WO2023226686A1

WO2023226686A1 - Simulation performance control system and control method

Info

Publication number: WO2023226686A1
Application number: PCT/CN2023/091437
Authority: WO
Inventors: 万中魁; 关红涛; 王全忠
Original assignee: 京东方科技集团股份有限公司
Priority date: 2022-05-27
Filing date: 2023-04-28
Publication date: 2023-11-30
Also published as: CN114995228A

Abstract

A simulation performance control system and control method, belonging to the technical field of computers, and being capable of solving the existing problem that a large-scale performance needs multiple rehearsals, a performance control system needs to be debugged and rehearsed for multiple times during each rehearsal, and the cost is very high. The simulation performance control system comprises: a central control layer (101) and a terminal device layer (102); the central control layer (101) is configured to generate a control signal by means of a processor according to a preset performance scenario; and the terminal device layer (102) is configured to adjust, according to the control signal, ordered actions matching the preset performance scenario.

Description

Simulation performance control system and control method

Technical field

The present disclosure belongs to the field of computer technology, and specifically relates to a simulation performance control system and a control method.

Background technique

Performance control systems generally include: stages, elevators, background screens, audio equipment, lighting equipment and other equipment. To present a complete performance, various equipment is required to cooperate and adjust orderly movements.

Especially before large-scale performances, such as the opening and closing ceremonies of the Olympic Games, multiple previews are required. During each preview, the performance control system requires multiple debugging and rehearsals, which is very costly. Especially for open-air performances, each preview also requires the cooperation of fireworks, which requires a huge amount of manpower and material resources to be debugged in order to achieve satisfactory results.

Contents of the invention

The present disclosure aims to solve at least one of the technical problems existing in the prior art and provide a simulation performance control system and a control method.

In a first aspect, embodiments of the present disclosure provide a simulated performance control system, wherein the simulated performance control system includes: a central control layer and a terminal equipment layer;

The central control layer is configured to generate a control signal through a processor according to a preset performance scene;

The terminal device layer is configured to adjust orderly actions in conjunction with the preset performance scene according to the control signal.

Optionally, the central control layer includes: a central control computer, a display computer, an audio computer, relay control panels and network switches;

The central control computer, the display computer, the audio computer and the relay control board are all connected to the network switch, and the central control computer includes the processor.

Optionally, the terminal equipment layer includes: elevators, background screens, audio equipment and lighting equipment;

The elevator is connected to the central control computer;

The background screen is connected to the display computer;

The audio equipment is connected to the audio computer;

The lighting equipment is connected to the relay control board.

Optionally, the central control layer also includes: an Internet of Things gateway;

The Internet of Things gateway is connected to the network switch.

Optionally, the terminal equipment layer also includes: temperature and humidity sensors, smoke fire alarms and water immersion sensors;

The temperature and humidity sensor, the smoke fire alarm and the water immersion sensor are all connected to the Internet of Things gateway.

Optionally, the simulation performance control system also includes: a system switch layer;

The system switch layer is configured to identify the user's control authority over the simulation performance based on the user's identity.

Optionally, the system switch layer includes: card reader, industrial computer and voice announcer;

The card reader is configured to identify the user's identity based on the user's card information;

The industrial computer is connected to the card reader and the central control layer, and is configured to analyze the user's identity, identify the user's control authority over the simulation performance, and transmit the information about the control authority to the central control layer. control layer;

The voice broadcaster is connected to the industrial computer and is configured to broadcast the corresponding prompt voice according to the user's control authority over the simulation performance.

Optionally, the simulation performance control system also includes: a power layer;

The power layer is configured to provide power to the central control layer and the terminal equipment layer according to a preset performance scenario.

Optionally, the power layer includes: multiple sequential power supplies connected in series;

Each of the sequential power supplies includes: multiple power interfaces;

The plurality of power interfaces are respectively connected to the central control layer and the terminal equipment layer.

