CN111701223B - Automatic flow control method and device for live-action entertainment - Google Patents

Abstract

The invention provides a method and a device for automatically controlling the flow of live-action entertainment. The method comprises the following steps: acquiring a scene number selected by a user and a corresponding customs condition, and establishing a binary tree judgment structure; acquiring a first scene number and first scene sensor information entered by a user, judging the first scene sensor information by using a binary tree judging structure, acquiring a first judging result and starting a second scene; acquiring a second scene number and second scene sensor information entered by a user, judging the first scene sensor information by using a binary tree judging structure, and acquiring a second judgment result; and judging the first judgment result and the second judgment result according to the binary tree judgment structure, and starting the final scene. By establishing the binary tree judgment structure, the invention not only can realize the unified control of the process among a plurality of scenes of live-action entertainment, but also saves the use of a plurality of scene resources, improves the process control precision and improves the user experience.

Description

Automatic flow control method and device for live-action entertainment

Technical Field

The invention relates to the technical field of computer software, in particular to a method and a device for automatically controlling a process of live-action entertainment.

Background

The live-action entertainment industry is a newly emerging cultural entertainment industry in recent years, creates a real experience environment for consumers and realizes an online game of an interactive game, each different live-action entertainment item (theme) comprises a series of interactive game links except a real scene, and at present, the interactive game links mostly adopt manual work or a plurality of independent controllers for flow control, but the current control mode has great disadvantages, the flow control precision is low, the efficiency of opening subsequent scene checkpoints is low, and the experience brought to users is poor.

Therefore, in order to bring better project experience to users, an automatic flow control method for live-action entertainment is urgently needed, unified control of flows among multiple scenes of live-action entertainment can be achieved, flow control accuracy is improved through a binary tree data structure, and user experience is improved.

The above is only for the purpose of assisting understanding of the technical aspects of the present invention, and does not represent an admission that the above is prior art.

Disclosure of Invention

In view of this, the invention provides a method and a device for automatically controlling a flow of live-action entertainment, and aims to achieve unified control among multiple scene flows by a binary tree stored scene logic judgment combination mode, automatically complete switching among various scenes, and improve the technical problem of scene flow control precision.

The technical scheme of the invention is realized as follows:

in one aspect, the present invention provides a method for automatically controlling a process of live-action entertainment, the method comprising the steps of:

s1, acquiring a scene number selected by a user, extracting a corresponding clearance condition from a local scene clearance condition library according to the scene number, and establishing a corresponding binary tree judgment structure according to the clearance condition;

s2, acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, judging the first scene number and the corresponding first scene sensor information according to a binary tree judgment structure, acquiring a first judgment result, and starting a second scene according to the first judgment result;

s3, acquiring a second scene number entered by the user and corresponding second scene sensor information in real time, and judging the second scene number and the corresponding second scene sensor information according to the binary tree judging structure to acquire a second judging result;

and S4, judging the first judgment result and the second judgment result according to the binary tree judgment structure to obtain a final judgment result, and starting a final scene according to the final judgment result.

On the basis of the above technical solution, preferably, in step S1, a scene number selected by a user is obtained, a corresponding clearance condition is extracted from a local scene clearance condition library according to the scene number, and a corresponding binary tree judgment structure is established according to the clearance condition, and the method further includes the steps of obtaining the scene number selected by the user, extracting the corresponding clearance condition from the local scene clearance condition library according to the scene number, where the clearance condition is composed of at least two independent conditions, obtaining the scene number selected by the user, extracting the corresponding clearance condition from the local scene clearance condition library according to the scene number, generating a root node and a leaf node of a binary tree according to the clearance condition, and establishing the corresponding binary tree judgment structure according to the root node and the leaf node.

On the basis of the above technical solution, preferably, a root node and a leaf node of the binary tree are generated according to the clearance condition, and a corresponding binary tree judgment structure is established according to the root node and the leaf node, and the method further includes the steps of taking the clearance condition as the root node of the binary tree, extracting an independent condition from the clearance condition as the leaf node, and establishing a corresponding binary tree judgment structure through the root node and the leaf node according to the relationship between the clearance condition and the independent condition.

