CN116483198B - Interactive control method, system and equipment for virtual motion scene - Google Patents

Abstract

The embodiment of the application provides an interaction control method, an interaction control system and interaction control equipment for a virtual motion scene, wherein the current motion guiding type of a motion guiding node which is associated with a motion path of a current scene is obtained in the process that a virtual experience user moves towards a target virtual motion position, and then a motion interaction strategy which corresponds to the virtual experience user when the target virtual motion position is completed based on a standard motion task index is determined based on continuous parameters which correspond to the current motion guiding type of the motion guiding node, and after the cloud server determines the corresponding motion interaction strategy, the current motion guiding type of the motion guiding node can be combined to control the virtual experience user to output current interaction control reminding data so that the virtual experience user can complete virtual interaction of the target virtual motion position based on the generated interaction control reminding data, and the interaction control reliability of the virtual experience user in the virtual motion process is ensured.

Description

Interactive control method, system and equipment for virtual motion scene

Technical Field

The application relates to the technical field of computers, in particular to an interactive control method, an interactive control system and interactive control equipment for a virtual motion scene.

Background

The virtual reality is also called a smart technology or an artificial environment, and particularly refers to a brand-new man-machine interaction means created by means of a computer and a latest sensor technology. The virtual reality is to generate a virtual world in a three-dimensional space by utilizing and simulating a computer, and provide the simulation of the sense of vision, hearing, touch and the like for a user, so that the user can observe things in the three-dimensional space in time and without limitation as if the user is in the scene. Based on the above, a virtual motion experience scheme based on a virtual reality technology has been developed, and related virtual experience users can complete the experience of virtual motion in different VR scenes of a virtual reality terminal by means of a virtual motion experience device. However, in the related technical solutions, in the virtual interaction flow of the virtual experience user and the target virtual motion position, the related effective interaction control reminding is lacking, and the reliability of interaction control of the virtual experience user in the virtual motion process cannot be effectively ensured.

Disclosure of Invention

In view of the above, the present application aims to provide an interactive control method, system and device for virtual motion scenes.

Based on a first aspect of the present application, an interaction control method of a virtual motion scene is provided, and the method is applied to a cloud server, and comprises the following steps:

Acquiring a current scene motion path of the virtual experience user moving to a target virtual motion position and a current motion guide type of a motion guide node associated with the current scene motion path; the current motion guidance type is determined from the motion guidance node including a plurality of motion guidance types;

Acquiring a continuous parameter corresponding to the current motion guiding type, and determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index based on the current motion guiding type of the motion guiding node and the corresponding continuous parameter;

Outputting current interaction control reminding data to virtual motion experience equipment corresponding to the virtual experience user based on the motion interaction strategy and the current motion guidance type of the motion guidance node, wherein the interaction control reminding data is configured to guide the virtual experience user to complete virtual interaction of the target virtual motion position based on the motion interaction strategy; the interaction control reminding data generated for different motion guiding types or corresponding to different motion interaction strategies are different.

In a possible implementation manner of the first aspect, the method further includes:

Acquiring scene motion path information of the current scene motion path, wherein the scene motion path information of the current scene motion path is configured to guide at least one piece of motion directivity information based on the virtual experience user when the current scene motion path moves;

The method comprises the steps of obtaining target motion directivity information of a virtual experience user when the current scene motion path moves, and determining the current motion guide type of a motion guide node associated with the current scene motion path when at least one piece of motion directivity information according to the scene motion path information of the current scene motion path covers the target motion directivity information.

In a possible implementation manner of the first aspect, the current scene motion path of the virtual experience user motion belongs to a target virtual motion scene, and the target virtual motion scene comprises at least one scene motion path; the obtaining the scene motion path information of the current scene motion path includes:

Acquiring current experience node information of the virtual experience user, and acquiring path scene information and motion directivity information according to each scene motion path in the target virtual motion scene from a scene index library; the current experience node information represents user experience configuration information of the virtual experience user;

Determining candidate scene motion paths with intersections with the user experience configuration information of the virtual experience user from the target virtual motion scene based on the user experience configuration information of the virtual experience user and path scene information of each scene motion path in the target virtual motion scene;

And taking the candidate scene motion path as a current scene motion path, and taking the motion directivity information according to the candidate scene motion path as scene motion path information of the current scene motion path.

In a possible implementation manner of the first aspect, the acquiring scene motion path information of the current scene motion path includes:

Acquiring motion event data currently generated by the virtual experience user, and acquiring pointing guidance information of the motion path of the current scene from the motion event data; the pointing guidance information characterizes target movement directivity information of the current scene movement path;

Matching the motion directivity information according to the current scene motion path acquired from a scene index library with target motion directivity information indicated by the pointing guidance information, and taking the target motion directivity information as scene motion path information of the current scene motion path when the matching result indicates that the motion directivity information acquired from the scene index library is consistent with the target motion directivity information;

Otherwise, the motion directivity information according to the current scene motion path in the scene index library is adjusted according to the target motion directivity information indicated by the pointing guidance information, and the target motion directivity information is used as the scene motion path information of the current scene motion path.

In a possible implementation manner of the first aspect, the obtaining target motion directivity information of the virtual experience user when the current scene motion path moves includes:

acquiring a movement direction reminding component associated with the virtual experience user, and acquiring a first movement point of the virtual experience user in a movement direction reminding window and a second movement point of a target virtual movement position to be driven by the virtual experience user in a corresponding movement direction reminding window of the movement direction reminding component when the movement direction reminding component is successfully acquired;

And acquiring a directional guide channel moving from the first moving point to the second moving point from the movement directional reminding component, and taking movement directivity information indicated in the directional guide channel as target movement directivity information of the virtual experience user moving in the current scene movement path.