Optionally, the power layer also includes: a smart meter;

The smart meter is connected to the plurality of sequential power supplies.

Optionally, the power layer also includes: an open-drain protection circuit protector;

The air-to-drain protection circuit protector is connected to the smart meter.

In a second aspect, embodiments of the present disclosure provide a simulated performance control method, wherein the simulated performance control method includes:

According to the preset performance scene, the control signal is generated through the processor;

According to the control signal, the orderly actions of the performance equipment and the preset performance scene are adjusted.

Optionally, the preset performance scene generates a control signal through the processor, including:

According to the preset performance scene, input instructions related to orderly actions that match the preset performance scene;

Use the processor to execute instructions related to orderly actions that match the preset performance scene and generate control signals;

The control signals are transmitted to the display computer, audio computer and relay control board through the network switch.

Optionally, the orderly actions for adjusting the performance equipment to cooperate with the preset performance scene according to the control signal include:

Under the control of the central control machine, adjust the lifting height of the elevator;

Under the control of the display computer, adjust the display screen of the background screen;

Under the control of the audio computer, adjust the sound effects of the audio equipment;

Under the control of the relay control board, the lighting of the lighting equipment is adjusted.

In a third aspect, an embodiment of the present disclosure provides an electronic device, which includes:

one or more processors;

A storage device on which one or more programs are stored. When the one or more programs are executed by the one or more processors, the one or more processors implement the above-mentioned simulation performance control method;

One or more I/O interfaces are connected between the processor and the memory, and are configured to implement information exchange between the processor and the memory.

In a fourth aspect, embodiments of the present disclosure provide a computer-readable storage medium on which a computer program is stored. When the computer program is executed by a processor, the above-mentioned simulation performance control method is implemented.

Description of the drawings

Figure 1 is a schematic diagram of an exemplary performance control flow;

Figure 2 is a schematic structural diagram of a simulation performance control system provided in some embodiments of the present disclosure;

Figure 3 is a schematic flowchart of a simulation performance control method provided in some embodiments of the present disclosure;

Figure 4 is a schematic flowchart of generating control signals in the simulation performance control method provided in some embodiments of the present disclosure;

Figure 5 is a schematic flowchart of orderly actions for adjusting performance equipment to cooperate with the preset performance scene in the simulated performance control method provided in some embodiments of the present disclosure;

Figure 6 is a schematic structural diagram of an electronic device provided in some embodiments of the present disclosure.

Detailed ways

In order to enable those skilled in the art to better understand the technical solutions of the present disclosure, the following is provided in conjunction with the accompanying drawings and specific The present disclosure is described in further detail in the following embodiments.

Unless otherwise defined, technical terms or scientific terms used in this disclosure shall have the usual meaning understood by a person with ordinary skill in the art to which this disclosure belongs. "First", "second" and similar words used in this disclosure do not indicate any order, quantity or importance, but are only used to distinguish different components. Likewise, similar words such as "a", "an" or "the" do not indicate a quantitative limitation but rather indicate the presence of at least one. Words such as "include" or "comprising" mean that the elements or things appearing before the word include the elements or things listed after the word and their equivalents, without excluding other elements or things. Words such as "connected" or "connected" are not limited to physical or mechanical connections, but may include electrical connections, whether direct or indirect. "Up", "down", "left", "right", etc. are only used to express relative positional relationships. When the absolute position of the described object changes, the relative positional relationship may also change accordingly.

Performance control systems generally include: stages, elevators, background screens, audio equipment, lighting equipment and other equipment. To present a complete performance, various equipment is required to cooperate and adjust orderly movements. Figure 1 is a schematic diagram of an exemplary performance control flow. As shown in Figure 1, there are two programs arranged in the performance, namely program A and program B. During the process of program A, the elevator needs to raise and lower a series of actions, and the background screen needs to display the corresponding display screen of program A. At the same time, the audio equipment needs to play the corresponding sound effects of program A, and the lighting equipment will also follow the movement of program A. to adjust the lighting effects. During the switching process between program A and program B, and during the progress of program B, equipment such as lifts, background screens, audio equipment, and lighting equipment also perform corresponding orderly actions.