On the basis of the above technical solution, preferably, in step S2, the first scene number entered by the user and the corresponding first scene sensor information are obtained in real time, the first scene number and the corresponding first scene sensor information are judged according to the binary tree judgment structure, the first judgment result is obtained, and the second scene is started according to the first judgment result, further comprising the steps of obtaining the first scene number entered by the user and the corresponding first scene sensor information in real time, selecting the corresponding root node and the leaf node connected to the root node from the binary tree judgment structure according to the first scene number, judging the independent condition corresponding to the first scene sensor information and the leaf node, obtaining the judgment result as the first judgment result, and starting the second scene according to the first judgment result.

On the basis of the above technical solution, preferably, a corresponding root node and a leaf node connected to the root node are selected from a binary tree judgment structure according to the first scene number, and the independent condition corresponding to the first scene sensor information and the leaf node is judged, and the method further includes the steps of establishing a reading mode, wherein the reading mode is a post-order traversal reading mode, reading the corresponding root node and the leaf node connected to the root node through the post-order traversal reading mode, acquiring arrangement information of the leaf node and the following node, judging the independent condition corresponding to the first scene sensor information and the leaf node according to the arrangement information, acquiring a judgment result as a first judgment result, and starting a second scene according to the first judgment result.

On the basis of the above technical solution, preferably, the method further includes the steps of judging the first scene sensor information and the independent condition corresponding to the leaf node according to the arrangement information, acquiring a judgment result as a first judgment structure, and starting the second scene according to the first judgment result, judging the first scene sensor information and the independent condition corresponding to the leaf node according to the arrangement information, outputting judgment information meeting the condition when the first scene sensor information meets the independent condition corresponding to the leaf node, and taking the judgment information as the first judgment result; and when the first scene sensor information does not meet the independent condition corresponding to the leaf node, outputting judgment information which does not meet the condition, and acquiring the first scene sensor information again.

On the basis of the above technical solution, preferably, in step S4, the first determination result and the second determination result are determined according to the binary tree determination structure, the final determination result is obtained, and the final scene is opened according to the final determination result, and the method further includes the steps of presetting a final scene opening condition, determining the first determination result and the second determination result according to the binary tree determination structure, obtaining the final determination result, comparing the final scene opening condition with the final determination result, and opening the final scene when the final determination result satisfies the final scene opening condition.

Still more preferably, the automatic flow control device for live-action entertainment comprises:

the structure establishing module is used for acquiring a scene number selected by a user, extracting a corresponding clearance condition from a local scene clearance condition library according to the scene number, and establishing a corresponding binary tree judgment structure according to the clearance condition;

the first judgment module is used for acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, judging the first scene number and the corresponding first scene sensor information according to a binary tree judgment structure, acquiring a first judgment result, and starting a second scene according to the first judgment result;

the second judgment module is used for acquiring a second scene number entered by the user and corresponding second scene sensor information in real time, judging the second scene number and the corresponding second scene sensor information according to the binary tree judgment structure and acquiring a second judgment result;

and the final judgment module is used for judging the first judgment result and the second judgment result according to the binary tree judgment structure, acquiring a final judgment result and starting a final scene according to the final judgment result.

In a second aspect, the method for automatically controlling the flow of live-action entertainment further comprises an apparatus comprising: the system comprises a memory, a processor and a program of automatic flow control method of live-action entertainment stored on the memory and capable of running on the processor, wherein the program of automatic flow control method of live-action entertainment is configured to realize the steps of the automatic flow control method of live-action entertainment.

In a third aspect, the method for automatically controlling the flow of live-action entertainment further includes a medium, which is a computer medium, and the computer medium stores a program of the method for automatically controlling the flow of live-action entertainment, and the program of the method for automatically controlling the flow of live-action entertainment implements the steps of the method for automatically controlling the flow of live-action entertainment when being executed by a processor.