In a possible implementation manner of the first aspect, when any motion directivity information according to the scene motion path information of the current scene motion path is different from the target motion directivity information; the method further comprises the steps of:

Acquiring other scene motion paths which are required to be switched by the virtual experience user when the virtual experience user maintains the target motion directivity information to move to the target virtual motion position, and acquiring path switching information between the current scene motion path and the other scene motion paths;

and outputting interaction control reminding data for switching the scene motion paths to the virtual experience user based on the other scene motion paths to be switched by the virtual experience user and the path switching information.

In a possible implementation manner of the first aspect, when the current motion guidance type of the motion guidance node is: guiding the virtual experience user to stop moving when the virtual experience user moves to the target virtual movement position; the motion guidance node further comprises a motion guidance type comprising: a second motion guidance type that guides virtual interactions that complete the target virtual motion location; the determining, based on the current motion guidance type of the motion guidance node and the corresponding duration parameter, a motion interaction policy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index includes:

Acquiring current motion activity rhythm data of the virtual experience user, and determining an estimated guiding type corresponding to the motion guiding node when the virtual experience user performs motion interaction to the target virtual motion position according to the current motion activity rhythm data and the continuous parameters of the first motion guiding type;

When the estimated guidance type is the first motion guidance type, determining that a motion interaction strategy corresponding to virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is: moving to the target virtual movement position based on the compliance movement activity rhythm data, and finishing virtual interaction of the target virtual movement position when the target virtual movement position stops moving until the movement guiding type of the movement guiding node is a second movement guiding type;

When the estimated guidance type is the second motion guidance type, current interaction cost information between the virtual experience user and the target virtual motion position is obtained, and a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position is determined according to the current interaction cost information and the second motion guidance type;

And determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard-reaching motion task index according to the current interaction cost information and the second motion guidance type, wherein the motion interaction strategy comprises the following steps:

determining a first interaction duration parameter of virtual interaction of the virtual experience user based on the current motion activity rhythm data and the current interaction cost information of the virtual experience user and corresponding current motion activity rhythm data; wherein the first interaction duration parameter is not less than a duration parameter corresponding to a first motion guidance type of the motion guidance node;

Obtaining a maintenance interaction continuous parameter of the second motion guidance type, and determining a motion interaction strategy corresponding to the virtual interaction of the virtual experience user when the virtual interaction of the target virtual motion position is completed based on the standard motion task index when the first interaction continuous parameter is larger than the continuous parameter and smaller than the sum of the continuous parameter and the maintenance interaction continuous parameter, wherein the motion interaction strategy is as follows: delaying completion of virtual interaction of the target virtual motion position;

Otherwise, determining that the motion interaction strategy corresponding to the virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is as follows: and maintaining the current athletic activity rhythm data to complete virtual interaction of the target virtual athletic location.

In a possible implementation manner of the first aspect, the determining, based on the current motion guidance type of the motion guidance node and the corresponding duration parameter, a motion interaction policy corresponding to virtual interaction of the virtual experience user in completing the target virtual motion position based on the up-to-standard motion task index includes:

when the motion guiding type of the motion guiding node is a second motion guiding type for guiding the virtual interaction of the target virtual motion position, determining whether the virtual experience user can finish the target virtual motion position based on the standard-reaching motion task index based on the current motion activity rhythm data of the virtual experience user and the continuous parameters of the second motion guiding type;

If yes, determining that a motion interaction strategy corresponding to virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is as follows: maintaining the current exercise activity rhythm data to complete virtual interaction of the target virtual exercise position;

If not, based on the current interaction cost information between the virtual experience user and the target virtual motion position, determining whether the motion boosting cooperation can be performed and the target virtual motion position is completed based on the standard-reaching motion task index, and determining that the virtual interaction strategy corresponding to the virtual interaction of the virtual experience user in the process of completing the target virtual motion position based on the standard-reaching motion task index is as follows: and the motion boosting cooperation completes the virtual interaction of the target virtual motion position, otherwise, the motion interaction strategy corresponding to the virtual interaction of the virtual experience user for completing the target virtual motion position based on the standard motion task index is determined as follows: and delaying completion of the virtual interaction of the target virtual motion position.

Based on a second aspect of the present application, a cloud server is provided, where the virtual motion experience device includes a machine-readable storage medium and a processor, where the machine-readable storage medium stores machine-executable instructions, and the processor implements the foregoing interactive control method of the virtual motion scene when executing the machine-executable instructions.

Based on a third aspect of the present application, there is provided an interactive control device for a virtual motion scene, the interactive control device for a virtual motion scene including a computer-readable storage medium having stored therein machine-executable instructions that, when executed, implement the foregoing interactive control method for a virtual motion scene.