Especially before large-scale performances, such as the opening and closing ceremonies of the Olympic Games, multiple previews are required. At each preview, the performance control system needs to be debugged and rehearsed multiple times according to the above control process, which is very costly. Especially for open-air performances, each preview also requires the cooperation of fireworks, which requires a huge amount of manpower and material resources to be debugged in order to achieve satisfactory results.

In order to solve at least one of the above technical problems, embodiments of the present disclosure provide a simulation performance control system and a control method. The embodiments of the present disclosure will be described below in conjunction with the accompanying drawings and specific implementation modes. The simulation performance control system and control method provided are described in further detail.

In a first aspect, embodiments of the present disclosure provide a simulated performance control system. Figure 2 is a schematic structural diagram of a simulated performance control system provided in some embodiments of the present disclosure. As shown in Figure 2, the simulated performance control system includes: The central control layer 101 and the terminal equipment layer 102; the central control layer 101 is configured to generate a control signal through the processor according to the preset performance scene; the terminal equipment layer 102 is configured to adjust the parameters that match the preset performance scene according to the control signal. sequence action.

The central control layer 101 is provided with a processor, which can execute instructions related to ordered actions that match the preset performance scene. The ordered actions here can specifically control the playback time and sequence of the display images on the background screen, etc. It can also be the playback time and sequence of the sound effects of the audio equipment. Of course, it can also be used for the orderly movement of other equipment such as lifts and lighting equipment.

At the same time, the central control layer 101 can generate control signals for these orderly actions and send the control signals to the terminal device layer 102 .

The terminal device layer 102 can receive the control signal sent by the central control layer 101, and under the control of the control signal, adjust the actions of each device therein to realize the simulation performance. For example, while program A is in progress, the background screen is controlled to display the corresponding display screen of program A, and at the same time, the audio equipment plays the corresponding sound effects of program A, etc.

In the simulated performance control system provided by the embodiment of the present disclosure, the central control layer 101 can control each device in the terminal device layer 102 to adjust orderly actions in conjunction with the preset performance scene to realize the simulated performance. In this way, it is not necessary to perform the simulation on the stage. Conduct multiple actual rehearsals to control the actions of each equipment, thus saving manpower and material costs.

During the simulation performance, if some devices in the terminal equipment layer 102 cannot meet the needs of the preset performance scene, the control signal is modified by modifying the instructions executed by the processor in the central control layer 101. After the modification of the relevant instructions is completed, The simulation performance is performed again to adjust the orderly actions of each device in the terminal equipment layer 102 through control signals until each device in the terminal equipment layer 102 can meet the needs of the preset performance scene, thus further saving manpower and time for the performance. material resources Book.

At the same time, for special requirements such as fireworks in open-air performance scenes, the corresponding display screen of the fireworks can be directly displayed in the terminal equipment layer 102 to achieve the fireworks effect. It is not necessary to set off fireworks during each preview process, thus further saving can be achieved. Performance costs.

In some embodiments, as shown in Figure 2, the central control layer 101 includes: a central control computer 1011, a display computer 1012, an audio computer 1013, a relay control board 1014, and a network switch 1015; The computer 1013 and the relay control board 1014 are both connected to the network switch 1015, and the central control computer 1011 is provided with a processor.

The central control computer 1011 is provided with a processor, and the processor can execute instructions related to orderly actions that match the preset performance scene. The orderly actions here can specifically control the playback time and sequence of the display images on the background screen, etc. It can also be the playback time and sequence of the sound effects of the audio equipment. Of course, it can also be used for the orderly movement of other equipment such as lifts and lighting equipment. At the same time, the central control computer 1011, the display computer 1012, the audio computer 1013 and the relay control board 1014 can all be connected to the network switch 1015. The central control computer 1011 can be connected to the display computer 1012, the audio computer 1013 and the relay control board 1014 through the network switch 1015. Information exchange.