Compared with the prior art, the automatic control method for the flow of live-action entertainment has the following beneficial effects:

(1) By establishing the binary tree judgment structure, the game system can adapt to richer game scenes, can uniformly process a plurality of scene tasks, improves the speed of the whole process, saves resources and improves user experience; (2) By using the root node and the leaf node of the binary tree to represent the customs conditions of each scene, the same leaf node can be combined with a plurality of root nodes to form a corresponding binary tree structure, so that the resource consumption is saved, and the running speed of the program is increased.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic structural diagram of a device in a hardware operating environment according to an embodiment of the present invention;

FIG. 2 is a schematic flow chart illustrating a method for controlling the flow of live-action entertainment according to a first embodiment of the present invention;

FIG. 3 is a schematic diagram of a binary tree structure for determining the flow of live-action entertainment according to the present invention;

FIG. 4 is a functional block diagram of a method for automatically controlling the flow of live-action entertainment according to a first embodiment of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

As shown in fig. 1, the apparatus may include: a processor 1001, such as a Central Processing Unit (CPU), a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. Wherein a communication bus 1002 is used to enable connective communication between these components. The user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard), and the optional user interface 1003 may also include a standard wired interface, a wireless interface. The network interface 1004 may optionally include a standard wired interface, a WIreless interface (e.g., a WIreless-FIdelity (WI-FI) interface). The Memory 1005 may be a Random Access Memory (RAM) Memory, or may be a Non-Volatile Memory (NVM), such as a disk Memory. The memory 1005 may alternatively be a storage device separate from the processor 1001.

Those skilled in the art will appreciate that the configuration shown in fig. 1 is not intended to be limiting of the apparatus, and in actual implementations the apparatus may include more or fewer components than shown, or some components may be combined, or a different arrangement of components.

As shown in fig. 1, a memory 1005 as a medium may include an operating system, a network communication module, a user interface module, and a flow automation control method program for live-action entertainment.

In the apparatus shown in fig. 1, the network interface 1004 is mainly used for establishing a communication connection between the apparatus and a server storing all data required in the flow automatic control method system for live-action entertainment; the user interface 1003 is mainly used for data interaction with a user; the processor 1001 and the memory 1005 of the automatic flow control method device for live-action entertainment of the present invention may be disposed in the automatic flow control method device for live-action entertainment, and the automatic flow control method device for live-action entertainment calls the automatic flow control method program for live-action entertainment stored in the memory 1005 through the processor 1001, and executes the automatic flow control method for live-action entertainment provided by the present invention.

Referring to fig. 2, fig. 2 is a schematic flow chart of a method for automatically controlling the flow of live-action entertainment according to a first embodiment of the present invention.

In this embodiment, the automatic flow control method for live-action entertainment includes the following steps:

s10: the method comprises the steps of obtaining a scene number selected by a user, extracting corresponding clearance conditions from a local scene clearance condition library according to the scene number, and establishing a corresponding binary tree judgment structure according to the clearance conditions.

It should be understood that the system firstly selects a number corresponding to an entertainment scene selected by a user, then selects a corresponding clearance condition from a local scene clearance condition library according to the scene number, the local scene clearance condition library is obtained by associating the clearance condition with the scene number in advance by a worker, then stores the clearance condition into the local clearance condition library, then extracts the corresponding clearance condition from the local scene clearance condition library according to the scene number, generates a root node and a leaf node of a binary tree according to the clearance condition, and establishes a corresponding binary tree judgment structure according to the root node and the leaf node.

It should be understood that the clearance condition mentioned in the present embodiment is composed of two independent conditions, and is combined by a logical relation, where the logical relation refers to such logical relations as "and", "or" and "not", and the clearance condition is determined as clearance only if the logical relation is satisfied.

