drilling, in particular to an emergency drilling interaction system and method based on scene construction.

Background

The major accident scene construction is an analysis tool for carrying out accident evolution analysis and simulation on major emergencies which may occur in a certain period in the future, combing emergency tasks, analyzing the difference of emergency capacity and providing countermeasure measures according to different evolution stages. At present, the emergency drilling mostly adopts the modes of field drilling and desktop deduction, but the organization and implementation of the field drilling and the desktop deduction are time-consuming and labor-consuming, the evaluation and improvement effects are not easily reflected, and the portability is not realized; the latter generates reaction data that is not sufficiently realistic and accurate.

In view of the above, the present invention provides a new emergency drilling interaction system and method based on scene construction, which is a technical problem to be solved in the art.

Disclosure of Invention

The invention provides an emergency drilling interaction system based on scene construction, which comprises:

the scene construction module is used for receiving event information and constructing a virtual scene according to the event information, wherein the virtual scene comprises at least one drilling role and drilling content corresponding to the drilling role;

the drilling role module is used for receiving a drilling role and reading initial scene data of corresponding drilling content in the virtual scene according to the drilling role;

the inductive feedback module is used for receiving a drilling instruction of the drilling role and generating operation data of the drilling role according to the drilling instruction;

the data interaction module is used for receiving the operation data of the drilling role and updating the current scene data of the drilling content according to the operation data so as to generate the real-time scene data of the drilling content;

the drill role module is also used for receiving and reading the real-time scene data of the drill content.

Preferably, the system further comprises:

and the drilling research and judgment module is used for judging whether the drilling personnel meet the requirement of the plan according to the stored emergency plan and the real-time scene data and performing drilling evaluation on the drilling role according to the real-time scene data.

Preferably, the drilling research and judgment module is further configured to perform drilling evaluation on the virtual scene according to a drilling evaluation result of each drilling role;

the system also comprises a storage module used for storing the initial data of the virtual scene and sequencing the virtual scene according to the drilling evaluation of the virtual scene.

Preferably, the drill content includes initial scene data, a plurality of fixed parameters, and a plurality of variable parameter ranges.

Preferably, the sensing feedback module is configured to receive a drilling instruction of the drilling role, select a fixed parameter according to the drilling instruction, and generate a sensing parameter within the variable parameter range to form operation data.

Preferably, the scene construction module includes:

the scene selection submodule is used for providing a plurality of scene events and generating event information according to a selection instruction of a user;

and the scene construction submodule is used for acquiring a corresponding emergency plan according to the event information, determining a drilling role according to the emergency plan, and constructing at least one virtual scene according to the event information and the drilling role, wherein the virtual scene comprises a full virtual scene or a semi-virtual scene.

Preferably, the event information includes an event category and/or an event level.

Preferably, the drilling role module is further configured to obtain non-interactive drilling contents of different drilling roles and interactive drilling contents between different drilling roles according to the drilling contents of different drilling roles, so as to respectively establish a non-interactive drilling content list and an interactive drilling content list.

Preferably, the data interaction module is further configured to determine that the current drilling content is non-interactive drilling content or interactive drilling content according to the current drilling time of the drilling role;

for non-interactive drilling content, receiving operation data of the drilling role, and updating current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content;

and for interactive drilling content, receiving operation data of all interactive drilling roles, and updating the current scene data of the drilling content according to a plurality of operation data to generate real-time scene data of the drilling content.

The invention also provides an emergency drilling interaction method based on the scene construction, which comprises the following steps:

receiving event information, and constructing a virtual scene according to the event information, wherein the virtual scene comprises at least one drilling role and drilling content corresponding to the drilling role;

receiving a drilling role, and reading initial scene data of corresponding drilling content in the virtual scene according to the drilling role;

receiving a drilling instruction of the drilling role, and generating operation data of the drilling role according to the drilling instruction;

receiving operation data of the drilling role, and updating current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content;

and receiving and reading the real-time scene data of the drilling content.

The beneficial effect of this application is: the emergency drilling interaction system and the emergency drilling interaction method based on the scene construction receive event information to construct a virtual scene, receive drilling instructions of drilling roles to generate operation data, and update scene data of drilling contents corresponding to the virtual roles in the virtual scene in real time according to the operation data, so that the drilling selection is more scientific and flexible, and the drilling reality degree and accuracy are improved.

Drawings

Fig. 1 is a schematic structural diagram of an emergency drilling interaction system constructed based on a scenario according to a first embodiment of the present invention.

Fig. 2 is a schematic diagram of a virtual scene in the system according to the first embodiment of the present invention.