During the simulation performance, the user only needs to input instructions related to orderly actions that match the preset performance scene into the processor in the central control computer 1011 to realize the display computer 1012, audio computer 1013 and relay control board 1014. Information interaction of control signals eliminates the need to separately input relevant instructions for orderly actions that match the preset performance scene to the display computer 1012, audio computer 1013, relay control board 1014, etc., so that the entire central control layer 101 can be realized Information exchange of control signals can save performance costs.

In some embodiments, as shown in Figure 2, the terminal equipment layer 102 includes: a lift 1021, a background screen 1022, an audio device 1023 and a lighting device 1024; the lift 1021 is connected to the central control computer 1011; the background screen 1022 is connected to the display computer 1012 ; The audio equipment 1023 is connected to the audio computer 1013; the lighting equipment 1024 is connected to the relay control board 1014.

The elevator 1021 is connected to the central control computer 1011. Under the control of the central control computer 1011, the elevator 1021 can be raised or lowered in a certain sequence according to the preset performance scene to meet the performance needs. The background screen 1022 is connected to the display computer 1012, and the background screen 1022 can display a corresponding display screen under the control of the display computer 1012. The audio equipment 1023 is connected to the audio computer 1013, and the audio equipment 1023 can play corresponding sound effects under the control of the audio computer 1013. The lighting device 1024 is connected to the relay control board 1014, and the lighting device 1024 can provide corresponding lighting under the control of the relay control board 1014. It can be seen that each device in the terminal equipment layer 102 can, under the control of the corresponding computer module in the central control layer 101, provide performance sound and light effects for the stage to achieve simulated performances. This eliminates the need to perform multiple functions on the stage. It can control the actions of each equipment through actual rehearsals, so it can save manpower and material costs.

In some embodiments, the central control layer 101 also includes: an Internet of Things gateway 1016; the Internet of Things gateway 1016 is connected to the network switch 1015.

The Internet of Things gateway 1016 can be used as a monitoring device in the simulation performance control system. It is connected to the network switch 1015 and can realize information interaction with the central control computer 1011 through the network switch 1015.

In some embodiments, the terminal equipment layer 102 also includes: a temperature and humidity sensor 1025, a smoke fire alarm 1026, and a water immersion sensor 1027; the temperature and humidity sensor 1025, the smoke fire alarm 1026, and the water immersion sensor 1027 are all connected to the Internet of Things. Gateway 1024 connection.

The temperature and humidity sensor 1025 can monitor the temperature and humidity of the external environment, the smoke fire alarm 1026 can monitor the smoke status of the external environment, and the water immersion sensor 1027 can monitor the rain status of the external environment, so that the external environment can be monitored in real time. At the same time, the temperature and humidity sensor 1025, the smoke and fire alarm 1026 and the water immersion sensor 1027 are all connected to the Internet of Things gateway 1016 through the RS485 bus, and the status information of the external environment is transmitted to the central control computer 1011 through the network switch 1015, which can indicate and control the outside world. Environmental status and the overall operating status of the simulation performance control system to avoid changes in the external environment from affecting the simulation performance control system. For example, temperature and humidity sensor 1025 When it is detected that the temperature of the external environment is too high, the corresponding equipment can be controlled to stop working through the central control computer 1011 to protect the equipment and avoid damage to the equipment caused by excessive temperature.

In some embodiments, as shown in Figure 2, the simulation performance control system also includes: a system switch layer 103; the system switch layer 103 is configured to identify the user's control authority for the simulation performance based on the user's identity.