It should be understood that, for the establishment of the binary tree judgment structure, the system may establish a root node and a leaf node respectively in advance according to a scene customs condition and an independent customs condition input by a worker, then establish a corresponding binary tree judgment structure according to the whole live-action entertainment scene, then obtain a scene number entered by a user, and find a corresponding judgment structure from the binary tree judgment structure according to the scene number for judgment. The establishment method has the advantages that unified control over a plurality of scenes is achieved, the control speed of the process is improved, and user experience is improved.

S20: the method comprises the steps of acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, judging the first scene number and the corresponding first scene sensor information according to a binary tree judging structure, acquiring a first judging result, and starting a second scene according to the first judging result.

It should be understood that the system may acquire a first scene number entered by a user and corresponding first scene sensor information in real time, select a corresponding root node and a leaf node connected to the root node from the binary tree judgment structure according to the first scene number, judge an independent condition corresponding to the first scene sensor information and the leaf node, acquire a judgment result as a first judgment result, and open a second scene according to the first judgment result.

It should be understood that the system may establish a subsequent traversal reading mode to read the judgment structure of the binary tree, read the corresponding root node and the leaf node connected to the root node through the subsequent traversal reading mode, obtain the arrangement information of the leaf node and the following node, judge the independent condition corresponding to the first scene sensor information and the leaf node according to the arrangement information, obtain the judgment result as the first judgment result, and start the second scene according to the first judgment result.

S30: and acquiring a second scene number entered by the user and corresponding second scene sensor information in real time, and judging the second scene number and the corresponding second scene sensor information according to the binary tree judgment structure to acquire a second judgment result.

It should be understood that the system may obtain a second scene number entered by the user and corresponding second scene sensor information in real time, select a corresponding root node and a leaf node connected to the root node from the binary tree determination structure according to the second scene number, determine an independent condition corresponding to the second scene sensor information and the leaf node, and obtain a determination result as a second determination result.

It should be understood that the first and second scenes in this embodiment are used as examples only, and the opening of the final scene is determined by the opening condition, since the live-action entertainment may include a plurality of scenes.

S40: and judging the first judgment result and the second judgment result according to the binary tree judgment structure to obtain a final judgment result, and starting a final scene according to the final judgment result.

It should be understood that the system may preset a final scene opening condition, determine the first determination result and the second determination result according to the binary tree determination structure, obtain a final determination result, compare the final scene opening condition with the final determination result, and open the final scene when the final determination result satisfies the final scene opening condition.

It should be understood that the binary tree structure is specifically shown in fig. 3, where the final judgment condition is that the S3 set-top box game 2 succeeds or the S4 external prop 1 succeeds, and the S1 input terminal 10 is valid, and the S2 input terminal 11 is invalid, we store and issue this logic in the form of a binary tree, and after the program on the board reads the binary tree, we know what logic combination is, generally speaking, the leaf nodes correspond to the states of the single sensors, which can be multiplexed, and assuming that the scenario 1 corresponds to the pass condition "S3 set-top box game 2 succeeds or S4 external prop 1 succeeds, and the S1 input terminal 10 is valid, and the S2 input terminal 11 is invalid", we can, according to this pass condition, the binary tree structure in the previous figure is constructed, the result of the node 7 is used as the pass result of the final scene 1, if the next scene is still valid on the S1 input terminal 10, the result is judged, then the node 1 can be multiplexed, if no node which can be multiplexed exists, a node is newly created, if the node which can be multiplexed exists, the node is multiplexed, if the subsequent scene has the need of 5, 6 and 7, when the results of the node participate in the calculation, the node can also be multiplexed, then the program firstly traverses the left subnode, obtains the result of the left side, then finds the result of the right side, and the sequence of the results taken in the figure is 1, 2, 5, 3, 4, 6 and 7 in turn, which is a mode of backward traversal.

It should be understood that after the overall flow of the live-action entertainment (theme) is broken down into individual scenes, each individual scene includes a subsequent list of individual scenes indicating which other individual scenes may be switched to after the current individual scene ends. After the current independent scene is finished, only the independent scenes in the list can be switched to, and the number of the scenes in the list can be 0 or 1 or more.