According to any one of the above aspects, in the present application, during the process that the virtual experience user moves towards the target virtual motion position, the current motion guiding type of the motion guiding node associated with the motion path of the current scene is obtained, and then, based on the continuous parameter corresponding to the current motion guiding type of the motion guiding node, the motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index is determined, and after the cloud server determines the corresponding motion interaction strategy, the current motion guiding type of the motion guiding node can be combined to control the virtual experience user to output the current interaction control reminding data, so that the virtual experience user completes the virtual interaction of the target virtual motion position based on the generated interaction control reminding data, the virtual interaction control of the virtual experience user based on the motion event of the virtual experience user and the motion guiding type of the motion guiding node is realized, and further, the reliability of the interaction control of the virtual experience user in the virtual motion process is ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present application and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

Fig. 1 is a schematic flow chart of an interaction control method of a virtual motion scene provided by an embodiment of the present application;

fig. 2 is a schematic component structure of a cloud server for implementing the above-mentioned interaction control method for virtual motion scenes according to an embodiment of the present application.

Description of the embodiments

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it should be understood that the accompanying drawings in the present application are for the purpose of illustration and description only, and are not intended to limit the scope of the present application. In addition, it should be understood that the schematic drawings are not drawn to scale. A flowchart, as used in this disclosure, illustrates operations implemented in accordance with some embodiments of the present application. It should be understood that the operations of the flow diagrams may be implemented out of order and that steps without logical context may be performed in reverse order or concurrently. Furthermore, one or more other operations may be added to the flow chart or one or more operations may be destroyed from the flow chart as directed by those skilled in the art in light of the present disclosure.

Fig. 1 is a flow chart illustrating an interaction control method of a virtual motion scene according to an embodiment of the present application, and it should be understood that in other embodiments, the sequence of part of steps in the interaction control method of a virtual motion scene of the present embodiment may be shared with each other according to actual needs, or part of the steps may be omitted or maintained. The interactive control method of the virtual motion scene comprises the following steps of:

Step S101, a current scene motion path of a virtual experience user moving towards a target virtual motion position and a current motion guide type of a motion guide node associated with the current scene motion path are obtained; the current motion guidance type is determined from a motion guidance node comprising a plurality of motion guidance types.

The cloud server, during a virtual experience user's movement along a current scene movement path to a target virtual movement location, the current scene movement path of the virtual experience user's movement belongs to a target virtual movement scene, and the target virtual movement scene includes at least one scene movement path, and in addition, a movement guiding component is loaded at the target virtual movement location with respect to each scene movement path in the target virtual movement scene, the movement guiding component including one or more movement guiding nodes, and one of the movement guiding nodes being associable with one of the scene movement paths of the target virtual movement scene. Based on the motion guidance nodes associated with each scene motion path, the corresponding motion guidance nodes can carry out interaction control on the motion state of the virtual experience user moving in the corresponding scene motion path by presenting different motion guidance types, wherein the three motion guidance types are respectively a first motion guidance type for guiding the virtual experience user to stop moving when moving and interacting to the target virtual motion position, a second motion guidance type for guiding the interaction of the completed target virtual motion position, and a third motion guidance type for delaying the motion to the target virtual motion position and stopping moving.

In the process that the cloud server moves in the target virtual moving scene, a current scene moving path of the virtual experience user moving in the target virtual moving scene can be determined first, and after the current scene moving path is determined, a moving guide type corresponding to a moving guide node associated with the current scene moving path is further determined, so that guiding can be performed based on the moving guide type currently corresponding to the moving guide node. For some exemplary design ideas, the cloud server may first obtain scene motion path information of a current scene motion path when taking a current motion guidance type of a motion guidance node associated with the current scene motion path, the scene motion path information of the current scene motion path being configured to guide: the virtual experience user moves in the current scene movement path, and at least one piece of movement directivity information is based on the virtual experience user; then, the cloud server can acquire target motion directivity information of the virtual experience user when the current scene motion path moves, and acquire the current motion guidance type of the motion guidance node associated with the current scene motion path when at least one piece of motion directivity information according to the scene motion path information of the current scene motion path covers the target motion directivity information. In other words, the cloud server acquires the current motion guidance type of the motion guidance node associated with the current scene motion path when the cloud server determines that the motion directivity information of the virtual experience user is the motion directivity information according to the current scene motion path, that is, the cloud server acquires the current motion guidance type of the motion guidance node when the virtual experience user moves based on the guided motion task.

The cloud server can firstly acquire current experience node information of a virtual experience user, and acquire path scene information and basis motion directivity information of each scene motion path in a target virtual motion scene from a scene index library; the current experience node information represents user experience configuration information of the virtual experience user; the cloud server can determine candidate scene motion paths which intersect with the user experience configuration information of the virtual experience user from the target virtual motion scene based on the user experience configuration information of the virtual experience user and path scene information of each scene motion path in the target virtual motion scene; then the candidate scene motion path is used as the current scene motion path, and the motion directivity information according to the candidate scene motion path is used as the scene motion path information of the current scene motion path.

The cloud server can also acquire motion event data currently generated by the virtual experience user, and acquire pointing guidance information of a current scene motion path from the motion event data; the directional guide information represents target movement directivity information of a current scene movement path; then, the cloud server can match the motion directivity information according to the current scene motion path obtained from the scene index library with the target motion directivity information indicated by the pointing guide information, and takes the target motion directivity information as the scene motion path information of the current scene motion path when the matching result indicates that the motion directivity information obtained from the scene index library is consistent with the target motion directivity information; otherwise, the cloud server may adjust the motion directivity information according to the current scene motion path in the scene index library based on the target motion directivity information indicated by the pointing guidance information, and then may use the target motion directivity information as the scene motion path information of the current scene motion path.

