WO2022246822A1 - 赛事活动运行仿真系统、方法、设备及存储介质 - Google Patents

赛事活动运行仿真系统、方法、设备及存储介质 Download PDF

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Publication number
WO2022246822A1
WO2022246822A1 PCT/CN2021/096894 CN2021096894W WO2022246822A1 WO 2022246822 A1 WO2022246822 A1 WO 2022246822A1 CN 2021096894 W CN2021096894 W CN 2021096894W WO 2022246822 A1 WO2022246822 A1 WO 2022246822A1
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Prior art keywords
event
design
virtual
event operation
plan
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PCT/CN2021/096894
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English (en)
French (fr)
Inventor
宋昊明
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视伴科技(北京)有限公司
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Priority to PCT/CN2021/096894 priority Critical patent/WO2022246822A1/zh
Publication of WO2022246822A1 publication Critical patent/WO2022246822A1/zh

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F3/00Input arrangements for transferring data to be processed into a form capable of being handled by the computer; Output arrangements for transferring data from processing unit to output unit, e.g. interface arrangements
    • G06F3/01Input arrangements or combined input and output arrangements for interaction between user and computer
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F30/00Computer-aided design [CAD]
    • G06F30/20Design optimisation, verification or simulation
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06FELECTRIC DIGITAL DATA PROCESSING
    • G06F2111/00Details relating to CAD techniques
    • G06F2111/18Details relating to CAD techniques using virtual or augmented reality

Definitions

  • the present application relates to the field of virtual reality technology, for example, to an event running simulation system, method, device and storage medium.
  • Virtual reality is the use of computers to generate a virtual world and simulate the real environment. With the help of necessary equipment and perceptions of sight, hearing, and touch, users interact and influence each other with objects in the virtual environment, making virtual reality interactive. Sexuality, imagination, immersion and other characteristics.
  • Virtual reality technology can be widely used in military, medical and film and television industries.
  • event operation designers need to often go to the event venue for on-site surveys, and design event operation design schemes based on design drawings. Due to the complexity of the event scene and the lack of intuitive design drawings, it brings a lot of inconvenience to the design work of the event operation design scheme.
  • Embodiments of the present application provide an event running simulation system, method, device, and storage medium.
  • the embodiment of the present application provides an event operation simulation system, including:
  • the event virtual scene display module and the event operation design scheme simulation module connected to the event virtual scene display module;
  • the event virtual scene display module is set to display the event virtual scene;
  • the event virtual scene is a three-dimensional virtual scene of the event, and the event virtual scene is a virtual model established according to preset event venue data ;
  • the simulation module of the event operation design plan is set to simulate the operation design plan of the event event; the event operation design plan is integrated with the virtual scene of the event event, and the event operation design plan includes Design parameters for virtual objects.
  • An embodiment of the present application provides a method for running a simulation system using an event, and the method for running a simulation system using an event includes:
  • the event operation design plan is simulated to run.
  • An embodiment of the present application provides an electronic device, including:
  • a memory configured to store at least one program
  • the at least one processor When the at least one program is executed by the at least one processor, the at least one processor is made to implement the method for running a simulation system using event activities as described above.
  • An embodiment of the present application provides a computer-readable storage medium, the computer-readable storage medium stores a computer program, and the computer program is configured to perform the above-mentioned method for running a simulation system using an event when running.
  • Fig. 1 is a schematic structural diagram of an event operation simulation system provided by an embodiment of the present application
  • Fig. 2 is a schematic diagram of an event operation design scheme provided by the embodiment of the present application.
  • Fig. 3 is a schematic structural diagram of another kind of event operation simulation system provided by the embodiment of the present application.
  • FIG. 4 is a schematic diagram of the staged architecture of the event operation simulation system provided by the embodiment of the present application.
  • Fig. 5 is a schematic structural diagram of another kind of event operation simulation system provided by the embodiment of the present application.
  • FIG. 6 is a schematic structural diagram of another event operation simulation system provided by the embodiment of the present application.
  • FIG. 7 is a schematic structural diagram of another event operation simulation system provided by the embodiment of the present application.
  • FIG. 8 is a schematic structural diagram of another event operation simulation system provided by the embodiment of the present application.
  • FIG. 9 is a schematic flowchart of a method for running a simulation system using an event provided by an embodiment of the present application.
  • FIG. 10 is a schematic flow diagram of another method for running a simulation system using an event provided by an embodiment of the present application.
  • Fig. 11 is a screenshot of adding a virtual photography device in the free view screen according to the embodiment of the present application.
  • Fig. 12 is a screenshot showing the viewing angle range of the virtual photography device in the top view screen according to the embodiment of the present application.
  • Figures 13a-13c are screenshots of different viewing angles in the cross-sectional view angle screen of the embodiment of the present application.
  • Fig. 14 is a screenshot of the shooting effect of the virtual photography device in the virtual image screen according to the embodiment of the present application.
  • Fig. 15 is a virtual guide preview screen and virtual guide screen display screenshots of the embodiment of the present application.
  • FIG. 16 is a schematic structural diagram of an electronic device provided by an embodiment of the present application.
  • Fig. 1 is a schematic structural diagram of an event operation simulation system provided by the embodiment of the present application. As shown in Fig. 1, a kind of event operation simulation system provided by the embodiment of the application includes:
  • the event virtual scene display module 1 and the event operation design scheme simulation module 2 connected to the event virtual scene display module 1;
  • the event virtual scene display module 1 is set to display the event virtual scene; the event virtual scene is a three-dimensional virtual scene of the event, and the event virtual scene is a virtual scene established according to preset event venue data. Model; events can include cultural and sports activities.
  • the virtual model is a visualized model simulating a real event scene.
  • the virtual scene of the event mainly includes virtual scenes inside and outside the venue.
  • the virtual scene of the event can be developed through Unity.
  • the virtual object models in the event virtual scene all have three-dimensional geographic location coordinates; wherein, the preset event venue data includes geographical environment data and planning and design data.
  • Geographical environment data can be obtained through drone aerial photography, and planning and design data can be obtained from OB (Overlay Book, Temporary Construction Atlas) drawings, which are dedicated electronic drawings for event operation design.
  • the simulation module 2 of the event operation design plan is set to simulate the operation design plan of the event event; the event operation design plan is integrated with the virtual scene of the event event, and the event operation design plan includes The design parameters of the virtual object.
  • the event operation design scheme is designed by the event operation designer and used to simulate the event operation.
  • the event operation design plan is to, in view of the specific requirements of the building and environment in the event, based on the building, site design and current conditions of the event location, the space allocation, pedestrian and Information on the arrangement and arrangement of temporary facilities required for vehicle flow and operation.
  • the running design scheme of the event may be simulated in a dynamic display manner, wherein the dynamic display manner may include animation.
  • Virtual objects can be understood as objects in the simulation system, and entity objects can be understood as objects that exist in the real world.
  • entity objects include real camera devices, and virtual objects corresponding to real camera devices are virtual camera devices.
  • Virtual camera devices The design parameters of can include pose data and shooting parameters, etc.
  • the corresponding action triggered by the user is the trigger condition for the execution of the subsequent steps of the application.
  • the content of the subsequent steps changes according to the corresponding actions of the user, and the subsequent steps are helpful to assist the user. Carry out the next work.
  • the embodiment of the present application improves the work efficiency of the event operation design scheme design, because it does not require the user to conduct on-site surveys, operate real equipment objects, and can simulate the scene truly and intuitively through the virtual model, without design drawings, and does not rely on the user's own wishes and experience etc.
  • the virtual object parameters in the event operation design scheme can also be exported, and the virtual object parameters can be assigned to the physical object.
  • the event operation designer can intuitively and realistically browse the effect of the event operation design.
  • the virtual object model and the virtual object parameters all correspond to the virtual object.
  • the event operation designer can design the event operation design plan through the event operation design simulation module 2 and peripherals (such as mouse, keyboard, joystick, etc.), for example, the steps may include:
  • the event operation designer determines whether to modify the event operation design scheme through the above-mentioned peripherals.
  • the design data of the event operation design can be exported to physical devices related to the event operation design, such as real cameras.
  • the real camera may be controlled to move according to the shooting position of the virtual camera, and the real camera moves to a real shooting position corresponding to the shooting position of the virtual camera.
  • the shooting parameters of the virtual camera may be assigned to the shooting parameters of the real camera, and the real camera operates based on the shooting parameters of the virtual camera.
  • the real camera can establish a communication connection with the event running simulation system in advance.
  • the event operation design scheme may include at least one of the following:
  • the layered design plan of the event building can include the layered design plan of the venue.
  • the ground part of a venue is layered into 1st floor L1, 2nd floor L2, and 3rd floor L3.
  • the venues corresponding to L1, L2, and L3 can be displayed
  • L1 is level1, representing the first layer, and the same is true for other layers, so I won’t repeat them here.
  • the event broadcasting service design proposal may include related design proposals serving broadcasting, for example, virtual camera selection design proposals, placement design proposals, and shooting parameter design proposals.
  • the personnel point design plan for the event may include the number of relevant personnel and personnel location design scheme for at least one registration area.
  • the design proposal for building materials and materials for events may include related design proposals for building materials and materials in the venue, such as the location design of furniture and seats.
  • Temporary buildings refer to building facilities that are temporarily built before the event and demolished after the event on the basis of permanent buildings to ensure the smooth progress of the event.
  • Temporary buildings may include temporary houses, Temporary stands, temporary bridges and temporary barrier-free facilities, etc.
  • Design schemes for temporary facilities for events may include, for example, podium position design schemes and simple house design schemes.
  • the event image landscape design scheme may include the landscape design scheme including the event mascot, the sponsor advertising column design scheme, etc.
  • the design scheme for the arrangement of security props for events may include the design scheme for the arrangement of props for security, such as the design scheme for fence layout and gate layout design scheme.
  • the design of the core venue of the event involves the core venue.
  • the core venue of the stadium is the competition venue, where athletes compete.
  • the corresponding design scheme is the design scheme related to the core site.
  • the event streamline design scheme may include related design schemes for people streamlines and vehicle streamlines.
  • the flow line design plan includes the flow line design plan for the audience and the flow line design plan for the media interviewers.
  • the streamline design scheme simulates the streamline line design of media reporters walking in the venue. Different colors can be used to distinguish the above-mentioned different personnel, and the arrow direction is used to indicate the direction of personnel walking along the streamline line.
  • the main content of the design plan for the functional zoning of events is to design the use space for the business entrance, detail the operation requirements, and reflect the detailed arrangement of the use space and the equipment of operation facilities.
  • the functional zoning design plan of the event is to refine and deepen the distribution and layout of the operating space, resource allocation, and streamline relationship.
  • the functional zoning design plan for events and activities may include the regional location design plan and regional area design plan of at least one functional room.
  • Fig. 2 is the schematic diagram of the event operation design scheme provided by the embodiment of the present application. As shown in Fig. 2, Fig. 2 simulates elements such as auditorium, rostrum and display large screen, and these elements form the virtual scene of event event, event event.
  • Fig. 2 simulates elements such as auditorium, rostrum and display large screen, and these elements form the virtual scene of event event, event event.
  • the integration of the virtual scene and the streamline design scheme of the above-mentioned events makes it possible to express the operation design scheme of the event in a scene-based and intuitive manner.
  • simulation operation of the event activities through the above-mentioned event streamline design scheme can dynamically display the flow speed and direction of the streamline in Figure 2.
  • the event operation design plan includes the placement of camera A, which can be seen in the virtual scene of the event, and the content of the screen shot by camera A is included in the virtual scene of the event.
  • the location and the scene are integrated, and the content of the shooting screen is also integrated with the scene.
  • FOP Field of Play
  • rotation represents the rotation angle
  • the event operation design plan can be uploaded to the official system, which is the official release system.
  • the official personnel of the event can review the uploaded event operation design plan by visiting the official system. If the event After the event operation design plan is approved, the reviewed event operation design plan can be released to all relevant event operation designers.