Each independent scene includes three states, S1 starts, S2 in the process, and S3 ends, which is specifically as follows:

b1 start action list:

and the conditional action list of the current independent scene (S1 starting) state, the B1 list can comprise 0 or more conditional actions, the conditional actions in the B1 list are executed only once in the (S1 starting) state, and after the execution is finished, the current independent scene state is converted into the (S2 in-process) state.

B2 in-process action list:

the list of conditional actions when the current independent scene is in the (in S2 process) state, the B2 list may include 0 or more conditional actions. The current independent scene repeatedly performs the conditional action in the B2 list in the (during S2) state.

B3 end action list:

the list of conditional actions when the current independent scene is in the (S3 end) state, the B3 list may include 0 or more conditional actions. The conditional action in the B3 list is only performed once when the current independent scene is in the (S3 end) state. And after the execution is finished, switching the current independent scene to the next independent scene.

The above description is only for illustrative purposes and does not limit the technical solutions of the present application in any way.

As can be easily found from the above description, in this embodiment, a binary tree judgment structure is established by acquiring a scene number selected by a user and a corresponding clearance condition; acquiring a first scene number and first scene sensor information entered by a user, judging the first scene sensor information by using a binary tree judging structure, acquiring a first judging result and starting a second scene; acquiring a second scene number and second scene sensor information entered by a user, judging the first scene sensor information by using a binary tree judgment structure, and acquiring a second judgment result; and judging the first judgment result and the second judgment result according to the binary tree judgment structure, and starting a final scene. In the embodiment, by establishing the binary tree judgment structure, the unified control of the process among multiple scenes of live-action entertainment can be realized, the use of multiple scene resources is saved, the process control precision is improved, and the user experience is improved.

In addition, the embodiment of the invention also provides an automatic flow control device for live-action entertainment. As shown in fig. 4, the automatic flow control device for live-action entertainment includes: the structure determination module comprises a structure establishing module 10, a first judging module 20, a second judging module 30 and a final judging module 40.

The structure establishing module 10 is configured to obtain a scene number selected by a user, extract a corresponding clearance condition from a local scene clearance condition library according to the scene number, and establish a corresponding binary tree judgment structure according to the clearance condition;

the first judgment module 20 is configured to obtain a first scene number entered by a user and corresponding first scene sensor information in real time, judge the first scene number and the corresponding first scene sensor information according to a binary tree judgment structure, obtain a first judgment result, and start a second scene according to the first judgment result;

the second judgment module 30 is configured to obtain a second scene number entered by the user and corresponding second scene sensor information in real time, judge the second scene number and the corresponding second scene sensor information according to the binary tree judgment structure, and obtain a second judgment result;

and a final judgment module 40, configured to judge the first judgment result and the second judgment result according to the binary tree judgment structure, obtain a final judgment result, and open a final scene according to the final judgment result.

In addition, it should be noted that the above-described embodiments of the apparatus are merely illustrative, and do not limit the scope of the present invention, and in practical applications, a person skilled in the art may select some or all of the modules to implement the purpose of the embodiments according to actual needs, and the present invention is not limited herein.

In addition, the technical details that are not described in detail in this embodiment can be referred to the automatic flow control method for live-action entertainment provided by any embodiment of the present invention, and are not described herein again.

In addition, an embodiment of the present invention further provides a medium, where the medium is a computer medium, and the computer medium stores a program of an automatic flow control method for live-action entertainment, and when executed by a processor, the program of the automatic flow control method for live-action entertainment implements the following operations:

s1, acquiring a scene number selected by a user, extracting a corresponding clearance condition from a local scene clearance condition library according to the scene number, and establishing a corresponding binary tree judgment structure according to the clearance condition;

s2, acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, judging the first scene number and the corresponding first scene sensor information according to a binary tree judgment structure, acquiring a first judgment result, and starting a second scene according to the first judgment result;

s3, acquiring a second scene number entered by the user and corresponding second scene sensor information in real time, and judging the second scene number and the corresponding second scene sensor information according to the binary tree judging structure to acquire a second judging result;

and S4, judging the first judgment result and the second judgment result according to the binary tree judgment structure to obtain a final judgment result, and starting a final scene according to the final judgment result.