When the cloud server acquires target movement directivity information of a virtual experience user in the movement of a current scene movement path, a movement direction reminding component associated with the virtual experience user can be acquired first, and when the movement direction reminding component is successfully acquired, a first movement point of the virtual experience user in a movement direction reminding window and a second movement point of a target virtual movement position to be driven by the virtual experience user in the movement direction reminding window corresponding to the movement direction reminding component are acquired; further, the cloud server can acquire a directional guide channel from the first moving point to the second moving point from the moving directional reminding component, and takes the moving directivity information indicated in the directional guide channel as target moving directivity information for virtually experiencing the movement of the user in the current scene moving path.

After determining the target motion directivity information of the virtual experience user when the current scene motion path runs and at least one piece of motion directivity information according to the current scene motion path according to the target motion directivity information, if the cloud server determines that any piece of motion directivity information according to the scene motion path information of the current scene motion path is different from the target motion directivity information, the cloud server can control the virtual experience user to output interaction control reminding data for switching the scene motion path. In a specific implementation, the cloud server can firstly acquire other scene motion paths which are required to be switched by the virtual experience user when the virtual experience user maintains the target motion directivity information to move to the target virtual motion position, and acquire path switching information between the current scene motion path and the other scene motion paths; further, the virtual experience user can control the virtual experience user to output interactive control reminding data for switching the scene motion path based on other scene motion paths and path switching information which the virtual experience user needs to switch.

Step S102, obtaining a continuous parameter corresponding to the current motion guiding type, and determining a motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index based on the current motion guiding type of the motion guiding node and the corresponding continuous parameter.

When the cloud server determines that the current scene motion path is consistent with the target motion directivity information of the virtual experience user, besides the current motion guidance type of the motion guidance node associated with the current scene motion path, the cloud server also needs to acquire a duration parameter (such as effective duration) corresponding to the current motion guidance type, so that a motion interaction strategy of the virtual experience user when passing through the target virtual motion position can be determined based on the duration parameter.

When the cloud server determines a motion interaction strategy corresponding to a virtual experience user when a target virtual motion position is completed based on standard motion task indexes based on the current motion guiding type and corresponding continuous parameters of the motion guiding nodes, current motion activity rhythm data of the virtual experience user can be acquired first, and the estimated guiding type corresponding to the motion guiding nodes when the virtual experience user performs motion interaction to the target virtual motion position is determined based on the current motion activity rhythm data and the continuous parameters of the first motion guiding type; further, when the cloud server determines that the estimated guidance type is the first motion guidance type, it may determine that a motion interaction policy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index is: moving to a target virtual movement position based on the compliance movement activity rhythm data, and stopping moving at the target virtual movement position until the movement guiding type of the movement guiding node is a second movement guiding type, and passing through the target virtual movement position; when the cloud server determines that the estimated guiding type is the second motion guiding type, current interaction cost information between the virtual experience user and the target virtual motion position can be obtained, and a motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index is determined based on the current interaction cost information and the second motion guiding type.

For some exemplary design ideas, when determining a motion interaction strategy corresponding to a virtual experience user when completing a target virtual motion position based on standard motion task indexes based on current interaction cost information and a second motion guide type, the cloud server may determine a first interaction duration parameter (denoted as G1) of the virtual experience user completing virtual interaction of the target virtual motion position based on the current motion activity rhythm data based on the current interaction cost information and the corresponding current motion activity rhythm data of the virtual experience user; wherein the first interaction duration parameter is not less than a duration parameter (denoted as G2) corresponding to a first motion guidance type of the motion guidance node; in addition, the cloud server may further obtain a maintenance interaction duration parameter (denoted as G3) of the second motion guidance type, so that the cloud server may determine, when the first interaction duration parameter is greater than the duration parameter and less than a sum of the duration parameter and the maintenance interaction duration parameter, that is, when G2< G1< (g2+g3), a motion interaction policy corresponding to the virtual experience user when completing the target virtual motion position based on the standard-reaching motion task index is: decelerating through the virtual motion position of the target; otherwise, when (G2+G3) is less than or equal to G1, determining that the motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index is as follows: current athletic activity cadence data is maintained through the target virtual athletic location. When the cloud server determines that the first interaction duration parameter G1 is smaller than the sum of the duration parameter and the interaction duration parameter (i.e., g2+g3) for maintaining the interaction duration parameter, the cloud server may determine that the motion guidance node may determine that the virtual experience user has sufficient time to pass through the target virtual motion position within the duration parameter of the second motion guidance type corresponding to the motion guidance node of the target virtual motion position after the motion interaction to the target virtual motion position after the virtual experience user completes the virtual interaction of the target virtual motion position through the G1 interaction duration parameter. In addition, if the cloud server determines that the virtual experience user is not less than the sum of the duration parameter and the interaction duration parameter (i.e., g2+g3) of the duration parameter and the maintenance interaction duration parameter, it indicates that the virtual experience user can pass through the target virtual motion position after the motion interaction to the target virtual motion position.

For some exemplary design ideas, when determining the first interaction duration parameter of the virtual interaction of the virtual experience user for completing the target virtual motion position based on the current motion activity rhythm data, the cloud server not only needs to determine the current motion activity rhythm data of the virtual experience user, but also determines the interaction cost information between the virtual experience user and the target virtual motion position, wherein the interaction cost information between the virtual experience user and the target virtual motion position is the interaction cost information between the virtual experience user and the motion guiding node.