The system switch layer 103 can identify the user's identity and can only be turned on by users who have control authority over the simulated performance to prevent more people from controlling the simulated performance and causing interference to the simulated performance control system and affecting the performance effect.

In some embodiments, as shown in Figure 2, the system switch layer 103 includes: a card reader 1031, an industrial computer 1032 and a voice announcer 1033; the card reader 1031 is configured to identify the user's identity based on the user's card information; the industrial control The machine 1032 is connected to the card reader and the central control layer 101, and is configured to analyze the user's identity, identify the user's control authority for the simulation performance, and transmit the control authority information to the central control layer 101; the voice announcer 1033 and The industrial computer 1032 is connected and configured to broadcast the corresponding prompt voice according to the user's control authority over the simulation performance.

The card reader 1031 can read the user's card information. The card can be a business card or other card that stores the user's identity information. The card reader 1031 can identify the user's identity and send the user's identity information to the industrial computer 1032 . The industrial computer 1032 can analyze the user's identity and determine whether the user has the authority to open the simulation performance control system. If the user has the permission to open, the simulation performance control is realized through the central control layer 101. The specific control process can refer to the orderly actions of the elevator 1021, background screen 1022, audio equipment 1023, lighting equipment 1024 and other equipment as described above. and adjustments will not be described in detail here. At the same time, the voice player 1033 can broadcast the prompt voice "Welcome XXX". If the user does not have the permission to open the card, the control process is terminated, and the voice player 1033 can broadcast the prompt voice "This card does not have permission".

In some embodiments, the simulated performance control system also includes: a power supply layer 104; the power supply layer 104 is configured to provide power to the central control layer 101 and the terminal equipment layer 102 according to the preset performance scenario.

The power supply layer 104 can provide power for the central control layer 101 and the terminal equipment layer 102 to ensure that each device in the central control layer 101 and the terminal equipment layer 102 can operate normally.

In some embodiments, the power layer 104 includes: multiple sequential power supplies 1041 connected in series; each sequential power supply 1041 includes: multiple power interfaces; the multiple power interfaces are respectively connected to the central control layer 101 and the terminal equipment layer 102.

In a specific example, the number of sequential power supplies 1041 can be two. Each sequential power supply 1041 has 8 power interfaces. The two sequential power supplies 1041 are denoted as 1041a and 1041b respectively, and each power interface can be denoted as 1-1 respectively. ,1-2,1-3,1-4,1-5,1-6,1-7,1-8,2-1,2-2,2-3,2-4,2-5,2 -6, 2-7, 2-8. Power interfaces 1-1, 1-2, 1-3, 1-4, 1-5, 1-6, 1-7, 1-8, 2-1, 2-2, 2-3, 2-4 respectively With central control computer 1011, display computer 1012, audio computer 1013, relay control board 1014, Internet of Things gateway 1016, lift 1021, background screen 1022, audio equipment 1023, lighting equipment 1024, temperature and humidity sensor 1025, smoke fire alarm 1026 Connect to the water immersion sensor 1027 to power each device respectively and control the startup and shutdown of each device. The industrial computer 1032 in the system switch layer 103 is connected to the RS485 interface of the sequential power supply 1041a through the RS485 bus, and the sequential power supply 1041a is connected to the RS485 interface of the sequential power supply 1041b through the LINK interface, so that the sequential power supply 1041a and the sequential power supply 1041b are connected in series. The industrial computer 1032 sends control instructions to the sequential power supply 1041a and the sequential power supply 1041b through the RS485 bus, so that each device in the central control layer 101 and the terminal equipment layer 102 is powered on and off according to a certain sequence, which can prevent a large number of devices from being powered on at the same time. If it is too large and the power is too high, it will damage the system power supply. It can also prevent the simultaneous power outage from causing the status of each device to not be set, affecting the next boot.

In some embodiments, as shown in Figure 2, the power layer 104 also includes: a smart meter 1042; the smart meter 1042 is connected to multiple sequential power supplies 1041.