Further, the automatic flow control method for live-action entertainment further realizes the following operations when the program is executed by the processor:

the method comprises the steps of obtaining a scene number selected by a user, extracting a corresponding clearance condition from a local scene clearance condition library according to the scene number, wherein the clearance condition consists of at least two independent conditions, obtaining the scene number selected by the user, extracting the corresponding clearance condition from the local scene clearance condition library according to the scene number, generating a root node and a leaf node of a binary tree according to the clearance condition, and establishing a corresponding binary tree judgment structure according to the root node and the leaf node.

Further, the automatic flow control method for live-action entertainment further realizes the following operations when the program is executed by the processor:

and establishing a corresponding binary tree judgment structure through the root node and the leaf node according to the relationship between the clearance condition and the independent condition.

Further, the automatic flow control method program for live-action entertainment further realizes the following operations when executed by the processor:

the method comprises the steps of acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, selecting a corresponding root node and a leaf node connected with the root node from a binary tree judgment structure according to the first scene number, judging independent conditions corresponding to the first scene sensor information and the leaf node, acquiring a judgment result as a first judgment result, and starting a second scene according to the first judgment result.

Further, the automatic flow control method for live-action entertainment further realizes the following operations when the program is executed by the processor:

establishing a reading mode, wherein the reading mode is a subsequent traversal reading mode, reading the corresponding root node and the leaf node connected with the root node through the subsequent traversal reading mode, acquiring the arrangement information of the leaf node and the following node, judging the independent condition corresponding to the first scene sensor information and the leaf node according to the arrangement information, acquiring a judgment result as a first judgment result, and starting a second scene according to the first judgment result.

Further, the automatic flow control method program for live-action entertainment further realizes the following operations when executed by the processor:

judging the first scene sensor information and the independent condition corresponding to the leaf node according to the arrangement information, outputting judgment information meeting the condition when the first scene sensor information meets the independent condition corresponding to the leaf node, and taking the judgment information as a first judgment result; and when the first scene sensor information does not meet the independent condition corresponding to the leaf node, outputting judgment information which does not meet the condition, and acquiring the first scene sensor information again.

Further, the automatic flow control method program for live-action entertainment further realizes the following operations when executed by the processor:

and presetting a final scene opening condition, judging the first judgment result and the second judgment result according to the binary tree judgment structure, acquiring a final judgment result, comparing the final scene opening condition with the final judgment result, and opening the final scene when the final judgment result meets the final scene opening condition.

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, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (7)

1. A flow automatic control method of live-action entertainment is characterized in that: comprises the following steps;

s1, acquiring a scene number selected by a user, extracting a corresponding clearance condition from a local scene clearance condition library according to the scene number, and establishing a corresponding binary tree judgment structure according to the clearance condition; the method comprises the following steps of S1, acquiring a scene number selected by a user, extracting a corresponding clearance condition from a local scene clearance condition library according to the scene number, wherein the clearance condition consists of at least two independent conditions, acquiring the scene number selected by the user, extracting the corresponding clearance condition from the local scene clearance condition library according to the scene number, generating a root node and a leaf node of a binary tree according to the clearance condition, and establishing a corresponding binary tree judgment structure according to the root node and the leaf node; generating a root node and a leaf node of a binary tree according to the clearance condition, and establishing a corresponding binary tree judgment structure according to the root node and the leaf node;

s2, acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, judging the first scene number and the corresponding first scene sensor information according to a binary tree judgment structure, acquiring a first judgment result, and starting a second scene according to the first judgment result; step S2, acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, selecting a corresponding root node and a leaf node connected with the root node from a binary tree judgment structure according to the first scene number, judging an independent condition corresponding to the first scene sensor information and the leaf node, acquiring a judgment result as a first judgment result, and starting a second scene according to the first judgment result;

s3, acquiring a second scene number entered by the user and corresponding second scene sensor information in real time, and judging the second scene number and the corresponding second scene sensor information according to the binary tree judging structure to acquire a second judging result;

and S4, judging the first judgment result and the second judgment result according to the binary tree judgment structure to obtain a final judgment result, and starting a final scene according to the final judgment result.