Fig. 3 is a schematic structural diagram of an emergency drilling interaction system constructed based on a scenario according to a second embodiment of the present invention.

Fig. 4 is a flowchart of an emergency drilling interaction method based on context construction according to a third embodiment of the present invention.

Fig. 5 is a flowchart of an emergency drilling interaction method based on context construction according to a fourth embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

The terms "first", "second" and "third" in this application are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implying any indication of the number of technical features indicated. Thus, a feature defined as "first," "second," or "third" may explicitly or implicitly include at least one of the feature. In the description of the present application, "plurality" means at least two, e.g., two, three, etc., unless explicitly specifically limited otherwise. All directional indications (such as up, down, left, right, front, and rear … …) in the embodiments of the present application are only used to explain the relative positional relationship between the components, the movement, and the like in a specific posture (as shown in the drawings), and if the specific posture is changed, the directional indication is changed accordingly. Furthermore, the terms "include" and "have," as well as any variations thereof, are intended to cover non-exclusive inclusions. For example, a process, method, system, article, or apparatus that comprises a list of steps or elements is not limited to only those steps or elements listed, but may alternatively include other steps or elements not listed, or inherent to such process, method, article, or apparatus.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the application. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

The scene construction is a method for carrying out panoramic description on the emergency by combining accident cases and engineering technical simulation. The three core information of the scene construction is scene summary, event consequence and corresponding task, the scene construction can be divided into three levels of a disaster level, a disaster level and an accident level, and the scene construction integrates and describes the scene of the emergency.

Fig. 1 is a schematic structural diagram of an emergency drilling interaction system constructed based on a scenario according to a first embodiment of the present invention. As shown in fig. 1, the emergency drill interaction system 100 constructed based on the scene includes: the system comprises a scene building module 10, a rehearsal role module 20, a sensing feedback module 30 and a data interaction module 40.

The scene construction module 10 is configured to receive event information, and construct a virtual scene according to the event information, where the virtual scene includes at least one drilling role and drilling content corresponding to the drilling role.

In the present embodiment, the event information may include at least one of an event category, an event level, and an event emergency plan. The event information indicates the nature, scale, and influence range of the emergency.

In this embodiment, the virtual scene constructed by the scenario construction module 10 according to the event information includes a plurality of drilling roles, for example, the virtual scene generally includes: the system comprises field workers, emergency rescue personnel, emergency commanders and news spokesman, wherein the field workers are generally responsible for evacuating the field according to a specified route within a specified time; the emergency rescue personnel are responsible for field rescue, including searching and rescuing the field personnel who are not evacuated in time; the emergency commander is responsible for uniformly commanding and dispatching emergency rescue personnel according to an emergency plan; and the news speaker is responsible for issuing information according to the information of the emergency commander and public opinion concern information. The virtual scene also comprises drilling content constructed for each drilling role, wherein the drilling content comprises initial scene data, a plurality of fixed parameters and a plurality of variable parameter ranges, and specifically, the initial scene data is scene data when an emergency begins to occur; the fixed parameters are parameters which cannot be adjusted through the drilling command and are set by the system, for example, the moving speed of emergency rescue personnel is S1, the moving speed of field workers is S2, and S1 is greater than S2; the variable parameter is a parameter that can be adjusted within a preset range by a drill instruction, for example, the moving direction of emergency personnel, the moving direction of field personnel.

In this embodiment, the drilling content of each drilling role includes all virtual scene segments appearing in the drilling role, the virtual scene segments corresponding to the drilling content of different drilling roles are different, some virtual scene segments include a plurality of drilling roles, the virtual scene segments exist in the drilling content of the plurality of drilling roles, please refer to fig. 2, for example, there are drilling role a, drilling role B and drilling role C in the virtual scene, the position of the drilling content of each drilling role in the virtual scene logic sequence is determined according to the simulated drilling time of the drilling content, the drilling content of drilling role a includes virtual scene segment 1, virtual scene segment 2 and virtual scene segment 3, the drilling content of drilling role B includes virtual scene segment 1, virtual scene segment 3 and virtual scene segment 4, the drilling content of drilling role C includes virtual scene segment 3, the drilling roles A and B appear in the virtual scene segment 1, and the virtual scene segment 1 is interactive drilling content of the drilling roles A and B; only the drilling role A appears in the virtual scene segment 2, and the virtual scene segment 2 is the non-interactive drilling content of the drilling role A; the drilling roles A, B and C appear in the virtual scene segment 3, and the virtual scene segment 3 is the interactive drilling content of the drilling roles A, B and C; only the drilling role B appears in the virtual scene segment 4, and the virtual scene segment 4 is the non-interactive drilling content of the drilling role B.