The smart meter 1042 can monitor the power supply status of each device in real time, and count the current, voltage, power, energy consumption and other parameters of each device to avoid abnormal parameters such as current or voltage in the circuit, causing damage to it and affecting the simulation performance.

In some embodiments, the power layer 104 also includes: an open-drain circuit protector 1043; the open-drain circuit protector 043 is connected to the smart meter 1042.

The circuit breaker protector 1043 can protect each device when a circuit breaker or leakage fault occurs, so that the faulty device stops working to avoid damage to it and affect the simulation performance.

In the second aspect, embodiments of the disclosure provide a simulation performance control method. Figure 3 is a schematic flowchart of a simulation performance control method provided in some embodiments of the disclosure. As shown in Figure 3, the simulation provided by embodiments of the disclosure The performance control method includes the following steps S301 to S302.

S301, generate a control signal through the processor according to the preset performance scene.

S302: According to the control signal, adjust the orderly actions of the performance equipment to cooperate with the preset performance scene.

The simulated performance control method provided by the embodiments of the present disclosure can be applied to the simulated performance control system provided by any of the above embodiments. According to the preset performance scene, the processor in the central control layer can be used to input information that matches the preset performance scene. Instructions related to ordered actions, the processor can generate control signals when executing the above related instructions, and then adjust the orderly actions that match the preset performance scene according to the control signals to achieve simulated performances. This eliminates the need to perform multiple steps on the stage. It can control the actions of each equipment through actual rehearsals, so it can save manpower and material costs.

During the simulation performance, if some equipment cannot meet the needs of the preset performance scene, the control signal will be corrected by modifying the instructions executed by the processor in the central control layer. After the modification of the relevant instructions is completed, the simulation performance will be performed again to pass Control signals are used to adjust the orderly actions of each device until each device can meet the needs of the preset performance scene, thus further saving the human and material costs of the performance.

At the same time, for special requirements such as fireworks in open-air performance scenes, the corresponding display screen of the fireworks can be directly displayed during the simulation performance to achieve the fireworks effect. It is not necessary to set off fireworks during each preview process, thus further saving the performance. cost.

Figure 4 shows the control signal generated in the simulation performance control method provided in some embodiments of the present disclosure. As shown in the schematic flow chart of FIG. 4 , the above-mentioned step S301 may specifically include steps S401 to S403.

S401: According to the preset performance scene, input instructions related to orderly actions that match the preset performance scene.

S402: Use the processor to execute instructions related to orderly actions matching the preset performance scene and generate a control signal.

S403, through the network switch, transmits the control signal to the display computer, audio computer and relay control board.

The central control computer 1011 is provided with a processor, and the user can input relevant instructions of orderly actions that match the preset performance scene into the processor. The orderly actions here can specifically be to control the playback time and display screen of the background screen. Sequence, etc., can also be the playback time and sequence of sound effects of audio equipment, etc. Of course, it can also be used for the orderly movement of other equipment such as lifts and lighting equipment. The processor can generate control signals when executing relevant instructions. At the same time, the central control computer 1011, the display computer 1012, the audio computer 1013 and the relay control board 1014 can all be connected to the network switch 1015. The central control computer 1011 can be connected to the display computer 1012, the audio computer 1013 and the relay control board 1014 through the network switch 1015. Information exchange.

During the simulation performance, the user only needs to input relevant instructions for orderly actions that match the preset performance scene into the processor in the central control computer 1011, and the display computer 1012 and audio computer 1013 can be implemented through the network switch 1015. Information interaction with the control signals of the relay control board 1014 can be achieved without having to separately input relevant instructions for orderly actions that match the preset performance scene to the display computer 1012, audio computer 1013, and relay control board 1014. Information exchange of control signals of the entire central control layer 101 can save performance costs.