  • the system displays the text information of the review failure and the reason. Conduct an audit, and then follow the corresponding steps above based on the audit results.
  • the event running simulation system is also set to:
  • the event organizer may include the event organizing committee, and the user authority of the event organizing committee may include browsing all event operation design schemes designed by the event operation designer.
  • the event operation simulation system provided by the embodiment of the present application, through the combination of the event virtual scene display module and the event operation design simulation module, enables the integration of the event operation design plan and the event virtual scene, which can be simulated intuitively and realistically. Run the event operation design plan to improve the work efficiency of the event operation design plan design.
  • Fig. 3 is a schematic structural diagram of another event operation simulation system provided by the embodiment of the present application. As shown in Fig. 3, the event operation design scheme simulation module 2 is included in each in a design functional subsystem.
  • each design function subsystem corresponds to the user design authority of the corresponding event operation designer.
  • the event operation designers of sports events include broadcast service companies, authorized broadcasters, TV stations, partner sponsors, broadcast service agencies, venue owners, and venue planning designers.
  • the user design authority of the broadcast service company includes the design authority of the event broadcast service design
  • the user design authority of the venue planning designer includes the streamline design of the event. design authority.
  • the design function subsystem A corresponds to the design authority of the event broadcast service design
  • the design function subsystem B corresponds to the design authority of the event streamline design
  • the broadcasting service company can use the design function subsystem A to carry out the event broadcasting service design, but cannot use the design function subsystem B to carry out the streamline design of the event event.
  • the event operation designer includes the event broadcast service party; correspondingly, the event operation design simulation module 2 in the design function subsystem corresponding to the user design authority is set to: simulate the operation of the The game event broadcast service design plan designed by the event event broadcast service provider.
  • the event operation designer includes design service parties other than the event broadcast service provider; correspondingly, the event operation design scheme simulation in the design function subsystem corresponding to the user design authority Module 2 is set to: simulate and run at least one of the following design schemes designed by other design service providers:
  • Event streamline design plan event function zoning design plan, event event personnel point design plan and event event temporary facility design plan.
  • the design scheme for the operation of the above events can refer to the above description.
  • the event operation simulation system provided by the embodiment of this application, through the correspondence between the simulation module of the event operation design scheme and each design functional subsystem, enables the event operation designers with different user design authority to compare and match with the event
  • the operation designer shall design the matching event operation design plan to ensure that each event operation designer can design the corresponding event operation design plan independently of each other.
  • the event operation design scheme simulation module 2 is further configured to: simulate an event operation design plan respectively corresponding to at least one event operation stage.
  • Fig. 4 is a schematic diagram of the staged architecture of the event operation simulation system provided by the embodiment of the application.
  • VSS Vehicle Simulation Services
  • VBS Virtual Broadcasting Services
  • VOD Visualized Operational Design
  • 3D 3- dimension, three-dimensional
  • the design function subsystem A corresponding to the design authority of the game event broadcast service design is the VBS version in Figure 4.
  • the broadcast service company can use the design function subsystem A to design the game event broadcast service design plan .
  • the design functional subsystem B corresponding to the design authority of the event streamline design is the VOD version in Figure 4.
  • Venue planning designers can use the design functional subsystem B to design the event streamline design scheme.
  • multiple event operation stages may include the event bidding stage, corresponding to the bidding period in Figure 4; the basic planning stage of event activities, corresponding to the basic planning stage in Figure 4; the special event planning stage, corresponding to Figure 4 The special planning stage in 4; the event test preparation stage, which corresponds to the test readiness stage in Figure 4; the event-time operation stage, which corresponds to the game-time operation stage in Figure 4; the event summary and aftermath stage, which corresponds to the Summarize the aftermath phase.
  • the description of the operation stages of the above-mentioned multiple events is as follows:
  • the event bidding stage refers to the preparation of event bidding materials and the simulation plan of unbuilt venues.
  • the basic planning stage of the event includes site analysis, which includes: analysis of the site environment, analysis of the hardware conditions of the venue itself, traffic conditions around the venue, municipal infrastructure design conditions, and landscape environment and functional space.
  • the basic planning stage of the competition activities also includes the content of operation planning, which includes: operation zoning planning, registration zoning planning, streamline organization design and standard unit design.
  • the basic planning stage of the event activities also includes the determination of the operation plan.
  • the determination of the operation plan includes: the content of the results of the operation plan, the confirmation of the results of the operation plan, and the stability of the operation plan.
  • the event test readiness stage includes the design and implementation of temporary facilities, including: materials and furniture, wayfinding signs, image landscapes and temporary buildings.
  • the test readiness stage of the competition activities also includes operational drills, which include tabletop drills, field test drills and emergency drills.
  • the preparation stage for event testing also includes the preparation stage of material personnel, which includes logistics distribution, familiarity with the working environment of multiple business ports, personnel training and equipment debugging.
  • the operation stage of the event includes the design and implementation of temporary facilities.
  • the design and implementation of temporary facilities include: the operation team arranges tasks, organizes multiple work projects and technologies, and performs maintenance guarantees according to the operation design drawings.
  • the running stage of the game activities also includes venue conversion, that is, switching between different competition venues.
  • the running stage of the event also includes the main operation center, namely MOC (Main Operation Center).
  • MOC Main Operation Center
  • the aftermath stage includes the removal period, which includes: removal of materials and equipment, demolition of temporary facilities, and restoration of the venue.
  • the sequence of the running phases of the above-mentioned multiple events is arranged according to the sequence in which the events are run.
  • the event operation phase includes the event-specific planning stage; correspondingly, in the event-specific planning stage, the event operation design scheme simulation module 2 is set to:
  • the event event Rebroadcasting service providers may include rebroadcasting service companies, authorized rebroadcasters and TV stations, etc. Refer to the above instructions for the design scheme of the event broadcasting service.
  • At least one of the following event operation design schemes in the event-specific planning stage of other design service providers other than the event broadcast service provider is simulated:
  • Event streamline design plan, event function zoning design plan, event standard unit design plan, material and furniture design plan, event event temporary facility design plan and event event core site design plan Refer to the above instructions for the streamline design plan of the event, the functional zoning plan for the event event, the temporary facility design plan for the event event, and the core site design plan for the event event.
  • the standard unit design plan for event activities refers to the unitized and standardized design of similar facilities in different locations required for the same event or activity.
  • the standard unit design plan for event activities helps to improve the speed and quality of operational design.
  • the material and furniture design plan is included in the scope of the special system design of the event.
  • the material and furniture design plan refers to the office furniture and electrical appliances used in the temporary arrangement of the work space.
  • the material and furniture design plan refers to the design of the event operation. General terminology.
  • At least one event operation phase includes the event basic planning stage; correspondingly, in the event basic planning stage, the event operation design scheme simulation module 2 corresponding to other design service parties is set to : Simulate and run at least one of the following event operation design schemes of the other design service parties in the basic planning stage of the event activities: event streamline design scheme, event function partition design scheme and event activity standard unit design scheme.
  • the basic planning stage of the event is a stage before the special planning stage of the event.
  • the design scheme for the operation of the above events can refer to the above description.
  • At least one event operation phase includes an event test preparation stage; correspondingly, in the event test preparation stage, the event operation design scheme simulation module 2 corresponding to the other design service parties Set as:
  • event temporary facility design plan event core site design plan
  • image landscape design plan material and furniture design Scheme and signage design scheme.
  • the event test readiness stage is a stage after the event-specific planning stage.
  • the design scheme of temporary facilities for events the design scheme of core venues for competition activities, and the design scheme of materials and furniture, please refer to the above instructions.
  • the image landscape design scheme refers to creating a unique, complete and consistent visual image of the project through the design, development and integrated application management of the image elements of the project. Taking a sports event as an example, the image landscape can include the emblem of the sports event, etc.
  • the wayfinding sign design scheme refers to a tool for guiding space and streamlines, and it is also a means of public visual communication.
  • the wayfinding signs solve the problem of spatial guidance in two ways: three-dimensional composition and planar composition.
  • At least one event operation phase includes an event-time operation phase; correspondingly, in the event-time operation phase, the event operation design simulation module 2 facing the other design service parties is set for:
  • the event operation design plan is the event operation design plan modified after confirmation on the event site: The design scheme of temporary facilities for the event, the design scheme of the core venue of the event, the image landscape design scheme, the design scheme of materials and furniture, and the design scheme of wayfinding signs.
  • the event-time-running stage is a stage after the event-test-ready stage.
  • the design scheme for the operation of the above events can refer to the above description.
  • At least one event operation phase includes the event summary and aftercare stage; correspondingly, in the event summary and aftercare stage, the event operation design simulation module 2 corresponding to the other design service providers is set To: Simulate and run the logistics distribution streamline design scheme of the other design service parties in the aftermath stage of the event summary. As shown in Figure 4, the aftermath stage of event summary is a stage after the stage of event operation.
  • the logistics and distribution streamline design scheme for the event may include the logistics and distribution streamline design scheme for the removal of materials and equipment and the demolition of temporary buildings.
  • At least one event operation stage also includes an event event bidding stage; correspondingly, in the event event bidding stage, the event event operation simulation system is also set to:
  • the event organizer may include the event organizing committee, and the user authority of the event organizing committee may include browsing all event operation design schemes designed by the event operation designer, corresponding to viewing the operation scheme in Figure 4.
  • the operation plan in Fig. 4 includes the event operation design plan corresponding to each event operation stage mentioned above.
  • the event operation stage by showing the event operation design plan to the event organizer, it can facilitate the event organizer to manage the event operation design work.
  • the event operation simulation system provided by the embodiment of this application can not only visually express the event operation design scheme in a scene-based manner, but also match the corresponding event operation design plan for each event operation stage, which is convenient for the event operation designer to analyze.
  • Phase design The event operation design plan.
  • FIG. 5 is a schematic structural diagram of another event operation simulation system provided in the embodiment of the present application.
  • FIG. 5 The structure schematic diagram of another kind of event operation simulation system provided by the embodiment of the present application is shown in Fig. 6, and Fig. 6 corresponds to the situation including the design functional subsystem, as shown in Fig. 5 and Fig. 6, the event operation design
  • the scheme simulation module 2 includes the design element operation submodule 21 of the event operation design scheme and the design scheme management submodule 22 connected with the design element operation submodule 21;
  • the design element operation sub-module 21 is configured to provide design elements for operating the event operation design scheme for the event operation designer to design the event operation design plan;
  • the design element of the embodiment of the present application is a simulation Virtual design elements of real design elements.
  • the design element operation sub-module 21 is configured to provide at least one of the following design elements for the event operation designer to design the event operation design scheme:
  • the photographic equipment may include at least one type of virtual camera and lens, as well as auxiliary photographic equipment such as brackets.
  • the sports equipment may include sports equipment for at least one event, such as a puck and a stick for an ice hockey game.
  • Building materials and materials may include building materials and materials arranged inside and outside the venue, such as tables and chairs.
  • Temporary facilities are opposed to fixed facilities; temporary facilities are set up when in use and can be dismantled when not in use, such as award platforms and simple houses.
  • the image landscape may include the landscape of the event mascot, etc.
  • the competition field is the competition field used by the athletes during the competition.
  • Security props can include props for security, such as fences and gates.
  • the image and action of the virtual character of the event can include athletes, spectators, and the host of the opening and closing ceremonies of the event, as well as the corresponding image and action.
  • the visual effect of the virtual scene of the event may include the visual effect of setting off fireworks during the opening and closing ceremonies.
  • the design element operation sub-module 21 can realize the design of the event operation design scheme by providing at least one of the following operation design types:
  • Move operation For example, move design element A from one place to another.
  • Lock operation for example, lock the position of the design element A, so that the position of the design element A will not change according to other conditions.
  • Flip operation For example, rotate the design element A in the vertical plane.