After determining the current interaction cost information between the virtual experience user and the motion guidance node, the cloud server can further combine the current motion guidance type of the motion guidance node and corresponding continuous parameters to determine a motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index, wherein when determining the motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index, the cloud server can determine whether the virtual experience user can complete the target virtual motion position based on the current motion activity rhythm data of the virtual experience user based on the standard motion task index when the motion guidance type of the motion guidance node is a second motion guidance type (the motion guidance type allowing the target virtual motion position to pass through) indicating the permission. When determining that the virtual experience user can complete the target virtual motion position based on the standard motion task index based on the current motion activity rhythm data, the cloud server can determine that the motion interaction strategy corresponding to the virtual experience user when completing the target virtual motion position based on the standard motion task index is as follows: maintaining the current exercise activity rhythm data through the target virtual exercise position; or if the cloud server determines that the virtual experience user cannot complete the target virtual motion position based on the standard-reaching motion task index based on the current motion activity rhythm data, determining whether the virtual experience user can perform motion boosting collaboration and complete the target virtual motion position based on the standard-reaching motion task index based on the current interaction cost information between the virtual experience user and the target virtual motion position, and determining that the motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard-reaching motion task index is: the motion boosting cooperation passes through the target virtual motion position, otherwise, the motion interaction strategy corresponding to the virtual experience user when the target virtual motion position is completed based on the standard motion task index is determined as follows: and delaying completion of the virtual interaction of the target virtual motion position.

After determining the current motion interaction policy, the cloud server may output the interaction control reminder data based on the motion interaction policy and the current motion guidance type of the motion guidance node, and then step S103 may be executed instead.

Step S103, based on the motion interaction strategy and the current motion guiding type of the motion guiding node, outputting current interaction control reminding data to the virtual motion experience equipment corresponding to the virtual experience user, wherein the interaction control reminding data is configured to guide the virtual experience user to complete virtual interaction of the target virtual motion position based on the motion interaction strategy; the interaction control reminding data generated for different motion guiding types or corresponding to different motion interaction strategies are different.

The cloud server may first obtain current interaction cost information between the virtual experience user and the target virtual motion position, current motion directivity information, and scene motion path information of a current motion scene motion path, further, the cloud server may determine, based on the motion directivity information according to the scene motion path information, whether the motion directivity information according to the current scene motion path is consistent with the motion directivity information of the virtual experience user, for some exemplary design ideas, if the cloud server determines that the motion directivity information according to the current scene motion path is inconsistent with the motion directivity information of the virtual experience user, the cloud server may obtain a current motion guidance type of a motion guidance node associated with the current scene motion path, and when determining that the motion guidance type is a first motion guidance type, obtain a target duration parameter of the first motion guidance type, and when determining that the virtual experience user cannot complete the target virtual motion position based on the target duration parameter, determine that the virtual interaction strategy corresponding to the virtual interaction of the virtual experience user at the target virtual motion position based on the target motion task index is a stop motion strategy. In another implementation manner, if the cloud server determines that the current motion guidance type of the motion guidance node associated with the current scene motion path is the second motion guidance type, the cloud server may further determine whether the virtual experience user can pass through the target virtual motion position after motion assistance coordination in a compliance motion activity state after the cloud server determines that the target virtual motion position can be completed based on the compliance motion task index, or if the cloud server cannot acquire the target duration parameter of the second motion guidance type, determine that a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position is to maintain normal motion after completion of the virtual interaction based on the compliance motion task index, and if the cloud server determines that the target virtual motion position cannot be completed based on the compliance motion task index based on the target duration parameter of the second motion guidance type, further determine whether the virtual experience user can pass through the target virtual motion position after motion assistance coordination in the compliance motion activity state, thereby determine that the virtual experience user can reach the virtual interaction strategy corresponding to the compliance motion virtual motion position after completion of the target virtual motion interaction based on the motion task index, and if the virtual interaction strategy corresponding to the compliance motion interaction position is not reach the compliance motion interaction strategy is to be determined to be based on the compliance motion interaction strategy virtual interaction position. In addition, in other exemplary design ideas, if the cloud server determines that the current motion guidance type of the motion guidance node associated with the current scene motion path is the third motion guidance type, the cloud server may determine that the motion interaction policy corresponding to the virtual interaction of the virtual experience user in completing the virtual interaction of the target virtual motion position based on the up-to-standard motion task index is a manner of delaying motion to stop motion at the target virtual motion position.

Based on the steps, in the process that the virtual experience user moves towards the target virtual motion position, the current motion guiding type of the motion guiding node which is related to the motion path of the current scene is obtained, further, based on continuous parameters corresponding to the current motion guiding type of the motion guiding node, the motion interaction strategy which corresponds to the virtual experience user when the target virtual motion position is completed based on the standard motion task index is determined, after the cloud server determines the corresponding motion interaction strategy, the current motion guiding type of the motion guiding node can be combined, the virtual experience user is controlled to output current interaction control reminding data, so that the virtual experience user completes virtual interaction of the target virtual motion position based on the generated interaction control reminding data, virtual interaction control of the virtual experience user based on the motion event of the virtual experience user and the motion guiding type of the motion guiding node is achieved, and further, the reliability of interaction control of the virtual experience user in the virtual motion process is guaranteed.

Fig. 2 schematically illustrates a cloud server 100 that may be used to implement various embodiments described in the present disclosure.