Figure 5 is a schematic flow chart of orderly actions for adjusting performance equipment to cooperate with the preset performance scene in the simulated performance control method provided in some embodiments of the present disclosure. As shown in Figure 4, the above steps Step S302 may specifically include steps S501 to S504.

S501, under the control of the central control computer, adjusts the lifting height of the elevator.

S502, under the control of the display computer, adjust the display image of the background screen.

S503, under the control of the audio computer, adjusts the sound effects of the audio equipment.

S504, under the control of the relay control board, adjust the lighting of the lighting equipment.

The elevator 1021 can be controlled by the central control computer 1011 and can perform actions such as raising or lowering in a certain sequence according to the preset performance scene to meet performance needs. The background screen 1022 can display a corresponding display screen under the control of the display computer 1012. The audio equipment 1023 can play corresponding sound effects under the control of the audio computer 1013. The lighting device 1024 can provide corresponding lighting under the control of the relay control board 1014. It can be seen that each device can provide performance sound and light effects for the stage under the control of the corresponding computer module to achieve simulated performances. This eliminates the need to control the actions of each device through multiple actual previews on the stage. Therefore, human and material costs can be saved.

In a third aspect, embodiments of the present disclosure provide an electronic device. Figure 6 is a schematic structural diagram of an electronic device provided in some embodiments of the present disclosure. As shown in Figure 6, the electronic device includes: one or more processors 601 ; Memory 602, on which one or more programs are stored, when one or more programs are executed by one or more processors, so that one or more processors implement the simulation performance control method provided by any of the above embodiments; a Or multiple I/O interfaces 603, connected between the processor and the memory, configured to realize information exchange between the processor and the memory.

Among them, the processor 601 is a device with data processing capabilities, including but not limited to a central processing unit (CPU), etc.; the memory 602 is a device with data storage capabilities, including but not limited to random access memory (RAM, more specifically Such as SDRAM, DDR, etc.), read-only memory (ROM), electrically erasable programmable read-only memory (EEPROM), flash memory (FLASH); I/O interface (read-write interface) 603 is connected between the processor 601 and the memory 602 , can realize information interaction between the processor 601 and the memory 602, which includes but is not limited to a data bus (Bus), etc.

In some embodiments, processor 601, memory 602, and I/O interface 603 are connected to each other and, in turn, to other components of the computing device via a bus.

In the fourth aspect, this embodiment provides a computer-readable medium on which a computer program is stored. When the program is executed by a processor, the simulation performance control method provided by any of the above embodiments is implemented.

Those of ordinary skill in the art can understand that all or some steps, systems, and functional modules/units in the devices disclosed above can be implemented as software, firmware, hardware, and appropriate combinations thereof. In hardware implementations, the division between functional modules/units mentioned in the above description does not necessarily correspond to the division of physical components; for example, one physical component may have multiple functions, or one function or step may consist of several physical components. Components execute cooperatively. Some or all of the physical components may be implemented as software executed by a processor, such as a central processing unit, a digital signal processor, or a microprocessor, or as hardware, or as an integrated circuit, such as an application specific integrated circuit . Such software may be distributed on computer-readable media, which may include computer storage media (or non-transitory media) and communication media (or transitory media). As is known to those of ordinary skill in the art, the term computer storage media includes volatile and nonvolatile media implemented in any method or technology for storage of information such as computer readable instructions, data structures, program modules or other data. removable, removable and non-removable media. Computer storage media includes, but is not limited to, RAM, ROM, EEPROM, flash memory or other memory technology, CD-ROM, Digital Versatile Disk (DVD) or other optical disk storage, magnetic cassettes, tapes, disk storage or other magnetic storage devices, or may Any other medium used to store desired information and that can be accessed by a computer. Additionally, it is known to those of ordinary skill in the art that communication media typically embodies computer readable instructions, data structures, program modules or other data in a modulated data signal such as a carrier wave or other transport mechanism, and may include any information delivery media .