  • Rotation operation For example, rotate the design element A on the horizontal plane.
  • Adsorption operation For example, design element A is adsorbed on design element B, so that design element A is attached to design element B, and linkage is performed.
  • Combination operation For example, combining design element A and design element B, so that design element A and design element B are combined and linked.
  • the difference from the above-mentioned adsorption operation is that there is an attachment relationship in the adsorption operation, but there is no attachment relationship in the combination operation.
  • Scaling operation including reducing or enlarging the size of the design element A.
  • Copy operation You can refer to the operation of copying text.
  • Paste operation refer to the operation of pasting text.
  • Selection operation It can include click operation and box selection operation, etc.
  • Collection operation It can be stored in the personal center, which is convenient for individuals to obtain.
  • the design plan management sub-module 22 is configured to provide a management tool for managing the event operation design plan for the event operation designer to manage the event operation design plan.
  • the event operation designer can manage at least one of the following event operation design schemes:
  • the event operation designer can manage the event operation design plan:
  • Add a new design import a design, save a design, delete a design, modify a design, publish a design, export a design, browse a design, and review a design.
  • New design scheme create a new design scheme.
  • Import design scheme import the saved design scheme.
  • Save the design scheme save the design scheme when the design is completed or during the design process.
  • Delete the design scheme delete the design scheme when the design is completed or during the design process.
  • Modify the design plan that is, modify the design plan during the design process.
  • Publishing the design scheme that is, publishing the design scheme when the design is completed, so that other event operation designers can browse the design scheme.
  • Browsing the design scheme It is to provide the relevant designers with the design scheme with the right to browse the design scheme, so that the above-mentioned relevant designers can browse the design scheme.
  • Review design scheme that is, to provide relevant reviewers with the design plan with the authority to review the design plan, so that the above-mentioned relevant reviewers can review the design plan.
  • the event operation simulation system provided by the embodiment of this application realizes the design of the event operation design plan through the design element operation sub-module to operate the design elements of the event operation design plan, and manages the event operation through the design plan management sub-module
  • the design scheme is convenient for the event operation designer to carry out the design work.
  • FIG. 7 is a schematic structural diagram of another event operation simulation system provided by the embodiment of the present application. As shown in FIG. 7, FIG. The event operation simulation system also includes an event operation design video recording module 3 connected to the event operation design simulation module 2;
  • the event operation design video recording module 3 is configured to: record the video containing the event operation design scheme.
  • the event operation designer can record the video containing the event operation design during the process of designing the event operation design plan, or after the design is completed.
  • multimedia service information such as voice and text, can be added to introduce design ideas and original design highlights.
  • the event relay service provider can upload the video to the official system after the video recording is completed, and the official personnel can review the uploaded video by visiting the official system. Fang released the reviewed video.
  • the event operation simulation system provided by the embodiment of this application can help to fully express the event event broadcast service design plan by means of the recorded video by recording the video containing the event event broadcast service design plan, and facilitate subsequent communication.
  • Fig. 8 is a schematic structural diagram of another event operation simulation system provided by the embodiment of the present application.
  • the design function subsystem also includes an event operation design video recording module 3 connected to the event operation design simulation module 2;
  • the event operation design video recording module 3 is configured to: record the video containing the event operation design scheme.
  • the event operation designer includes the event event broadcast service party; correspondingly, the event event operation design video recording module 3 in the design function subsystem corresponding to the event event broadcast service party's user design authority is set to: Record the video of the rebroadcast service design proposal.
  • the design scheme of the event broadcast service please refer to the above description, and will not repeat it here.
  • the event operation designer includes other design service parties except the event broadcast service party; correspondingly, the event operation design video recording module in the design function subsystem corresponding to the user design authority of other design service parties 3 is set to:
  • Event streamline design plan event function zoning design plan, event event personnel point design plan and event event temporary facility design plan.
  • the event operation simulation system not only helps to fully express the event operation design plan with the help of recorded video, facilitates subsequent communication, but also facilitates event operation designers with different user design rights to record and correspond independently.
  • a video of the running design of the event is not only helps to fully express the event operation design plan with the help of recorded video, facilitates subsequent communication, but also facilitates event operation designers with different user design rights to record and correspond independently.
  • Fig. 9 is a schematic flowchart of a method for running a simulation system using an event provided by an embodiment of the present application. As shown in Fig. 9, a method for running a simulation system using an event provided by an embodiment of the present application includes the following steps:
  • S901 Display the virtual scene of the event.
  • the event operation design plan is simulated to run.
  • the design operation is triggered to simulate and run the event design scheme through design operations, and the effect of the design can be browsed intuitively and instantly, which can efficiently assist event activities
  • the operation designer designs the event operation design scheme.
  • the simulated operation of the event operation design scheme includes:
  • the target interface includes an interface displaying the event operation design scheme, and an interface to be browsed corresponding to the design operation of designing the event operation design scheme .
  • the interface showing the virtual camera placement design scheme is the interface of virtual cameras arranged around the competition venue. These virtual cameras are set to shoot An animation of simulated athlete movement on the playing field.
  • the interface that needs to be browsed to design the placement design scheme of the virtual camera may include the interface of the shooting content of the virtual camera, and the interface of simulating the angle of view of the photographer using the virtual camera to shoot the above-mentioned shooting content.
  • the viewing angle range of the viewing angle may also be displayed in the content viewing angle interface.
  • the interface of the virtual camera arranged around the above-mentioned competition venue, the interface of the shooting content of the virtual camera, and the interface of simulating the angle of view of the photographer using the virtual camera to shoot the above-mentioned shooting content are all target interfaces.
  • the design operation In response to the triggering of the design operation on the target interface, the design operation is simulated, and a simulation running result generated by running the design scheme on the event activity is output.
  • the design operation may be simulated in response to the design operation triggered by the event operation designer according to the target interface, and a simulation operation result generated for the event operation design scheme may be output.
  • the event operation designer can design the camera placement and generate a virtual broadcast video without going to the real camera layout site through the content displayed on the target interface.
  • the method of using the event operation simulation system provided by the embodiment of the present application can more reasonably and effectively assist the event operation designer to design the event operation design scheme through the target interface.
  • the simulation of the design operation and the output of the simulated operation results generated by the operation design scheme of the event activities include:
  • the expected target can be set independently according to the actual objective situation. Referring to the above example, for example, it can be set that the shooting tracking target in the shooting picture is located in the central part of the shooting picture in each frame, and/or, the proportion of the area is greater than The default ratio of the overall picture.
  • the expected target can also be determined independently by the user, as described with reference to the above-mentioned embodiments.
  • the expected goal can also be determined in a manner that combines the above-mentioned actual objective situation and the user's own determination.
  • the method of using the event operation simulation system provided by the embodiment of this application can assist the event operation designer to efficiently design and adjust the event operation design plan accordingly, and browse the simulation operation results in real time, which improves the event operation design work. s efficiency.
  • FIG. 10 is a schematic flow diagram of another method for running a simulation system by using an event provided by an embodiment of the present application.
  • the simulated operation of the event operation design plan in response to the triggering of the design operation of the event operation design plan includes:
  • S1001 In response to the action of adding a virtual photography device triggered by the target position in the free view frame, display the virtual photography device at the target position, and display the virtual photography device in the top view frame according to the preset pose data and the preset pose data of the virtual photography device.
  • the shooting parameters are set to simulate the viewing angle range of the virtual photography device.
  • the adding action of the virtual photography device triggered by the user at the target position in the free view frame can be detected.
  • the user may be the designer of the above-mentioned event operation.
  • the free perspective picture can be understood as a picture corresponding to the shooting perspective formed by rotating the preset angle along the direction of the virtual camera on the basis of the top view perspective.
  • the top-view picture can be understood as a picture taken by a virtual camera in a bird's-eye view.
  • Fig. 11 is a screenshot of the embodiment of the present invention adding a virtual photography device in the free view screen.
  • the user can click anywhere in the screen with the mouse to add a virtual photography device.
  • the added virtual photography device can be
  • the position where the virtual camera is added is the target position
  • the target position of the virtual camera can be adjusted by dragging the virtual camera with the mouse
  • the virtual camera can be adjusted by modifying the specific values in the input box on the right side of Figure 11 parameters, which may include preset pose data and preset shooting parameters, etc.
  • the user can add corresponding virtual photography devices at multiple target locations. Then select the virtual photography device currently to be designed to perform subsequent steps respectively.
  • Fig. 12 is a screenshot of the viewing angle range of the virtual photography device displayed in the top view screen of the embodiment of the present application. Referring to Fig. 12, the user can initially determine whether more virtual photography devices have been added or less virtual photography devices have been added by browsing the viewing angle range. device, and preliminarily determine whether the position setting of the virtual photography device is appropriate.
  • TopView indicates the top view
  • FOV indicates that the interface can be zoomed in
  • the plus sign corresponds to zoom in
  • the minus sign corresponds to zoom out
  • PNG indicates that the interface can be saved as a picture format
  • the picture format can be png.
  • Numerals 1, 3, 4, 5, and 7 in FIG. 12 indicate the numbers of the virtual photography devices.
  • S1002 In response to the triggered confirmation action of the viewing angle range, display position-related parameters of the virtual photography device corresponding to the target position.
  • position-related parameters of the virtual photographing device corresponding to the target position may be displayed in the view angle screen of the cross-sectional view.
  • Figures 13a-13c are screenshots of different viewing angles in the cross-sectional view angle screen of the embodiment of the present application; the cross-sectional view angle screen can be understood as the part corresponding to the color depth part in the right-hand viewing angle range of Figures 13a-13c picture.
  • Cutaway represents a cross-sectional view.
  • the position-related parameters may be displayed on the surrounding borders in Figs. 13a-13c, and the position-related parameters are not shown in the figures.
  • the position-related parameters may include: at least one of the height of the tripod, the viewing angle of the virtual camera, the distance to the northeast corner, the distance to the southwest corner, the distance to the northwest corner, the distance to the southeast corner, the height of the virtual camera device, and the center distance.
  • the height of the tripod refers to: the height of the tripod of the virtual photography device.
  • the angle of view of the virtual photography device refers to the angle of view at the current focal length of the virtual photography device.
  • the northeast corner distance refers to the distance between the virtual photography device and the northeast corner of the competition venue.
  • the southwest corner distance refers to the distance between the virtual photography device and the southwest corner of the competition venue.
  • Northwest corner distance refers to the distance between the virtual photography device and the northwest corner of the competition venue.
  • the southeast corner distance refers to the distance between the virtual photography device and the southeast corner of the competition field.
  • the height of the virtual photography device refers to the height of the virtual photography device from the ground.
  • the central distance refers to the distance between the virtual photography device and the center of the competition field.
  • the user can judge whether the position and/or parameter setting of the virtual photography device is appropriate according to the parameter content of the above-mentioned position-related parameters.
  • the user can make an auxiliary judgment by browsing at least one cross-section in FIG. 13a-FIG. 13c and the corresponding viewing angle range.
  • S1003 In response to the triggered confirmation action of the location-related parameters, display the shooting effect of the virtual photography device in the virtual image frame captured by the virtual photography device.
  • the user may click the confirmation button triggered according to the position-related parameters.
  • the user may return to the free view screen to reset the target position and/or parameters.
  • FIG. 14 is a screenshot of the shooting effect of the virtual photography device in the virtual image screen according to the embodiment of the present application; referring to FIG. 14 , the user can determine whether the target position and/or parameter settings of the virtual photography device are appropriate by browsing the shooting effect.
  • VirtualCamera005 represents the serial number of the virtual camera
  • Focal Length represents the focal length
  • SlectCamera represents the shooting picture taken by the virtual camera
  • Rec is for recording the above shooting picture.
  • the shooting effect can be directly adjusted in Figure 14, including adjusting the focal length and target position, etc.
  • the target position and/or parameters for shooting the shooting effect can be calculated in reverse according to the adjustment data of the shooting effect, which is helpful It is convenient for the user to determine the target position and parameters of the virtual photography device.