For one embodiment, fig. 2 shows a cloud server 100, the cloud server 100 having one or more processors 102, a control module (chipset) 104 coupled to one or more of the processor(s) 102, a memory 106 coupled to the control module 104, a non-volatile memory (NVM)/storage 108 coupled to the control module 104, one or more input/output devices 110 coupled to the control module 104, and a network interface 112 coupled to the control module 106.

The processor 102 may include one or more single-core or multi-core processors, and the processor 102 may include any combination of general-purpose or special-purpose processors (e.g., graphics processors, application processors, baseband processors, etc.). In some exemplary design considerations, the cloud server 100 can be used as a cloud server device such as a gateway in the embodiments of the present application.

In some example design considerations, cloud server 100 may include one or more computer-readable media (e.g., memory 106 or NVM/storage 108) having instructions 114 and one or more processors 102, in conjunction with the one or more computer-readable media, configured to execute instructions 114 to implement modules to perform actions described in this disclosure.

For one embodiment, the control module 104 may include any suitable interface controller to provide any suitable interface to one or more of the processor(s) 102 and/or any suitable device or component in communication with the control module 104.

The control module 104 may include a memory controller module to provide an interface to the memory 106. The memory controller modules may be hardware modules, software modules, and/or firmware modules.

Memory 106 may be used, for example, to load and store data and/or instructions 114 for cloud server 100. For one embodiment, memory 106 may comprise any suitable volatile memory, such as, for example, a suitable DRAM. In some exemplary design considerations, memory 106 may comprise double data rate chunking tag four synchronous dynamic random access memory (DDR 4 SDRAM).

For one embodiment, control module 104 may include one or more input/output controllers to provide interfaces to NVM/storage 108 and input/output device(s) 110.

For example, NVM/storage 108 may be used to store data and/or instructions 114. NVM/storage 108 may include any suitable nonvolatile memory (e.g., flash memory) and/or may include any suitable nonvolatile storage(s) (e.g., one or more Hard Disk Drives (HDDs), one or more Compact Disc (CD) drives, and/or one or more Digital Versatile Disc (DVD) drives).

NVM/storage 108 may include storage resources that are physically part of the device on which cloud server 100 is installed, or may be accessible by the device without necessarily being part of the device. For example, NVM/storage 108 may be accessed via input/output device(s) 110 according to a network.

Input/output device(s) 110 may provide an interface for cloud server 100 to communicate with any other suitable device, and input/output device 110 may include a communication component, pinyin component, sensor component, and the like. The network interface 112 may provide an interface for the cloud server 100 to communicate in accordance with one or more networks, and the cloud server 100 may wirelessly communicate with one or more components of a wireless network in accordance with any of one or more wireless network standards and/or protocols, such as accessing a wireless network in accordance with a communication standard.

For one embodiment, one or more of the processor(s) 102 may be loaded with logic of one or more controllers (e.g., memory controller modules) of the control module 104. For one embodiment, one or more of the processor(s) 102 may be loaded together with logic of one or more controllers of the control module 104 to form a system level load. For one embodiment, one or more of the processor(s) 102 may be integrated on the same mold as logic of one or more controllers of the control module 104. For one embodiment, one or more of the processor(s) 102 may be integrated on the same die with logic of one or more controllers of the control module 104 to form a system on chip (SoC).

The foregoing has outlined rather broadly the more detailed description of embodiments of the application, wherein the principles and embodiments of the application are explained in detail using specific examples, the above examples being provided solely to facilitate the understanding of the method and core concepts of the application; meanwhile, as those skilled in the art will change the specific embodiments and application scope based on the idea of the present application, the present disclosure should not be construed as limiting the present application.

Claims (8)

1. An interactive control method of a virtual motion scene is characterized by being applied to a cloud server, and comprises the following steps:

Acquiring a current scene motion path of a virtual experience user moving to a target virtual motion position and a current motion guide type of a motion guide node associated with the current scene motion path; the current motion guidance type is determined from the motion guidance node including a plurality of motion guidance types;

Acquiring a continuous parameter corresponding to the current motion guiding type, and determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index based on the current motion guiding type of the motion guiding node and the corresponding continuous parameter;

Outputting current interaction control reminding data to virtual motion experience equipment corresponding to the virtual experience user based on the motion interaction strategy and the current motion guidance type of the motion guidance node, wherein the interaction control reminding data is configured to guide the virtual experience user to complete virtual interaction of the target virtual motion position based on the motion interaction strategy; wherein, the interaction control reminding data generated for different motion guiding types or corresponding to different motion interaction strategies are different;

When the current motion guidance type of the motion guidance node is: guiding the virtual experience user to stop moving when the virtual experience user moves to the target virtual movement position; the motion guidance node further comprises a motion guidance type comprising: a second motion guidance type that guides the virtual interaction of the target virtual motion position, and a third motion guidance type that delays the motion to the target virtual motion position and stops the motion; the determining, based on the current motion guidance type of the motion guidance node and the corresponding duration parameter, a motion interaction policy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index includes:

Acquiring current motion activity rhythm data of the virtual experience user, and determining an estimated guiding type corresponding to the motion guiding node when the virtual experience user performs motion interaction to the target virtual motion position according to the current motion activity rhythm data and the continuous parameters of the first motion guiding type;

When the estimated guidance type is the first motion guidance type, determining that a motion interaction strategy corresponding to virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is: moving to the target virtual movement position based on the compliance movement activity rhythm data, and finishing virtual interaction of the target virtual movement position when the target virtual movement position stops moving until the movement guiding type of the movement guiding node is a second movement guiding type;