2. The automatic flow control method for live-action entertainment as claimed in claim 1, wherein: and establishing a reading mode, wherein the reading mode is a subsequent traversal reading mode, the corresponding root node and the leaf node connected with the root node are read through the subsequent traversal reading mode, the arrangement information of the leaf node and the root node is obtained, the first scene sensor information and the independent condition corresponding to the leaf node are judged according to the arrangement information, the judgment result is obtained as a first judgment result, and a second scene is started according to the first judgment result.

3. The method for automatically controlling the flow of live-action entertainment of claim 2, wherein: judging the first scene sensor information and the independent condition corresponding to the leaf node according to the arrangement information, acquiring a judgment result as a first judgment structure, starting a second scene according to the first judgment result, and judging the first scene sensor information and the independent condition corresponding to the leaf node according to the arrangement information; and when the first scene sensor information does not meet the independent condition corresponding to the leaf node, outputting judgment information which does not meet the condition, and acquiring the first scene sensor information again.

4. A method for automatically controlling the flow of live-action entertainment as claimed in claim 3, wherein: and step S4, judging the first judgment result and the second judgment result according to the binary tree judgment structure to obtain a final judgment result, and starting a final scene according to the final judgment result.

5. An automatic flow control device for live-action entertainment, comprising:

the structure establishing module is used for acquiring a scene number selected by a user, extracting a corresponding clearance condition from a local scene clearance condition library according to the scene number, and establishing a corresponding binary tree judgment structure according to the clearance condition; the method specifically comprises the following steps of obtaining a scene number selected by a user, extracting a corresponding customs condition from a local scene customs condition library according to the scene number, wherein the customs condition consists of at least two independent conditions, obtaining the scene number selected by the user, extracting the corresponding customs condition from the local scene customs condition library according to the scene number, generating a root node and a leaf node of a binary tree according to the customs condition, and establishing a corresponding binary tree judgment structure according to the root node and the leaf node; generating a root node and a leaf node of a binary tree according to the clearance condition, and establishing a corresponding binary tree judgment structure according to the root node and the leaf node;

the first judgment module is used for acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, judging the first scene number and the corresponding first scene sensor information according to a binary tree judgment structure, acquiring a first judgment result, and starting a second scene according to the first judgment result; the method specifically comprises the following steps of acquiring a first scene number entered by a user and corresponding first scene sensor information in real time, selecting a corresponding root node and a leaf node connected with the root node from a binary tree judgment structure according to the first scene number, judging independent conditions corresponding to the first scene sensor information and the leaf node, acquiring a judgment result as a first judgment result, and starting a second scene according to the first judgment result;

the second judgment module is used for acquiring a second scene number entered by the user and corresponding second scene sensor information in real time, judging the second scene number and the corresponding second scene sensor information according to the binary tree judgment structure and acquiring a second judgment result;

and the final judgment module is used for judging the first judgment result and the second judgment result according to the binary tree judgment structure, acquiring a final judgment result and starting a final scene according to the final judgment result.

6. An apparatus, characterized in that the apparatus comprises: a memory, a processor and a process automation control method program of live-action entertainment stored on the memory and executable on the processor, the process automation control method program of live-action entertainment being configured to implement the steps of the process automation control method of live-action entertainment as claimed in any one of claims 1 to 4.

7. A medium, characterized in that the medium is a computer medium, on which a process automatic control method program of live-action entertainment is stored, which when executed by a processor implements the steps of the process automatic control method of live-action entertainment according to any one of claims 1 to 4.

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