  • step S1004 after step S1004, step S1005 and step S1006 may also be included.
  • Fig. 15 is a screenshot of the virtual guide preview screen and the virtual guide screen display in the embodiment of the present application. As shown in Fig. The images are taken by the virtual photography device after the target position and parameters have been adjusted through the steps in the above step S1004.
  • the adjustment action is triggered by the user on the segment of the target virtual image, and/or the sequence of playing the virtual image;
  • the virtual director screen is displayed in the same display screen.
  • the virtual guide screen corresponds to the screen in the PGM, and the virtual image played in the virtual guide screen is the virtual image in the virtual relay video.
  • the target virtual camera can be selected by the user, and PGM represents the target virtual image captured by the target virtual camera that the user is watching.
  • VC represents a virtual camera device, and the numbers below represent corresponding numbers.
  • DUR indicates the corresponding editing duration of each virtual photography device.
  • IN represents the starting moment of editing corresponding to each virtual camera.
  • OUT represents the cut-off time corresponding to each virtual camera.
  • the method for generating a virtual rebroadcast video can be realized by means of a broadcast guide tool in the related art, and the broadcast guide tool is also shown in FIG. 15 .
  • the frames in the PGM are composed of segments in at least one target virtual image, and are composed according to the designed playing sequence. This step completes the simulation operation design of the virtual relay video.
  • the method of using the event operation simulation system provided by the embodiment of the present application determines the target position and parameters of the virtual photography device according to the design principle of extensive first and then detailed, which can efficiently assist the event operation designer to design the event operation design plan.
  • the method also includes: storing each design element in advance in a design element library corresponding to each design element;
  • the corresponding design elements are obtained from each design element library, wherein the design elements are used to design the operation design scheme of the event.
  • photographic equipment can be pre-stored in the photographic equipment library
  • sports equipment can be pre-stored in the sports equipment library.
  • the user designs the event operation design scheme from the corresponding design elements obtained from each design element library.
  • FIG. 16 is a schematic structural diagram of an electronic device provided by an embodiment of the present application. As shown in FIG. 16 , the electronic device includes: one or more processors 110 and a memory 120 . One processor 110 is taken as an example in FIG. 16 .
  • the electronic device may further include: an input device 130 and an output device 140 .
  • the processor 110 , memory 120 , input device 130 and output device 140 in the electronic device may be connected via a bus or in other ways, and connection via a bus is taken as an example in FIG. 16 .
  • the memory 120 can be configured to store software programs, computer-executable programs and modules.
  • the processor 110 executes various functional applications and data processing by running software programs, instructions and modules stored in the memory 120, so as to implement any method in the above-mentioned embodiments.
  • the memory 120 may include a program storage area and a data storage area, wherein the program storage area may store an operating system and an application program required by at least one function; the data storage area may store data created according to use of the electronic device, and the like.
  • the memory may include a volatile memory such as a random access memory (Random Access Memory, RAM), and may also include a non-volatile memory, such as at least one magnetic disk storage device, flash memory device or other non-transitory solid-state storage device.
  • RAM Random Access Memory
  • Memory 120 may be a non-transitory computer storage medium or a transitory computer storage medium.
  • the non-transitory computer storage medium is, for example, at least one magnetic disk storage device, flash memory device or other non-volatile solid-state storage device.
  • the memory 120 may optionally include memory located remotely relative to the processor 110, and these remote memories may be connected to the electronic device through a network. Examples of the above-mentioned network may include Internet, enterprise intranet, local area network, mobile communication network and combinations thereof.
  • the input device 130 can be configured to receive input numbers or character information, and generate key signal input related to user settings and function control of the electronic device.
  • the output device 140 may include a display device such as a display screen.
  • This embodiment also provides a computer-readable storage medium storing computer-executable instructions, and the computer-executable instructions are used to execute the above method.
  • the non-transitory computer-readable storage medium may be a magnetic disk, an optical disk, a read-only memory (Read-Only Memory, ROM) or RAM, etc.