In an optional embodiment, the virtual scene construction may be performed based on an emergency plan, and the scene construction module 10 further includes: the scene selection sub-module 11 and the scene construction sub-module 12, wherein the scene selection sub-module 11 is configured to provide a plurality of scene events and generate event information according to a selection instruction of a user; the scene construction submodule 12 is configured to obtain a corresponding emergency plan according to the event information, determine a drilling role according to the emergency plan, and construct at least one virtual scene according to the event information and the drilling role, where the virtual scene includes a full virtual scene or a semi-virtual scene.

In this embodiment, the drilling role module 20 is configured to receive a drilling role, and read initial scene data of drilling content corresponding to the virtual scene according to the drilling role.

Specifically, the high-rise building fire is taken as an example for explanation, the drilling role is a resident, the drilling content is high-rise fire escape, the initial scene data of the drilling content is indoor scene data of a certain floor in the building, the fixed parameters are attributes set by the system for the human, for example, when the attribute of the drilling role is old people or children, the moving speed is relatively slow; when the attribute of the exercise role is youth, the movement speed is relatively high; when the attribute of the practicing role is child, the variable parameter range is relatively small, and the escape path is more difficult to be mastered correctly when the escaping is understood.

In this embodiment, the inductive feedback module 30 is configured to receive a drilling instruction of the drilling role, and generate operation data of the drilling role according to the drilling instruction.

In a first optional embodiment, when the virtual scene is simulated by a computer, the sensing feedback module 30 is a mouse, a keyboard or a touch screen, and a user sends a drilling instruction through the mouse, the keyboard or the touch screen to form operation data.

In a second alternative embodiment, when the virtual scene is a real-person simulation, the sensory feedback module 30 is a sensing device, such as a smart helmet and/or a patch sensor, and the user sends a drill instruction by his own action to form the operation data.

Specifically, the sensing feedback module 30 is configured to receive a drilling instruction of the drilling role, select a fixed parameter according to the drilling instruction, and generate a sensing parameter within the variable parameter range to form operation data corresponding to the drilling role. The number of the inductive feedback modules 30 can be one or more, for example, one sensing device can be configured for each practicing role, and the practicing instructions of the practicing role can be received through the sensing device.

In this embodiment, the data interaction module 40 is configured to receive the operation data of the drilling role, update the current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content, and send the real-time scene data to the drilling role module 20. The drill character module 20 is also used for receiving and reading the real-time scene data of the drill content.

In an alternative embodiment, the drilling role module 20 is further configured to obtain non-interactive drilling contents of different drilling roles and interactive drilling contents between different drilling roles according to the drilling contents of different drilling roles, so as to respectively establish a non-interactive drilling content list and an interactive drilling content list. For example, please refer to fig. 2, a virtual scene segment 1 is the interactive exercise content of exercise characters a and B; the virtual scene segment 2 is the non-interactive drilling content of the drilling role A; virtual scene segment 3 is the interactive drilling content of drilling character A, B and C; the virtual scene segment 4 is the non-interactive drilling content of the drilling character B.

Further, the data interaction module 30 is configured to determine that the current drilling content is non-interactive drilling content or interactive drilling content according to the current drilling time of the drilling role; for non-interactive drilling content, receiving operation data of the drilling role, and updating current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content; and for the interactive drilling content, receiving the operation data of all the interactive drilling roles, and updating the current scene data of the drilling content according to a plurality of operation data to generate the real-time scene data of the drilling content.

Specifically, taking the virtual scene shown in fig. 2 as an example, when the drilling content is the virtual scene segment 1, receiving the operation data of the drilling role a and the operation data of the drilling role B, and updating the current scene data of the drilling content according to the operation data of the drilling role a and the operation data of the drilling role B to generate real-time scene data of the drilling content; when the drilling content is the virtual scene segment 2, receiving operation data of the drilling role A, and updating current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content; when the drilling content is the virtual scene segment 3, receiving the operation data of the drilling role A, the operation data of the drilling role B and the operation data of the drilling role C, and updating the current scene data of the drilling content according to the operation data of the drilling role A, the operation data of the drilling role B and the operation data of the drilling role C to generate real-time scene data of the drilling content; when the drilling content is the virtual scene segment 4, the operation data of the drilling role B is received, and the current scene data of the drilling content is updated according to the operation data, so as to generate the real-time scene data of the drilling content.

Fig. 3 is a schematic structural diagram of an emergency drilling interaction system constructed based on a scenario according to a second embodiment of the present invention. As shown in fig. 3, the emergency drill interaction system 100 constructed based on the scenario includes: the system comprises a scene construction module 10, a drill role module 20, a sensing feedback module 30, a data interaction module 40, a drill research module 50 and a storage module 60.