When the estimated guidance type is the second motion guidance type, current interaction cost information between the virtual experience user and the target virtual motion position is obtained, and a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position is determined according to the current interaction cost information and the second motion guidance type;

And determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard-reaching motion task index according to the current interaction cost information and the second motion guidance type, wherein the motion interaction strategy comprises the following steps:

determining a first interaction duration parameter of virtual interaction of the virtual experience user based on the current motion activity rhythm data and the current interaction cost information of the virtual experience user and corresponding current motion activity rhythm data; wherein the first interaction duration parameter is not less than a duration parameter corresponding to a first motion guidance type of the motion guidance node;

Obtaining a maintenance interaction continuous parameter of the second motion guidance type, and determining a motion interaction strategy corresponding to the virtual interaction of the virtual experience user when the virtual interaction of the target virtual motion position is completed based on the standard motion task index when the first interaction continuous parameter is larger than the continuous parameter and smaller than the sum of the continuous parameter and the maintenance interaction continuous parameter, wherein the motion interaction strategy is as follows: delaying completion of virtual interaction of the target virtual motion position;

Otherwise, determining that the motion interaction strategy corresponding to the virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is as follows: maintaining the current exercise activity rhythm data to complete virtual interaction of the target virtual exercise position;

or determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index based on the current motion guiding type of the motion guiding node and the corresponding continuous parameter, including:

when the motion guiding type of the motion guiding node is a second motion guiding type for guiding the virtual interaction of the target virtual motion position, determining whether the virtual experience user can finish the target virtual motion position based on the standard-reaching motion task index based on the current motion activity rhythm data of the virtual experience user and the continuous parameters of the second motion guiding type;

If yes, determining that a motion interaction strategy corresponding to virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is as follows: maintaining the current exercise activity rhythm data to complete virtual interaction of the target virtual exercise position;

If not, based on the current interaction cost information between the virtual experience user and the target virtual motion position, determining whether the motion boosting cooperation can be performed and the target virtual motion position is completed based on the standard-reaching motion task index, and determining that the virtual interaction strategy corresponding to the virtual interaction of the virtual experience user in the process of completing the target virtual motion position based on the standard-reaching motion task index is as follows: and the motion boosting cooperation completes the virtual interaction of the target virtual motion position, otherwise, the motion interaction strategy corresponding to the virtual interaction of the virtual experience user for completing the target virtual motion position based on the standard motion task index is determined as follows: and delaying completion of the virtual interaction of the target virtual motion position.

2. The interactive control method of a virtual sports scene according to claim 1, further comprising:

Acquiring scene motion path information of the current scene motion path, wherein the scene motion path information of the current scene motion path is configured to guide at least one piece of motion directivity information based on the virtual experience user when the current scene motion path moves;

The method comprises the steps of obtaining target motion directivity information of a virtual experience user when the current scene motion path moves, and determining the current motion guide type of a motion guide node associated with the current scene motion path when at least one piece of motion directivity information according to the scene motion path information of the current scene motion path covers the target motion directivity information.

3. The interactive control method of a virtual motion scene according to claim 2, wherein the current scene motion path of the virtual experience user motion belongs to a target virtual motion scene, the target virtual motion scene comprising at least one scene motion path; the obtaining the scene motion path information of the current scene motion path includes:

Acquiring current experience node information of the virtual experience user, and acquiring path scene information and motion directivity information according to each scene motion path in the target virtual motion scene from a scene index library; the current experience node information represents user experience configuration information of the virtual experience user;

Determining candidate scene motion paths with intersections with the user experience configuration information of the virtual experience user from the target virtual motion scene based on the user experience configuration information of the virtual experience user and path scene information of each scene motion path in the target virtual motion scene;

And taking the candidate scene motion path as a current scene motion path, and taking the motion directivity information according to the candidate scene motion path as scene motion path information of the current scene motion path.

4. The interactive control method of a virtual moving scene according to claim 2, wherein the acquiring scene motion path information of the current scene motion path includes:

Acquiring motion event data currently generated by the virtual experience user, and acquiring pointing guidance information of the motion path of the current scene from the motion event data; the pointing guidance information characterizes target movement directivity information of the current scene movement path;

Matching the motion directivity information according to the current scene motion path acquired from a scene index library with target motion directivity information indicated by the pointing guidance information, and taking the target motion directivity information as scene motion path information of the current scene motion path when the matching result indicates that the motion directivity information acquired from the scene index library is consistent with the target motion directivity information;

Otherwise, the motion directivity information according to the current scene motion path in the scene index library is adjusted according to the target motion directivity information indicated by the pointing guidance information, and the target motion directivity information is used as the scene motion path information of the current scene motion path.

5. The method for controlling interaction of a virtual motion scene according to claim 2, wherein the obtaining target motion directivity information of the virtual experience user when the current scene motion path moves comprises:

acquiring a movement direction reminding component associated with the virtual experience user, and acquiring a first movement point of the virtual experience user in a movement direction reminding window and a second movement point of a target virtual movement position to be driven by the virtual experience user in a corresponding movement direction reminding window of the movement direction reminding component when the movement direction reminding component is successfully acquired;

And acquiring a directional guide channel moving from the first moving point to the second moving point from the movement directional reminding component, and taking movement directivity information indicated in the directional guide channel as target movement directivity information of the virtual experience user moving in the current scene movement path.