  • the device embodiments described above are only illustrative, and the units described as separate components may or may not be physically separated, and the components shown as units may or may not be physical units, that is, they may be located in One place, or it can be distributed to multiple network elements. Part or all of the modules can be selected according to actual needs to achieve the purpose of the solution of this embodiment. It can be understood and implemented by those skilled in the art without any creative efforts.

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Abstract

一种赛事活动运行仿真系统、方法、设备及存储介质,赛事活动运行仿真系统包括:赛事活动虚拟场景显示模块(1)和赛事活动运行设计方案模拟模块(2);其中,所述赛事活动虚拟场景显示模块(1)设置为显示赛事活动虚拟场景;所述赛事活动运行设计方案模拟模块(2)设置为模拟运行赛事活动运行设计方案;所述赛事活动运行设计方案与所述赛事活动虚拟场景相融合。

Description

赛事活动运行仿真系统、方法、设备及存储介质 技术领域
本申请涉及虚拟现实技术领域,例如涉及一种赛事活动运行仿真系统、方法、设备及存储介质。
背景技术
虚拟现实是利用计算机产生虚拟世界,对真实环境进行模拟,用户借助必要的装备并以视、听、触感等方面的感知,与虚拟环境中的对象进行交互作用、相互影响,使虚拟现实具有交互性、想象性、沉浸感等特点。
虚拟现实技术可以广泛地应用在军事、医疗和影视等行业,对于文体行业中的赛事活动,赛事活动运行设计人员需要经常去赛事活动场地进行实地勘察,并根据设计图纸设计赛事活动运行设计方案,由于赛事活动场景复杂,以及设计图纸表现不够直观,给赛事活动运行设计方案的设计工作带来诸多不便。
发明内容
本申请实施例提供一种赛事活动运行仿真系统、方法、设备及存储介质。
本申请实施例提供一种赛事活动运行仿真系统,包括:
赛事活动虚拟场景显示模块和与所述赛事活动虚拟场景显示模块相连的赛事活动运行设计方案模拟模块;
其中,所述赛事活动虚拟场景显示模块设置为显示赛事活动虚拟场景;所述赛事活动虚拟场景为赛事活动的三维虚拟场景,所述赛事活动虚拟场景是根据预设赛事活动场馆数据建立的虚拟模型;
所述赛事活动运行设计方案模拟模块设置为模拟运行赛事活动运行设计方案;所述赛事活动运行设计方案与所述赛事活动虚拟场景相融合,所述赛事活动运行设计方案包括与实体对象相对应的虚拟对象的设计参数。
本申请实施例提供一种使用赛事活动运行仿真系统的方法,所述使用赛事活动运行仿真系统的方法包括:
显示所述赛事活动虚拟场景;
响应于触发的所述赛事活动运行设计方案的设计操作,模拟运行所述赛事活动运行设计方案。
本申请实施例提供一种电子设备,包括:
至少一个处理器;
存储器,设置为存储至少一个程序,
当所述至少一个程序被所述至少一个处理器执行,使得所述至少一个处理器实现如上述的使用赛事活动运行仿真系统的方法。
本申请实施例提供一种计算机可读存储介质,所述计算机可读存储介质存储有计算机程序,所述计算机程序被设置为运行时执行如上述的使用赛事活动运行仿真系统的方法。
附图说明
图1为本申请实施例提供的一种赛事活动运行仿真系统的结构示意图;
图2为本申请实施例提供的赛事活动运行设计方案的示意图;
图3为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图;
图4为本申请实施例提供的赛事活动运行仿真系统的分阶段架构示意图;
图5为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图;
图6为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图;
图7为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图;
图8为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图;
图9为本申请实施例提供的一种使用赛事活动运行仿真系统的方法的流程示意图;
图10为本申请实施例提供的另一种使用赛事活动运行仿真系统的方法的流程示意图;
图11为本申请实施例在自由视角画面中添加虚拟摄影装置的截图;
图12为本申请实施例在顶视图画面中显示虚拟摄影装置的视角范围的截图;
图13a-图13c为本申请实施例在剖面图视角画面中的不同视角的截图;
图14为本申请实施例在虚拟影像画面中虚拟摄影装置的拍摄效果的截图;
图15为本申请实施例虚拟导播预览画面和虚拟导播画面显示截图;
图16为本申请实施例提供的一种电子设备的结构示意图。
具体实施方式
下面将结合本申请实施例中的附图,对本申请实施例进行清楚、完整地描述。
本申请实施例中说明书附图中的所有内容,都能够满足充分公开的要求。
图1为本申请实施例提供的一种赛事活动运行仿真系统的结构示意图,如图1所示,本申请实施例提供的一种赛事活动运行仿真系统,包括:
赛事活动虚拟场景显示模块1和与赛事活动虚拟场景显示模块1相连的赛事活动运行设计方案模拟模块2;
其中,所述赛事活动虚拟场景显示模块1设置为显示赛事活动虚拟场景;所述赛事活动虚拟场景为赛事活动的三维虚拟场景,所述赛事活动虚拟场景是根据预设赛事活动场馆数据建立的虚拟模型;赛事活动可以包括文体类活动。
其中,虚拟模型为模拟真实赛事活动场景的可视化模型。
在一实施例中,由于赛事活动的运行与场馆密切相关,因此,赛事活动虚拟场景主要包括场馆内外的虚拟场景。
赛事活动虚拟场景可以通过Unity进行开发。赛事活动虚拟场景中的虚拟对象模型都具有三维地理位置坐标;其中,预设赛事活动场馆数据包括地理环境数据和规划设计数据。地理环境数据可以通过无人机航拍获取,规划设计数据可以从赛事活动运行设计专用电子图纸即OB(Overlay Book,临建图册)图中获取。
所述赛事活动运行设计方案模拟模块2设置为模拟运行赛事活动运行设计方案;所述赛事活动运行设计方案与所述赛事活动虚拟场景相融合,所述赛事活动运行设计方案包括与实体对象相对应的虚拟对象的设计参数。
赛事活动运行设计方案为,赛事活动运行设计方设计的、用于模拟赛事活动运行的设计方案。
在一实施例中,赛事活动运行设计方案为,针对赛事活动中的建筑和环境的特定要求,以活动发生地点的建筑、场地设计和现状条件为基础,对活动运行期间的空间分配、人行和车辆流线及运行所需的临时设施进行的安排和布置信息。
在一实施例中,可以通过动态的展示方式模拟运行赛事活动运行设计方案,其中,动态的展示方式可以包括动画。
虚拟对象可以理解为在仿真系统中的对象,实体对象可以理解为在现实世界中存在的对象,例如,实体对象包括真实摄影装置,与真实摄影装置对应的虚拟对象为虚拟摄影装置,虚拟摄影装置的设计参数可以包括位姿数据和拍摄参数等。
本申请实施例在模拟运行赛事活动运行设计方案的过程中,用户触发的相 应动作是本申请后续步骤执行的触发条件,后续步骤的内容根据用户的相应动作进行变化,后续步骤有助于辅助用户进行接下来的工作。
本申请实施例提高了赛事活动运行设计方案设计的工作效率,原因在于,无需用户现场勘查、操作真实设备对象,以及可通过虚拟模型真实直观地模拟现场,无需设计图纸,不依赖用户本人的意愿和经验等。
在模拟运行赛事活动运行设计方案之后,还可以导出赛事活动运行设计方案中的虚拟对象参数,并将虚拟对象参数赋予实体对象。
通过模拟运行赛事活动运行设计方案,赛事活动运行设计方可以直观、逼真地浏览到赛事活动运行设计的效果。
其中,虚拟对象模型、虚拟对象参数均对应于虚拟对象。
赛事活动运行设计方可以通过赛事活动运行设计方案模拟模块2,以及外设(例如,鼠标、键盘、手柄和摇杆等)对赛事活动运行设计方案进行设计,例如,步骤可包括:
将操作上述外设产生的外设操作数据输入至赛事活动运行仿真系统,赛事活动运行设计方案会跟随外设操作数据进行相应的变化。
根据变化结果,赛事活动运行设计方确定是否通过上述外设对赛事活动运行设计方案进行修改。
在确定最终的赛事活动运行设计方案后,可以将赛事活动运行设计方案的设计数据导出至与赛事活动运行设计方案相关的实体设备例如真实摄影机。
例如,可以根据虚拟摄影机的拍摄位置控制真实摄影机进行移动,真实摄影机移动至与该虚拟摄影机的拍摄位置对应的真实拍摄位置。在确定真实摄影机移动至真实拍摄位置之后,可以将虚拟摄影机的拍摄参数赋予真实摄影机的拍摄参数,真实摄影机基于虚拟摄影机的拍摄参数进行运行。
在一实施例中,真实摄影机可以预先与赛事活动运行仿真系统建立通讯连接。
在一实施例中,赛事活动运行设计方案可以包括如下内容中的至少一种:
赛事活动建筑分层设计方案、赛事活动转播服务设计方案、赛事活动人员点位设计方案、赛事活动建材物资设计方案、赛事活动临时设施设计方案、赛事活动形象景观设计方案、赛事活动安保道具摆放设计方案、赛事活动核心场地设计方案、赛事活动流线设计方案和赛事活动功能分区设计方案。
分别说明如下:
赛事活动建筑分层设计方案可以包括场馆分层设计方案等,例如某场馆地 上部分分层为1层L1、2层L2和3层L3,相应的,可以显示L1、L2和L3分别对应的场馆地上部分分层。L1即为level1,表征第一层,其他层同理,不再赘述。
赛事活动转播服务设计方案可以包括服务于转播的相关设计方案,例如,虚拟摄影机的选型设计方案、摆放位置设计方案和拍摄参数设计方案等。
赛事活动人员点位设计方案可以包括至少一个注册分区的相关人员数量和人员位置设计方案等。
赛事活动建材物资设计方案可以包括场馆内的建材物资相关设计方案,例如家具和座位的位置设计等。
赛事活动临时设施设计方案涉及临时建筑,临时建筑是指为保障活动顺利进行,在永久建筑的基础上,在活动举办前临时建设、活动结束后拆除的建筑设施,临时建筑可以包括临时用房、临时看台、临时天桥及临时无障碍设施等。赛事活动临时设施设计方案可以包括例如颁奖台位置设计方案和简易房子设计方案等。
赛事活动形象景观设计方案可以包括包含赛事活动吉祥物的景观设计方案、赞助商广告栏设计方案等。
赛事活动安保道具摆放设计方案可以包括用于安保的道具摆放设计方案,例如围栏布设设计方案和闸机布设设计方案等。
赛事活动核心场地设计方案涉及核心场地,体育场馆的核心场地就是比赛场地,运动员在比赛场地中竞技。相应的设计方案即是与核心场地相关的设计方案。
赛事活动流线设计方案可以包括人流线和车流线的相关设计方案。以人流线为例,人流线设计方案包括观众流线设计方案和媒体采访人员流线设计方案,观众流线设计方案为模拟观众在场馆内行走的流线线路的设计方案,媒体采访人员流线设计方案为模拟媒体采访人员在场馆内行走的流线线路的设计方案,可以用不同的颜色区分上述不同的人员,采用箭头方向表示人员沿流线线路行走的方向。
赛事活动功能分区设计方案的主要内容是,为业务口进行使用空间的设计,将运行需求予以细化,并体现使用空间的明细安排和运行设施的配备。换言之,赛事活动功能分区设计方案是对运行空间的分配布局、资源配置、流线关系进行细化和深入。赛事活动功能分区设计方案,可以包括至少一个功能用房的区域位置设计方案和区域面积设计方案等。
图2为本申请实施例提供的赛事活动运行设计方案的示意图,如图2所示,图2模拟了观众席、主席台和显示大屏等元素,这些元素组成了赛事活动虚拟场景,赛事活动虚拟场景与上述的赛事活动流线设计方案相融合,使得能够场景化地直观地表达赛事活动运行设计方案。
此外,通过上述赛事活动流线设计方案对赛事活动进行模拟运行,可以动态地显示图2中流线的流动速度和方向。
对赛事活动运行设计方案与赛事活动虚拟场景相融合,举例说明如下:
赛事活动运行设计方案包括摄影机A的摆放位置,该摆放位置是在该赛事活动虚拟场景中可看到的,摄影机A拍摄画面内容包含在该赛事活动虚拟场景中。位置和场景融合,拍摄画面内容也融合了场景。
图2中,FOP(Field of Play)即是体育竞赛区中比赛的场地部分,rotation表示旋转角度。
在对赛事活动运行设计方案设计完成后,可以将该赛事活动运行设计方案上传至官方系统即正式发布系统,赛事官方人员可以通过访问官方系统对已上传的赛事活动运行设计方案进行审核,如果赛事活动运行设计方案审核通过,可以向所有相关的赛事活动运行设计方发布审核后的赛事活动运行设计方案。
如果赛事活动运行设计方案审核不通过,可以向该赛事活动运行设计方说明审核不通过的原因,例如,系统中展示审核不通过及原因的文字信息,待该赛事活动运行设计方修改后再重新进行审核,再根据审核结果执行上述相应步骤。