For the description of the scene constructing module 10, the drill role module 20, the sensing feedback module 30 and the data interaction module 40, reference is specifically made to the first embodiment, and details are not repeated here.

In this embodiment, the drilling judging module 50 is configured to judge whether the drilling staff meets the requirement of the plan according to the stored emergency plan and the real-time scene data, and perform drilling evaluation on the drilling role according to the real-time scene data. The drill evaluation can include evaluation of a single role, such as evaluation of field workers, emergency rescue personnel and emergency commanders.

In an optional embodiment, the drilling judging module 50 is further configured to perform drilling evaluation on the virtual scene according to the drilling evaluation result of each drilling character. Further, the drill evaluation may also include evaluation of the entire rescue process, for example, when there is interaction between a plurality of drill characters, the interaction of the plurality of drill characters may be evaluated.

In this embodiment, the storage module 60 is configured to store initial data of the virtual scenes, and sort the virtual scenes according to the drilling evaluation of the virtual scenes. For example, the initialization sequence is set according to the occurrence probability and the destructiveness of various disaster scenes, and specifically includes: after the drilling is completed each time, the virtual scenes 1 (dangerous chemical substance explosion), the virtual scenes 2 (high-rise building fire), the virtual scenes 3 (earthquake) and the like are reordered from low to high according to the drilling score, for example, the drilling score of the high-rise building fire is low, the drilling score is set as a first scene, and the drilling is preferentially selected.

Based on the same inventive concept, the embodiment of the invention also provides an emergency drilling interaction method based on the scene construction, and the method is as follows. Because the principle of solving the problems of the emergency drilling interaction method based on the scene construction is similar to that of the emergency drilling interaction system based on the scene construction, the implementation of the emergency drilling interaction method based on the scene construction can refer to the implementation of the emergency drilling interaction system based on the scene construction, and repeated parts are not repeated.

Fig. 4 is a flowchart illustrating an emergency drilling interaction method based on context construction according to a third embodiment of the present invention. It should be noted that the method of the present invention is not limited to the flow sequence shown in fig. 4 if the results are substantially the same. As shown in fig. 4, the method includes the steps of:

s301, receiving event information, and constructing a virtual scene according to the event information, wherein the virtual scene comprises at least one drilling role and drilling content corresponding to the drilling role.

In step S301, the drill content includes initial scene data, a plurality of fixed parameters, and a plurality of variable parameter ranges. The event information includes an event category and/or an event level. In an optional embodiment, a plurality of contextual events are provided, and event information is generated according to a selection instruction of a user; and acquiring a corresponding emergency plan according to the event information, determining a drilling role according to the emergency plan, and constructing at least one virtual scene according to the event information and the drilling role, wherein the virtual scene comprises a full virtual scene or a semi-virtual scene.

S302, receiving the drilling role, and reading initial scene data of the drilling content corresponding to the virtual scene according to the drilling role.

In an alternative embodiment, in step S302, the non-interactive drilling content of different drilling roles and the interactive drilling content between different drilling roles are obtained according to the drilling content of different drilling roles, so as to respectively establish the non-interactive drilling content list and the interactive drilling content list.

S303, receiving the drilling instruction of the drilling role, and generating the operation data of the drilling role according to the drilling instruction.

In step S303, a drilling command of the drilling character is received, a fixed parameter is selected according to the drilling command, and a sensing parameter is generated within the variable parameter range to form operation data.

S304, receiving the operation data of the drilling role, and updating the current scene data of the drilling content according to the operation data to generate the real-time scene data of the drilling content.

In an optional implementation manner, in step S304, it is determined that the current drilling content is non-interactive drilling content or interactive drilling content according to the current drilling time of the drilling role; for non-interactive drilling content, receiving operation data of the drilling role, and updating current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content; and for the interactive drilling content, receiving the operation data of all the interactive drilling roles, and updating the current scene data of the drilling content according to a plurality of operation data to generate the real-time scene data of the drilling content.

S305, receiving and reading the real-time scene data of the drill content.

Fig. 5 is a flowchart illustrating an emergency drilling interaction method based on context construction according to a fourth embodiment of the present invention. It should be noted that the method of the present invention is not limited to the flow sequence shown in fig. 5 if the results are substantially the same. As shown in fig. 5, the method includes the steps of:

s401, receiving event information, and constructing a virtual scene according to the event information, wherein the virtual scene comprises at least one drilling role and drilling content corresponding to the drilling role.

S402, receiving the drilling role, and reading initial scene data of the drilling content corresponding to the virtual scene according to the drilling role.