6. The interactive control method of a virtual moving scene according to claim 2, wherein when any moving directivity information according to scene moving path information of the current scene moving path is different from the target moving directivity information; the method further comprises the steps of:

Acquiring other scene motion paths which are required to be switched by the virtual experience user when the virtual experience user maintains the target motion directivity information to move to the target virtual motion position, and acquiring path switching information between the current scene motion path and the other scene motion paths;

and outputting interaction control reminding data for switching the scene motion paths to the virtual experience user based on the other scene motion paths to be switched by the virtual experience user and the path switching information.

7. An interaction control system of a virtual motion scene is characterized in that the interaction control system of the virtual motion scene comprises a cloud server and virtual motion experience equipment which is in communication connection with the cloud server, wherein the cloud server is particularly used for:

Acquiring a current scene motion path of a virtual experience user moving to a target virtual motion position and a current motion guide type of a motion guide node associated with the current scene motion path; the current motion guidance type is determined from the motion guidance node including a plurality of motion guidance types;

Acquiring a continuous parameter corresponding to the current motion guiding type, and determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index based on the current motion guiding type of the motion guiding node and the corresponding continuous parameter;

Outputting current interaction control reminding data to virtual motion experience equipment corresponding to the virtual experience user based on the motion interaction strategy and the current motion guidance type of the motion guidance node, wherein the interaction control reminding data is configured to guide the virtual experience user to complete virtual interaction of the target virtual motion position based on the motion interaction strategy; wherein, the interaction control reminding data generated for different motion guiding types or corresponding to different motion interaction strategies are different;

When the current motion guidance type of the motion guidance node is: guiding the virtual experience user to stop moving when the virtual experience user moves to the target virtual movement position; the motion guidance node further comprises a motion guidance type comprising: a second motion guidance type that guides the virtual interaction of the target virtual motion position, and a third motion guidance type that delays the motion to the target virtual motion position and stops the motion; the determining, based on the current motion guidance type of the motion guidance node and the corresponding duration parameter, a motion interaction policy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index includes:

Acquiring current motion activity rhythm data of the virtual experience user, and determining an estimated guiding type corresponding to the motion guiding node when the virtual experience user performs motion interaction to the target virtual motion position according to the current motion activity rhythm data and the continuous parameters of the first motion guiding type;

When the estimated guidance type is the first motion guidance type, determining that a motion interaction strategy corresponding to virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is: moving to the target virtual movement position based on the compliance movement activity rhythm data, and finishing virtual interaction of the target virtual movement position when the target virtual movement position stops moving until the movement guiding type of the movement guiding node is a second movement guiding type;

When the estimated guidance type is the second motion guidance type, current interaction cost information between the virtual experience user and the target virtual motion position is obtained, and a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position is determined according to the current interaction cost information and the second motion guidance type;

And determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard-reaching motion task index according to the current interaction cost information and the second motion guidance type, wherein the motion interaction strategy comprises the following steps:

determining a first interaction duration parameter of virtual interaction of the virtual experience user based on the current motion activity rhythm data and the current interaction cost information of the virtual experience user and corresponding current motion activity rhythm data; wherein the first interaction duration parameter is not less than a duration parameter corresponding to a first motion guidance type of the motion guidance node;

Obtaining a maintenance interaction continuous parameter of the second motion guidance type, and determining a motion interaction strategy corresponding to the virtual interaction of the virtual experience user when the virtual interaction of the target virtual motion position is completed based on the standard motion task index when the first interaction continuous parameter is larger than the continuous parameter and smaller than the sum of the continuous parameter and the maintenance interaction continuous parameter, wherein the motion interaction strategy is as follows: delaying completion of virtual interaction of the target virtual motion position;

Otherwise, determining that the motion interaction strategy corresponding to the virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is as follows: maintaining the current exercise activity rhythm data to complete virtual interaction of the target virtual exercise position;

or determining a motion interaction strategy corresponding to virtual interaction of the virtual experience user at the target virtual motion position based on the standard motion task index based on the current motion guiding type of the motion guiding node and the corresponding continuous parameter, including:

when the motion guiding type of the motion guiding node is a second motion guiding type for guiding the virtual interaction of the target virtual motion position, determining whether the virtual experience user can finish the target virtual motion position based on the standard-reaching motion task index based on the current motion activity rhythm data of the virtual experience user and the continuous parameters of the second motion guiding type;

If yes, determining that a motion interaction strategy corresponding to virtual interaction of the virtual experience user in completing the target virtual motion position based on the standard motion task index is as follows: maintaining the current exercise activity rhythm data to complete virtual interaction of the target virtual exercise position;

If not, based on the current interaction cost information between the virtual experience user and the target virtual motion position, determining whether the motion boosting cooperation can be performed and the target virtual motion position is completed based on the standard-reaching motion task index, and determining that the virtual interaction strategy corresponding to the virtual interaction of the virtual experience user in the process of completing the target virtual motion position based on the standard-reaching motion task index is as follows: and the motion boosting cooperation completes the virtual interaction of the target virtual motion position, otherwise, the motion interaction strategy corresponding to the virtual interaction of the virtual experience user for completing the target virtual motion position based on the standard motion task index is determined as follows: and delaying completion of the virtual interaction of the target virtual motion position.

8. An interactive control device for a virtual sports scene, characterized in that the interactive control device for a virtual sports scene comprises a computer-readable storage medium, in which machine-executable instructions are stored, which when executed by a computer implement the interactive control method for a virtual sports scene according to any one of claims 1-6.