在一实施例中,所述赛事活动运行仿真系统还设置为:
向赛事活动组织方展示所述赛事活动运行设计方案。赛事活动组织方可以包括赛事活动组委,赛事活动组委的用户权限可以包括对所有赛事活动运行设计方设计的赛事活动运行设计方案进行浏览。
通过浏览赛事活动运行设计方案,可以方便赛事活动组织方统筹管理赛事活动运行设计方案。
本申请实施例提供的赛事活动运行仿真系统,通过赛事活动虚拟场景显示模块和赛事活动运行设计方案模拟模块的结合,使得赛事活动运行设计方案与赛事活动虚拟场景相融合,能够直观和逼真地模拟运行赛事活动运行设计方案,提高赛事活动运行设计方案设计的工作效率。
在上述实施例的基础上,图3为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图,如图3所示,所述赛事活动运行设计方案模拟模块2 被分别包含在每个设计功能子系统中。
其中,每个设计功能子系统与相应的赛事活动运行设计方的用户设计权限分别对应。以体育赛事为例,体育赛事的赛事活动运行设计方包括转播服务公司、授权转播商、电视台、伙伴赞助商、转播服务机构、场馆业主和场馆规划设计师等。
上述不同的赛事活动运行设计方对应不同的用户设计权限,参照上述举例,转播服务公司的用户设计权限包括赛事活动转播服务设计的设计权限,场馆规划设计师的用户设计权限包括赛事活动流线设计的设计权限。
例如,设计功能子系统A对应赛事活动转播服务设计的设计权限,设计功能子系统B对应赛事活动流线设计的设计权限。
即转播服务公司可以使用设计功能子系统A进行赛事活动转播服务设计,而无法使用设计功能子系统B进行赛事活动流线设计。
同理,场馆规划设计师可以使用设计功能子系统B进行赛事活动流线设计,而无法使用设计功能子系统A进行赛事活动转播服务设计。
在一实施例中,所述赛事活动运行设计方包括赛事活动转播服务方;相应地,与用户设计权限对应的设计功能子系统中的赛事活动运行设计方案模拟模块2设置为:模拟运行所述赛事活动转播服务方设计的赛事活动转播服务设计方案。
赛事活动转播服务设计方案可参照上述说明。
基于场景化直观展示赛事活动转播服务设计方案,能够提高赛事活动转播服务方的设计工作效率。
在一实施例中,所述赛事活动运行设计方包括除所述赛事活动转播服务方以外的其他设计服务方;相应地,与用户设计权限对应的设计功能子系统中的赛事活动运行设计方案模拟模块2设置为:模拟运行所述其他设计服务方设计的如下至少一种赛事活动运行设计方案:
赛事活动流线设计方案、赛事活动功能分区设计方案、赛事活动人员点位设计方案和赛事活动临时设施设计方案。上述赛事活动运行设计方案可参照上述说明。
基于场景化直观展示赛事活动运行设计方案,能够提高其他设计服务方的设计工作效率。
本申请实施例提供的赛事活动运行仿真系统,通过赛事活动运行设计方案模拟模块和每个设计功能子系统之间的对应包含关系,使得不同用户设计权限 的赛事活动运行设计方能够对与赛事活动运行设计方相匹配的赛事活动运行设计方案进行设计,保证每个赛事活动运行设计方能够相互独立地对对应的赛事活动运行设计方案进行设计。
在上述实施例的基础上,所述赛事活动运行设计方案模拟模块2还设置为:模拟运行与至少一个赛事活动运行阶段分别对应的赛事活动运行设计方案。
图4为本申请实施例提供的赛事活动运行仿真系统的分阶段架构示意图,图4中出现了VSS(Venue Simulation Services),VBS(Virtual Broadcasting Services),VOD(Visualized Operational Design)及3D(3-dimension,三维)。如图4所示,与赛事活动转播服务设计的设计权限对应的设计功能子系统A即图4中的VBS版,转播服务公司可以使用设计功能子系统A进行赛事活动转播服务设计方案的设计工作。
与赛事活动流线设计的设计权限对应的设计功能子系统B即图4中的VOD版,场馆规划设计师可以使用设计功能子系统B进行赛事活动流线设计方案的设计工作。
如图4所示,多个赛事活动运行阶段可以包括赛事活动申办阶段,对应图4中的申办期;赛事活动基础规划阶段,对应图4中的基础规划阶段;赛事活动专项规划阶段,对应图4中的专项规划阶段;赛事活动测试就绪阶段,对应图4中的测试就绪阶段;赛事活动赛时运行阶段,对应图4中的赛时运行阶段;赛事活动总结善后阶段,对应图4中的总结善后阶段。对上述多个赛事活动运行阶段的说明如下:
赛事活动申办阶段是指:进行赛事活动申办资料准备,以及未建场馆仿真预案。
赛事活动基础规划阶段包括场地分析,场地分析包括:分析场地环境、分析场馆自身硬件条件、场馆周边交通条件、市政基础设计条件,以及景观环境和功能性空间。
赛事活动基础规划阶段还包括运行规划的内容,运行规划的内容包括:运行分区规划、注册分区规划、流线组织设计和标准单元设计。
赛事活动基础规划阶段还包括运行规划的确定,运行规划的确定包括:运行规划的成果内容、运行规划的成果确认和运行规划的稳定性。
赛事活动专项规划阶段包括分区设计和专项设计,专项设计包括:临时建筑规划设计、核心场地设计、形象景观系统设计、物资和家具设计,以及指路标识系统设计。
赛事活动测试就绪阶段包括临时设施设计与实施,临时设施设计与实施包括:物资与家具、指路标识、形象景观和临时建筑。
赛事活动测试就绪阶段还包括运行演练,运行演练包括桌面演练、实地测试演练和应急演练。
赛事活动测试就绪阶段还包括物资人员准备阶段,物资人员准备阶段包括物流配送、熟悉多业务口的工作环境、人员培训和设备调试。
赛事活动赛时运行阶段包括临时设施设计与实施,临时设施设计与实施包括:运行团队布置任务、组织多项工作工程和技术、根据运行设计图纸进行维护保障。
赛事活动赛时运行阶段还包括场地转换,即对不同比赛场地进行转换。
赛事活动赛时运行阶段还包括主运行中心,即MOC(Main Operation Center)。
赛事活动总结善后阶段包括移出期,移出期包括:物资设备移出、临时设施拆除和场地还原。
上述多个赛事活动运行阶段的顺序是按照赛事活动运行的先后顺序进行排列的。
在一实施例中,赛事活动运行阶段包括赛事活动专项规划阶段;相应地,在所述赛事活动专项规划阶段,所述赛事活动运行设计方案模拟模块2设置为:
模拟运行赛事活动转播服务方在所述赛事活动专项规划阶段的赛事活动转播服务设计方案;其中,所述赛事活动转播服务方被包含在所述赛事活动运行设计方中;参照上述说明,赛事活动转播服务方可以包括转播服务公司、授权转播商和电视台等。赛事活动转播服务设计方案可参照上述说明。
在一实施例中,模拟运行除所述赛事活动转播服务方以外的其他设计服务方在所述赛事活动专项规划阶段的如下至少一种赛事活动运行设计方案:
赛事活动流线设计方案、赛事活动功能分区设计方案、赛事活动标准单元设计方案、物资和家具设计方案、赛事活动临时设施设计方案和赛事活动核心场地设计方案。赛事活动流线设计方案、赛事活动功能分区设计方案、赛事活动临时设施设计方案、赛事活动核心场地设计方案可参照上述说明。
对上述其他赛事活动运行设计方案分别说明如下:
赛事活动标准单元设计方案,是指对同一赛事或活动所需的处在不同地点的同类设施进行单元化设计和标准化设计,赛事活动标准单元设计方案有助于提高运行设计的速度和质量等。
物资和家具设计方案包含在赛事活动专项系统设计的范畴之内,物资和家具设计方案指的是临时布置工作空间内使用的办公家具和电器等,物资和家具设计方案为赛事活动运行设计中的通用专业术语。
赛事活动专项规划阶段,通过提供给不同的赛事活动运行设计方对应的赛事活动运行设计方案,可提高不同赛事活动运行设计方的设计工作效率。
在一实施例中,至少一个赛事活动运行阶段包括赛事活动基础规划阶段;相应地,在所述赛事活动基础规划阶段中,与其他设计服务方相对应的赛事活动运行设计方案模拟模块2设置为:模拟运行所述其他设计服务方,在所述赛事活动基础规划阶段的如下至少一种赛事活动运行设计方案:赛事活动流线设计方案、赛事活动功能分区设计方案和赛事活动标准单元设计方案。
如图4所示,赛事活动基础规划阶段是在赛事活动专项规划阶段之前的一个阶段。上述赛事活动运行设计方案可参照上述说明。
在赛事活动基础规划阶段,通过提供面向其他设计服务方的赛事活动运行设计方案,能够提高其他设计服务方的设计工作效率。
在一实施例中,至少一个赛事活动运行阶段包括赛事活动测试就绪阶段;相应地,在所述赛事活动测试就绪阶段中,与所述其他设计服务方相对应的赛事活动运行设计方案模拟模块2设置为:
模拟运行所述其他设计服务方在所述赛事活动测试就绪阶段的如下至少一种赛事活动运行设计方案:赛事活动临时设施设计方案、赛事活动核心场地设计方案、形象景观设计方案、物资和家具设计方案和指路标识设计方案。
如图4所示,赛事活动测试就绪阶段是在赛事活动专项规划阶段之后的一个阶段。赛事活动临时设施设计方案、赛事活动核心场地设计方案,以及物资和家具设计方案可参照上述说明。
形象景观设计方案是指:通过对项目形象元素的设计开发和一体化的应用管理,创造该项目独特、完整且具有一致性的视觉形象。以体育赛事为例,形象景观可以包括体育赛事的会徽等。
指路标识设计方案是指:对空间和流线进行指引的工具,也是大众视觉传达的一种手段。指路标识以立体构成和平面构成两种方式来解决空间的导向问题。
在赛事活动测试就绪阶段,通过提供面向其他设计服务方的赛事活动运行设计方案,能够提高其他设计服务方的设计工作效率。
在一实施例中,至少一个赛事活动运行阶段包括赛事活动赛时运行阶段; 相应地,在所述赛事活动赛时运行阶段,面向所述其他设计服务方的赛事活动运行设计方案模拟模块2设置为:
模拟运行所述其他设计服务方在所述赛事活动赛时运行阶段的如下至少一种赛事活动运行设计方案,该赛事活动运行设计方案是在赛事活动现场确认后修改的赛事活动运行设计方案:赛事活动临时设施设计方案、赛事活动核心场地设计方案、形象景观设计方案、物资和家具设计方案和指路标识设计方案。
如图4所示,赛事活动赛时运行阶段是在赛事活动测试就绪阶段之后的一个阶段。上述赛事活动运行设计方案可参照上述说明。
在赛事活动赛时运行阶段,通过提供其他设计服务方对应的赛事活动运行设计方案,能够提高其他设计服务方的设计工作效率。
在一实施例中,至少一个赛事活动运行阶段包括赛事活动总结善后阶段;相应地,在所述赛事活动总结善后阶段,与所述其他设计服务方相对应的赛事活动运行设计方案模拟模块2设置为:模拟运行所述其他设计服务方在所述赛事活动总结善后阶段的赛事活动物流配送流线设计方案。如图4所示,赛事活动总结善后阶段是在赛事活动赛时运行阶段之后的一个阶段。
赛事活动物流配送流线设计方案可以包括,物资设备移出和临时建筑拆除时进行的物流配送流线设计方案。
在赛事活动总结善后阶段,通过模拟运行其他设计服务方对应的赛事活动运行设计方案,能够提高其他设计服务方的设计工作效率。
在一实施例中,至少一个赛事活动运行阶段还包括赛事活动申办阶段;相应地,在所述赛事活动申办阶段,所述赛事活动运行仿真系统还设置为:
向赛事活动组织方展示在所述赛事活动申办阶段的如下至少一种赛事活动虚拟场景:3D场馆、周围环境和功能分区。
赛事活动组织方可以包括赛事活动组委,赛事活动组委的用户权限可以包括对所有赛事活动运行设计方设计的赛事活动运行设计方案进行浏览,对应图4中的运行方案的查看。如图4所示,图4中的运行方案包括上述每个赛事活动运行阶段分别对应的赛事活动运行设计方案。
在赛事活动运行阶段,通过向赛事活动组织方展示赛事活动运行设计方案,能够方便赛事活动组织方管理赛事活动运行设计工作。
本申请实施例提供的赛事活动运行仿真系统,不但能够场景化地直观表达赛事活动运行设计方案,而且能够为每个赛事活动运行阶段匹配对应的赛事活动运行设计方案,方便赛事活动运行设计方分阶段设计赛事活动运行设计方案。
在上述实施例的基础上,图5为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图,如图5所示,图5对应不包含设计功能子系统的情况,图6为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图,如图6所示,图6对应包含设计功能子系统的情况,如图5和图6所示,所述赛事活动运行设计方案模拟模块2包括赛事活动运行设计方案的设计元素操作子模块21和与设计元素操作子模块21相连的设计方案管理子模块22;
其中,所述设计元素操作子模块21配置为提供操作所述赛事活动运行设计方案的设计元素,以供赛事活动运行设计方设计所述赛事活动运行设计方案;本申请实施例的设计元素是模拟真实设计元素的虚拟设计元素。所述设计元素操作子模块21设置为提供如下至少一种设计元素,以供赛事活动运行设计方设计所述赛事活动运行设计方案:
摄影器材、体育器材、建材物资、临时设施、形象景观、竞赛场地、安保道具、赛事活动虚拟角色的形象和动作,及赛事活动虚拟场景的视觉效果。
分别说明如下:
摄影器材可以包括至少一种型号的虚拟摄影机和镜头,还有支架等辅助摄影器材。