S403, receiving the drilling instruction of the drilling role, and generating the operation data of the drilling role according to the drilling instruction.

S404, receiving the operation data of the drilling role, and updating the current scene data of the drilling content according to the operation data to generate the real-time scene data of the drilling content.

And S405, receiving and reading the real-time scene data of the drilling content.

S406, judging whether the drilling personnel meets the requirement of the plan according to the stored emergency plan and the real-time scene data, and performing drilling evaluation on the drilling role according to the real-time scene data.

In step S406, the drill evaluation may include evaluation of a single role, such as evaluation of field workers, emergency responders, and emergency commanders. In an optional embodiment, the drilling evaluation may be performed on the virtual scene according to the drilling evaluation result of each drilling role. Further, the drill evaluation may also include evaluation of the entire rescue process, for example, when there is interaction between a plurality of drill characters, the interaction of the plurality of drill characters may be evaluated.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims (10)

1. An emergency drilling interaction system constructed based on a scene, the system comprising:

the scene construction module is used for receiving event information and constructing a virtual scene according to the event information, wherein the virtual scene comprises at least one drilling role and drilling content corresponding to the drilling role;

the drilling role module is used for receiving a drilling role and reading initial scene data of corresponding drilling content in the virtual scene according to the drilling role;

the inductive feedback module is used for receiving a drilling instruction of the drilling role and generating operation data of the drilling role according to the drilling instruction;

the data interaction module is used for receiving the operation data of the drilling role and updating the current scene data of the drilling content according to the operation data so as to generate the real-time scene data of the drilling content;

the drill role module is also used for receiving and reading the real-time scene data of the drill content.

2. The system of claim 1, further comprising:

and the drilling research and judgment module is used for judging whether the drilling personnel meet the requirement of the plan according to the stored emergency plan and the real-time scene data and performing drilling evaluation on the drilling role according to the real-time scene data.

3. The emergency drilling interaction system based on the context construction of claim 2, wherein the drilling research and judgment module is further configured to perform drilling evaluation on the virtual scene according to a drilling evaluation result of each drilling role;

the system also comprises a storage module used for storing the initial data of the virtual scene and sequencing the virtual scene according to the drilling evaluation of the virtual scene.

4. The context-based emergency drill interaction system of claim 1 or 2, wherein the drill content comprises initial scene data, a plurality of fixed parameters and a plurality of variable parameter ranges.

5. The emergency drilling interaction system constructed based on the situation as claimed in claim 4, wherein the inductive feedback module is configured to receive a drilling instruction of the drilling role, select a fixed parameter according to the drilling instruction, and generate an inductive parameter within the variable parameter range to form operation data.

6. The emergency drill interaction system constructed based on the scenario as claimed in claim 1, wherein the scenario construction module comprises:

the scene selection submodule is used for providing a plurality of scene events and generating event information according to a selection instruction of a user;

and the scene construction submodule is used for acquiring a corresponding emergency plan according to the event information, determining a drilling role according to the emergency plan, and constructing at least one virtual scene according to the event information and the drilling role, wherein the virtual scene comprises a full virtual scene or a semi-virtual scene.

7. The emergency drill interaction system constructed based on the situation as claimed in claim 1 or 6, wherein the event information comprises event category and/or event level.

8. The emergency drilling interaction system based on the context construction of claim 1, wherein the drilling role module is further configured to obtain non-interactive drilling contents of different drilling roles and interactive drilling contents between different drilling roles according to the drilling contents of different drilling roles, so as to respectively establish a non-interactive drilling content list and an interactive drilling content list.

9. The emergency drilling interaction system constructed based on the context of claim 8, wherein the data interaction module is further configured to determine that the current drilling content is non-interactive drilling content or interactive drilling content according to the current drilling time of the drilling role;

for non-interactive drilling content, receiving operation data of the drilling role, and updating current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content;

and for interactive drilling content, receiving operation data of all interactive drilling roles, and updating the current scene data of the drilling content according to a plurality of operation data to generate real-time scene data of the drilling content.

10. An emergency drilling interaction method based on scene construction is characterized by comprising the following steps:

receiving event information, and constructing a virtual scene according to the event information, wherein the virtual scene comprises at least one drilling role and drilling content corresponding to the drilling role;

receiving a drilling role, and reading initial scene data of corresponding drilling content in the virtual scene according to the drilling role;

receiving a drilling instruction of the drilling role, and generating operation data of the drilling role according to the drilling instruction;

receiving operation data of the drilling role, and updating current scene data of the drilling content according to the operation data to generate real-time scene data of the drilling content;

and receiving and reading the real-time scene data of the drilling content.

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