体育器材可以包括至少一种赛事的体育器材,例如冰球比赛的冰球和球杆等。
建材物资可以包括在场馆内外布设的建材物资,例如桌椅等。
临时设施与固定设施相对;临时设施在使用时搭设,不使用时可拆除,例如颁奖台和简易房子。
形象景观可以包括赛事活动吉祥物的景观等。
竞赛场地为运动员在比赛时所使用的比赛用地。
安保道具可以包括用于安保的道具,例如围栏和闸机等。
赛事活动虚拟角色的形象和动作:赛事活动虚拟角色可以包括运动员、观众和赛事活动开闭幕式主持人等,以及相应的形象和动作。
赛事活动虚拟场景的视觉效果可以包括,在开闭幕式举行时放烟花的视觉效果。
通过提供操作一种或多种设计元素,以供赛事活动运行设计方设计赛事活动运行设计方案,方便赛事活动运行设计方进行设计工作。
所述设计元素操作子模块21可以通过提供如下至少一种操作设计类型,以实现设计所述赛事活动运行设计方案:
移动操作、锁定操作、翻转操作、旋转操作、吸附操作、组合操作、分拆操作、缩放操作、复制操作、粘贴操作、选择操作和收藏操作。
分别说明如下:
移动操作:例如将设计元素A从一处移动至另一处。
锁定操作:例如将设计元素A的位置锁定,使得设计元素A的位置不再根据其他条件进行变化。
翻转操作:例如将设计元素A在竖直平面进行转动操作。
旋转操作:例如将设计元素A在水平平面进行转动操作。
吸附操作:例如将设计元素A吸附在设计元素B上,使得设计元素A附属设计元素B,并进行联动。
组合操作:例如将设计元素A和设计元素B相组合,使得设计元素A和设计元素B组合在一起,并进行联动。与上述吸附操作区别在于,吸附操作存在附属关系,而组合操作不存在附属关系。
分拆操作:即上述组合操作的相反操作。
缩放操作:包括将设计元素A的大小缩小或者放大。
复制操作:可参照对文字复制的操作。
粘贴操作:可参照对文字粘贴的操作。
选择操作:可以包括点选操作和框选操作等。
收藏操作:可以收藏至个人中心,方便个人进行获取。
通过提供赛事活动运行设计的多种操作设计类型,方便了赛事活动运行设计方进行设计工作。
所述设计方案管理子模块22配置为提供管理所述赛事活动运行设计方案的管理工具,以供赛事活动运行设计方管理所述赛事活动运行设计方案。
通过管理工具,可供赛事活动运行设计方管理如下至少一种赛事活动运行设计方案:
赛事活动建筑分层设计方案、赛事活动转播服务设计方案、赛事活动人员点位设计方案、赛事活动建材物资设计方案、赛事活动临时设施设计方案、赛事活动形象景观设计方案、赛事活动安保道具摆放设计方案、赛事活动核心场地设计方案、赛事活动流线设计方案和赛事活动功能分区设计方案。
对上述赛事活动运行设计方案可参照上述实施例的说明。
通过管理赛事活动运行设计方案的管理工具,方便赛事活动运行设计方进行设计工作。
可以通过提供管理赛事活动运行设计方案的如下至少一种管理工具,供赛事活动运行设计方管理赛事活动运行设计方案:
新增设计方案、导入设计方案、保存设计方案、删除设计方案、修改设计方案、发布设计方案、导出设计方案、浏览设计方案和审核设计方案。
分别说明如下:
新增设计方案:即创建新的设计方案。
导入设计方案:即导入已经保存的设计方案。
保存设计方案:即在完成设计时或者设计过程中,保存设计方案。
删除设计方案:即在完成设计时或者设计过程中,删除设计方案。
修改设计方案:即在设计过程中,修改设计方案。
发布设计方案:即在完成设计时发布设计方案,以使得其他赛事活动运行设计方能够浏览该设计方案。
导出设计方案:即与导入设计方案相反的操作。
浏览设计方案:即提供给与该设计方案的相关设计人员浏览该设计方案的权限,使得上述相关设计人员能够浏览该设计方案。
审核设计方案:即提供给与该设计方案的相关审核人员审核该设计方案的权限,使得上述相关审核人员能够审核该设计方案。
通过管理工具对赛事活动运行设计方案进行管理,方便赛事活动运行设计方进行设计工作。
本申请实施例提供的赛事活动运行仿真系统,通过设计元素操作子模块操作赛事活动运行设计方案的设计元素,实现了对赛事活动运行设计方案进行设计,以及通过设计方案管理子模块管理赛事活动运行设计方案,方便赛事活动运行设计方进行设计工作。
在上述实施例的基础上,图7为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图,如图7所示,图7对应不包含设计功能子系统的情况,所述赛事活动运行仿真系统还包括与所述赛事活动运行设计方案模拟模块2相连的赛事活动运行设计视频录制模块3;
其中,所述赛事活动运行设计视频录制模块3设置为:对包含所述赛事活动运行设计方案的视频进行录制。
赛事活动运行设计方可以在对赛事活动运行设计方案进行设计的过程中,或者在设计完成后可以对包含该赛事活动运行设计方案的视频进行录制。在录制过程中可以添加对设计思路和设计独创亮点介绍的多媒体服务信息,例如语 音和文字等。
赛事活动转播服务方为例,在视频录制完成后,可以将视频上传至官方系统,官方人员可以通过访问官方系统对已上传的视频进行审核,如果已上传的视频审核通过,可以向所有相关设计方发布审核后的视频。
如果已上传的视频审核不通过,可以向该赛事活动转播服务方说明审核不通过的原因,待该赛事活动转播服务方修改后再重新进行审核,再根据审核结果执行上述相应步骤。
通过对包含赛事活动运行设计方案的视频进行录制,有助于借助录制视频充分表达赛事活动运行设计方案,并便于后续的沟通交流。
本申请实施例提供的赛事活动运行仿真系统,通过对包含赛事活动转播服务设计方案的视频进行录制,有助于借助录制视频充分表达赛事活动转播服务设计方案,并便于后续的沟通交流。
在上述实施例的基础上,图8为本申请实施例提供的另一种赛事活动运行仿真系统的结构示意图,如图8所示,图8对应于包含设计功能子系统的情况,在每个设计功能子系统中还包括与所述赛事活动运行设计方案模拟模块2相连的赛事活动运行设计视频录制模块3;
其中,所述赛事活动运行设计视频录制模块3设置为:对包含所述赛事活动运行设计方案的视频进行录制。
所述赛事活动运行设计方包括赛事活动转播服务方;相应地,与赛事活动转播服务方的用户设计权限对应的设计功能子系统中的赛事活动运行设计视频录制模块3设置为:对包含赛事活动转播服务设计方案的视频进行录制。赛事活动转播服务设计方案可参照上述说明,不再赘述。
所述赛事活动运行设计方包括除所述赛事活动转播服务方以外的其他设计服务方;相应地,与其他设计服务方的用户设计权限对应的设计功能子系统中的赛事活动运行设计视频录制模块3设置为:
对包含如下赛事活动运行设计方案中的至少一种的视频进行录制:
赛事活动流线设计方案、赛事活动功能分区设计方案、赛事活动人员点位设计方案和赛事活动临时设施设计方案。上述设计方案,以及进行录制的相关说明,可参照上述实施例,不再赘述。
本申请实施例提供的赛事活动运行仿真系统,不但有助于借助录制视频充分表达赛事活动运行设计方案,便于后续的沟通交流,而且方便不同用户设计权限的赛事活动运行设计方分别独立地录制对应赛事活动运行设计方案的视 频。
图9为本申请实施例提供的一种使用赛事活动运行仿真系统的方法的流程示意图,如图9所示,本申请实施例提供的一种使用赛事活动运行仿真系统的方法,包括如下步骤:
S901:显示所述赛事活动虚拟场景。
S902:响应于触发的所述赛事活动运行设计方案的设计操作,模拟运行所述赛事活动运行设计方案。
其中,若检测到赛事活动运行设计方在浏览所述赛事活动虚拟场景的过程中,触发的针对所述赛事活动运行设计方案的设计操作,则模拟运行所述赛事活动运行设计方案。
本申请实施例提供的使用赛事活动运行仿真系统的方法,在赛事活动虚拟场景中,通过设计操作触发模拟运行赛事活动运行设计方案,能够直观和即时地浏览到设计的效果,可高效辅助赛事活动运行设计方设计赛事活动运行设计方案。
在上述实施例的基础上,所述模拟运行所述赛事活动运行设计方案,包括:
显示与所述赛事活动运行设计方案相关联的目标界面;其中,所述目标界面包括展示所述赛事活动运行设计方案的界面,以及设计所述赛事活动运行设计方案的设计操作对应的待浏览界面。
以赛事活动转播服务设计方案中的虚拟摄影机的摆放位置设计方案为例,展示虚拟摄影机的摆放位置设计方案的界面为在竞赛场地周边位置布置的虚拟摄影机的界面,这些虚拟摄影机设置为拍摄在竞赛场地进行的模拟运动员运动的动画。
与此对应的设计该虚拟摄影机的摆放位置设计方案所需浏览的界面可以包括虚拟摄影机的拍摄内容的界面,以及模拟摄影师使用该虚拟摄影机拍摄上述拍摄内容的视角的界面,在拍摄上述拍摄内容的视角的界面中还可以显示该视角的视角范围。
即上述竞赛场地周边位置布置的虚拟摄影机的界面、虚拟摄影机的拍摄内容的界面,以及模拟摄影师使用该虚拟摄影机拍摄上述拍摄内容的视角的界面都是目标界面。
响应于触发的所述目标界面上的设计操作,模拟所述设计操作,输出对所述赛事活动运行设计方案产生的模拟运行结果。
可以响应于所述赛事活动运行设计方根据所述目标界面触发的设计操作, 模拟所述设计操作,输出对所述赛事活动运行设计方案产生的模拟运行结果。赛事活动运行设计方通过目标界面所显示的内容,无需到达真实摄影机的布置现场即可进行摄影机摆放位置设计,生成虚拟转播视频。
本申请实施例提供的使用赛事活动运行仿真系统的方法,通过目标界面,能够更加合理和有效地辅助赛事活动运行设计方设计赛事活动运行设计方案。
在上述实施例的基础上,所述模拟所述设计操作,输出对所述赛事活动运行设计方案产生的模拟运行结果,包括:
响应于所述模拟运行结果未达到预期目标,重新执行所述响应于触发的所述目标界面上的设计操作,模拟所述设计操作,输出对所述赛事活动运行设计方案产生的模拟运行结果的步骤,直到新的模拟运行结果达到所述预期目标。预期目标可以根据实际客观情况自主设置,参照上述举例,例如可以设定拍摄画面中的拍摄跟踪目标在每帧画面中都位于拍摄画面中的中心部分区域,和/或,所占区域的比例大于整体画面的预设比例。
预期目标也可以用户自主确定,参照上述实施例说明。
预期目标还可以根据上述实际客观情况和用户自主确定相结合的方式确定预期目标。
本申请实施例提供的使用赛事活动运行仿真系统的方法,能够辅助赛事活动运行设计方高效地对赛事活动运行设计方案进行相应设计调整,并即时浏览到模拟运行结果,提高了赛事活动运行设计工作的效率。
图10为本申请实施例提供的另一种使用赛事活动运行仿真系统的方法的流程示意图。
在上述实施例的基础上,所述响应于触发的所述赛事活动运行设计方案的设计操作,模拟运行所述赛事活动运行设计方案,包括:
S1001:响应于在自由视角画面中的目标位置触发的虚拟摄影装置添加动作,在所述目标位置显示虚拟摄影装置,并在顶视图画面中根据所述虚拟摄影装置的预设位姿数据和预设拍摄参数模拟所述虚拟摄影装置的视角范围。
其中,可检测用户在自由视角画面中的目标位置触发的虚拟摄影装置添加动作。
用户可以是上述赛事活动运行设计方。
自由视角画面可以理解为在俯视视角的基础上,沿虚拟相机所在方向旋转预设角度所形成的拍摄视角对应的画面。
顶视图画面可以理解为虚拟相机在俯视视角下拍摄的画面。
图11为本发明实施例在自由视角画面中添加虚拟摄影装置的截图,参照图11,用户可以通过鼠标在该画面中的任意位置进行点击,实现添加虚拟摄影装置,添加的虚拟摄影装置可以是上述虚拟摄影机,添加虚拟摄影装置的位置即是目标位置,通过鼠标拖动该虚拟摄影装置实现调整虚拟摄影装置的目标位置,以及通过修改图11右侧的输入框中的具体数值调整虚拟摄影装置的参数,参数可以包括预设位姿数据和预设拍摄参数等。
用户可以在多个目标位置分别添加对应虚拟摄影装置。然后再选择当前要设计的虚拟摄影装置分别执行后续步骤。
图12为本申请实施例在顶视图画面中显示虚拟摄影装置的视角范围的截图,参照图12,用户可以通过浏览该视角范围,初步确定是否多添加了虚拟摄影装置,或者少添加了虚拟摄影装置,以及初步确定虚拟摄影装置的位置设置是否合适。
图12中,TopView表示顶视图,FOV表示可将该界面进行缩放操作,加号对应放大、减号对应缩小;PNG,表示可将该界面保存为图片格式,图片格式可以为png。图12中的数字1、3、4、5及7表示虚拟摄影装置的编号。
S1002:响应于触发的所述视角范围的确认动作,显示与所述目标位置对应的虚拟摄影装置的位置相关参数。
例如,可以在剖面图视角画面中显示与所述目标位置对应的虚拟摄影装置的位置相关参数。
如果用户在上述S1001中确定上述设置都合适后,可以点击根据视角范围触发的确认按键。
此外,如果用户在上述S1001中确定上述设置不都合适,可以返回至自由视角画面中重新设置目标位置和/或参数。
图13a-图13c为本申请实施例在剖面图视角画面中的不同视角的截图;剖面图视角画面可以理解为,图13a-图13c右侧视角范围示意标记中有颜色深度部分所对应部分所在画面。
图13a中,Cutaway表示剖面图。
位置相关参数可以显示在图13a-图13c的四周边框上,图中未示出位置相关参数。位置相关参数可以包括:脚架高度、虚拟摄影装置视角、东北角距离、西南角距离、西北角距离、东南角距离、虚拟摄影装置高度和中央距离中的至少一种。
说明如下:
脚架高度是指:虚拟摄影装置的脚架高度。
虚拟摄影装置视角是指:虚拟摄影装置当前焦距下的视角。
东北角距离是指:虚拟摄影装置与竞赛场地的东北角之间的距离。
西南角距离是指:虚拟摄影装置与竞赛场地的西南角之间的距离。
西北角距离是指:虚拟摄影装置与竞赛场地的西北角之间的距离。
东南角距离是指:虚拟摄影装置与竞赛场地的东南角之间的距离。
虚拟摄影装置高度是指:虚拟摄影装置距离地面的高度。
中央距离是指:虚拟摄影装置与竞赛场地的中心之间的距离。
用户可以根据上述位置相关参数的参数内容对虚拟摄影装置的位置和/或参数设置是否合适作判断。
在一实施例中,用户可以通过浏览图13a-图13c中的至少一个截面,以及对应的视角范围,进行辅助判断。
S1003:响应于触发的所述位置相关参数的确认动作,在由所述虚拟摄影装置拍摄的虚拟影像画面中显示所述虚拟摄影装置的拍摄效果。
如果用户在上述S1002中确定上述设置都合适后,可以点击根据位置相关参数触发的确认按键。
此外,如果用户在上述S1002中确定上述设置不都合适,可以返回至自由视角画面中重新设置目标位置和/或参数。
图14为本申请实施例在虚拟影像画面中虚拟摄影装置的拍摄效果的截图;参照图14,用户可以通过浏览拍摄效果来确定虚拟摄影装置的目标位置和/或参数设置是否合适。
图14中,VirtualCamera005表示虚拟摄影装置的编号,Focal Length表示焦距,SlectCamera表示虚拟摄影装置拍摄的拍摄画面,Rec为录制上述拍摄画面。
S1004:响应于触发的所述拍摄效果的确认动作,确定完成所述虚拟摄影装置的模拟运行设计。
如果用户在上述S1003中认为上述拍摄效果都合适后,可以点击根据拍摄效果触发的确认按键。
此外,如果用户在上述S1003中认为上述拍摄效果不都合适,可以返回至所述自由视角画面中调整所述虚拟摄影装置的目标位置和/或参数。
或者,可以在图14中直接对拍摄效果进行调整,包括调整焦距和目标位置等,此后,可以根据对拍摄效果的调整数据,反算出拍摄出该拍摄效果的目标位置和/或参数,有助于用户直观和方便地确定虚拟摄影装置的目标位置和参数。
在一实施例中,在该步骤S1004之后,还可以包括步骤S1005和步骤S1006。
S1005:在虚拟导播预览画面中添加所述虚拟影像画面和所述虚拟摄影装置的标识。
图15为本申请实施例虚拟导播预览画面和虚拟导播画面显示截图,如图15所示,虚拟导播预览画面包括由左上方的1~6分别表示的虚拟摄影装置分别拍摄的虚拟影像,这些虚拟影像是通过上述步骤S1004中的步骤完成目标位置和参数调整后的虚拟摄影装置拍摄的。
S1006:若检测到用户在添加完成全部虚拟摄影装置分别拍摄的虚拟影像画面,以及全部虚拟摄影装置的标识触发的调整动作,则在虚拟导播画面中生成虚拟转播视频。
其中,所述调整动作是用户针对目标虚拟影像的片段,和/或虚拟影像播放顺序触发;所述目标虚拟影像为正在预演的虚拟摄影装置拍摄的虚拟影像、所述虚拟导播预览画面和所述虚拟导播画面显示在同一显示画面中。
虚拟导播画面对应PGM中的画面,在虚拟导播画面中播放的虚拟影像即是虚拟转播视频中的虚拟影像。
参照图15,其中,1号虚拟摄影装置为目标虚拟摄影装置,目标虚拟摄影装置可以由用户自主选择,PGM表示用户正在观看的、由目标虚拟摄影装置拍摄的目标虚拟影像。
图15中,存在可操作按键Shift,Delete,Undo,Redo,Home,Prev,Play,Stop,Next,End及New。
VC表示虚拟摄影装置,下方编号表示对应的编号。
DUR表示每个虚拟摄影装置分别对应的剪辑时长。
IN表示每个虚拟摄影装置分别对应的剪辑起始时刻。
OUT表示每个虚拟摄影装置分别对应的剪辑终止时刻。
生成虚拟转播视频的方法可以借助相关技术中的导播工具来实现,导播工具也显示在图15中。
参照图15,PGM中的画面由至少一个目标虚拟影像中的片段,并按照设计的播放顺序组成。该步骤完成了虚拟转播视频的模拟运行设计。
本申请实施例提供的使用赛事活动运行仿真系统的方法,按照先粗放后细致的设计原则对虚拟摄影装置的目标位置和参数进行确定,可以高效辅助赛事活动运行设计方设计赛事活动运行设计方案。
在上述实施例的基础上,所述方法还包括:预先存储每个设计元素至与所 述每个设计元素分别对应的设计元素库中;
从每个设计元素库中获取对应的设计元素,其中,所述设计元素用于设计所述赛事活动运行设计方案。参照上述举例,可以预先存储摄影器材至摄影器材库中,预先存储体育器材至体育器材库中。
通过从摄影器材库中获取摄影器材,以及从体育器材库中获取体育器材,并对摄影器材和体育器材进行操作,方便用户对赛事活动运行设计方案进行设计。通过多个设计元素库方便对设计元素进行分类,方便赛事活动运行设计方能够尽快找到需要的设计元素,还便于维护管理设计元素。
本申请实施例提供的使用赛事活动运行仿真系统的方法,从每个设计元素库中获取的对应设计元素,用户对赛事活动运行设计方案进行设计。
图16是本申请实施例提供的一种电子设备的结构示意图,如图16所示,该电子设备包括:一个或多个处理器110和存储器120。图16中以一个处理器110为例。
所述电子设备还可以包括:输入装置130和输出装置140。
所述电子设备中的处理器110、存储器120、输入装置130和输出装置140可以通过总线或者其他方式连接,图16中以通过总线连接为例。
存储器120作为一种计算机可读存储介质,可设置为存储软件程序、计算机可执行程序以及模块。处理器110通过运行存储在存储器120中的软件程序、指令以及模块,执行多种功能应用以及数据处理,以实现上述实施例中的任意一种方法。
存储器120可以包括存储程序区和存储数据区,其中,存储程序区可存储操作系统、至少一个功能所需要的应用程序;存储数据区可存储根据电子设备的使用所创建的数据等。此外,存储器可以包括随机存取存储器(Random Access Memory,RAM)等易失性存储器,还可以包括非易失性存储器,例如至少一个磁盘存储器件、闪存器件或者其他非暂态固态存储器件。
存储器120可以是非暂态计算机存储介质或暂态计算机存储介质。该非暂态计算机存储介质,例如至少一个磁盘存储器件、闪存器件或其他非易失性固态存储器件。在一些实施例中,存储器120可选包括相对于处理器110远程设置的存储器,这些远程存储器可以通过网络连接至电子设备。上述网络的实例可以包括互联网、企业内部网、局域网、移动通信网及其组合。
输入装置130可设置为接收输入的数字或字符信息,以及产生与电子设备的用户设置以及功能控制有关的键信号输入。输出装置140可包括显示屏等显 示设备。
本实施例还提供一种计算机可读存储介质,存储有计算机可执行指令,所述计算机可执行指令用于执行上述方法。
上述实施例方法中的全部或部分流程可以通过计算机程序来执行相关的硬件来完成的,该程序可存储于一个非暂态计算机可读存储介质中,该程序在执行时,可包括如上述方法的实施例的流程,其中,该非暂态计算机可读存储介质可以为磁碟、光盘、只读存储记忆体(Read-Only Memory,ROM)或RAM等。
以上所描述的装置实施例仅仅是示意性的,其中所述作为分离部件说明的单元可以是或者也可以不是物理上分开的,作为单元显示的部件可以是或者也可以不是物理单元,即可以位于一个地方,或者也可以分布到多个网络单元上。可以根据实际的需要选择其中的部分或者全部模块来实现本实施例方案的目的。本领域普通技术人员在不付出创造性的劳动的情况下,即可以理解并实施。
通过以上的实施方式的描述,本领域的技术人员可以清楚地了解到至少一个实施方式可借助软件加必需的通用硬件平台的方式来实现,也可以通过硬件。基于这样的理解,上述本申请实施例本质上或者说对相关技术做出贡献的部分可以以软件产品的形式体现出来,该计算机软件产品可以存储在计算机可读存储介质中,如ROM/RAM、磁碟、光盘等,包括若干指令用以使得一台计算机设备(可以是个人计算机,服务器,或者网络设备等)执行多个实施例或者实施例的某些部分所述的方法。

Claims (13)

  1. 一种赛事活动运行仿真系统,包括:
    赛事活动虚拟场景显示模块和与所述赛事活动虚拟场景显示模块相连的赛事活动运行设计方案模拟模块;
    其中,所述赛事活动虚拟场景显示模块设置为显示赛事活动虚拟场景;所述赛事活动虚拟场景为赛事活动的三维虚拟场景,所述赛事活动虚拟场景是根据预设赛事活动场馆数据建立的虚拟模型;
    所述赛事活动运行设计方案模拟模块设置为模拟运行赛事活动运行设计方案;所述赛事活动运行设计方案与所述赛事活动虚拟场景相融合,所述赛事活动运行设计方案包括与实体对象相对应的虚拟对象的设计参数。
  2. 根据权利要求1所述的赛事活动运行仿真系统,还包括:至少一个设计功能子系统,
    其中,所述赛事活动运行设计方案模拟模块设置在每个设计功能子系统中;
    其中,所述每个设计功能子系统与相应的赛事活动运行设计方的用户设计权限分别对应。
  3. 根据权利要求1或2所述的赛事活动运行仿真系统,其中,所述赛事活动运行设计方案模拟模块还设置为,模拟运行与至少一个赛事活动运行阶段分别对应的赛事活动运行设计方案。
  4. 根据权利要求1或2所述的赛事活动运行仿真系统,其中,所述赛事活动运行设计方案模拟模块包括所述赛事活动运行设计方案的设计元素操作子模块和与所述设计元素操作子模块相连的设计方案管理子模块;
    其中,所述设计元素操作子模块配置为提供操作所述赛事活动运行设计方案的设计元素,以供赛事活动运行设计方设计所述赛事活动运行设计方案;
    所述设计方案管理子模块配置为提供管理所述赛事活动运行设计方案的管理工具,以供赛事活动运行设计方管理所述赛事活动运行设计方案。
  5. 根据权利要求1所述的赛事活动运行仿真系统,其中,所述赛事活动运行仿真系统还包括与所述赛事活动运行设计方案模拟模块相连的赛事活动运行设计视频录制模块;
    其中,所述赛事活动运行设计视频录制模块设置为,对包含所述赛事活动运行设计方案的视频进行录制。
  6. 根据权利要求2所述的赛事活动运行仿真系统,其中,在所述设计功能子系统中还包括与所述赛事活动运行设计方案模拟模块相连的赛事活动运行设计视频录制模块;
    其中,所述赛事活动运行设计视频录制模块设置为,对包含所述赛事活动运行设计方案的视频进行录制。
  7. 一种使用如权利要求1至6中任一项所述赛事活动运行仿真系统的方法,所述方法包括:
    显示所述赛事活动虚拟场景;
    响应于触发的所述赛事活动运行设计方案的设计操作,模拟运行所述赛事活动运行设计方案。
  8. 根据权利要求7所述的方法,其中,所述模拟运行所述赛事活动运行设计方案,包括:
    显示与所述赛事活动运行设计方案相关联的目标界面;其中,所述目标界面包括展示所述赛事活动运行设计方案的界面,以及设计所述赛事活动运行设计方案的设计操作对应的待浏览界面;
    响应于触发的所述目标界面上的设计操作,模拟所述设计操作,输出对所述赛事活动运行设计方案产生的模拟运行结果。
  9. 根据权利要求8所述的方法,其中,所述模拟所述设计操作,输出对所述赛事活动运行设计方案产生的模拟运行结果,包括:
    响应于所述模拟运行结果未达到预期目标,重新执行所述响应于触发的所述目标界面上的设计操作,模拟所述设计操作,输出对所述赛事活动运行设计方案产生的模拟运行结果的步骤,直到新的模拟运行结果达到所述预期目标。
  10. 根据权利要求7所述的方法,其中,所述响应于触发的所述赛事活动运行设计方案的设计操作,模拟运行所述赛事活动运行设计方案,包括:
    响应于在自由视角画面中的目标位置触发的虚拟摄影装置添加动作,在所述目标位置显示虚拟摄影装置,并在顶视图画面中根据所述虚拟摄影装置的预设位姿数据和预设拍摄参数模拟所述虚拟摄影装置的视角范围;
    响应于触发的所述视角范围的确认动作,显示与所述目标位置对应的虚拟摄影装置的位置相关参数;
    响应于触发的所述位置相关参数的确认动作,在由所述虚拟摄影装置拍摄的虚拟影像画面中显示所述虚拟摄影装置的拍摄效果;
    响应于触发的所述拍摄效果的确认动作,确定完成所述虚拟摄影装置的模拟运行设计。
  11. 根据权利要求7所述的方法,其中,所述方法还包括:
    预先存储每个设计元素至与所述每个设计元素分别对应的设计元素库中;
    从每个设计元素库中获取对应的设计元素,其中,所述设计元素用于设计所述赛事活动运行设计方案。
  12. 一种电子设备,包括:
    至少一个处理器;
    存储器,设置为存储至少一个程序,
    当所述至少一个程序被所述至少一个处理器执行,使得所述至少一个处理器实现如权利要求7-11中任一项所述的使用赛事活动运行仿真系统的方法。
  13. 一种计算机可读存储介质,所述计算机可读存储介质存储有计算机程序,所述计算机程序被设置为运行时执行如权利要求7-11中任一项所述的使用赛事活动运行仿真系统的方法。
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