It should be noted that, in this document, the terms "comprising", "comprising" or any other variations thereof are intended to cover a non-exclusive inclusion, such that a process, method, article or device that includes a series of elements not only includes those elements, and include other elements not explicitly listed, or Includes elements inherent to such process, method, article or device. Without further limitation, an element defined by the statement "comprises a..." does not exclude the presence of additional identical elements in a process, method, article, or device that includes that element.

It can be understood that the above embodiments are only exemplary embodiments adopted to illustrate the principles of the present disclosure, but the present disclosure is not limited thereto. For those of ordinary skill in the art, various modifications and improvements can be made without departing from the spirit and essence of the disclosure, and these modifications and improvements are also regarded as the protection scope of the disclosure.

Claims

A simulation performance control system, wherein the simulation performance control system includes: a central control layer and a terminal equipment layer;

The central control layer is configured to generate a control signal through a processor according to a preset performance scene;

The terminal device layer is configured to adjust orderly actions in conjunction with the preset performance scene according to the control signal.
The simulation performance control system according to claim 1, wherein the central control layer includes: a central control computer, a display computer, an audio computer, a relay control panel and a network switch;

The central control computer, the display computer, the audio computer and the relay control board are all connected to the network switch, and the central control computer is provided with the processor.
The simulation performance control system according to claim 2, wherein the terminal equipment layer includes: elevators, background screens, audio equipment and lighting equipment;

The elevator is connected to the central control computer;

The background screen is connected to the display computer;

The audio equipment is connected to the audio computer;

The lighting equipment is connected to the relay control board.
The simulation performance control system according to claim 2, wherein the central control layer further includes: an Internet of Things gateway;

The Internet of Things gateway is connected to the network switch.
The simulation performance control system according to claim 4, wherein the terminal equipment layer further includes: temperature and humidity sensors, smoke fire alarms and water immersion sensors;

The temperature and humidity sensor, the smoke fire alarm and the water immersion sensor are all connected to the Internet of Things gateway.
The simulated performance control system according to claim 3, wherein the simulated performance control system further includes: a system switch layer;

The system switch layer is configured to identify the user's control authority over the simulation performance based on the user's identity.
The simulation performance control system according to claim 6, wherein the system switch layer includes: a card reader, an industrial computer and a voice announcer;

The card reader is configured to identify the user's identity based on the user's card information;

The industrial computer is connected to the card reader and the central control layer, and is configured to analyze the user's identity, identify the user's control authority over the simulation performance, and transmit the information about the control authority to the central control layer. control layer;

The voice broadcaster is connected to the industrial computer and is configured to broadcast the corresponding prompt voice according to the user's control authority over the simulation performance.
The simulated performance control system according to claim 6, wherein the simulated performance control system further includes: a power layer;

The power layer is configured to provide power to the central control layer and the terminal equipment layer according to a preset performance scenario.
The simulation performance control system according to claim 8, wherein the power layer includes: a plurality of sequential power supplies connected in series;

Each of the sequential power supplies includes: multiple power interfaces;

The plurality of power interfaces are respectively connected to the central control layer and the terminal equipment layer.
The simulation performance control system according to claim 9, wherein the power layer further includes: a smart meter;

The smart meter is connected to the plurality of sequential power supplies.
The simulation performance control system according to claim 10, wherein the power layer further includes: an open-drain protection circuit protector;

The air-to-drain protection circuit protector is connected to the smart meter.
A simulation performance control method, wherein the simulation performance control method includes:

According to the preset performance scene, the control signal is generated through the processor;

According to the control signal, the orderly actions of the performance equipment and the preset performance scene are adjusted.
The simulated performance control method according to claim 12, wherein the preset performance scene generates a control signal through a processor, including:

According to the preset performance scene, input instructions related to orderly actions that match the preset performance scene;

Use the processor to execute instructions related to orderly actions that match the preset performance scene and generate control signals;

The control signals are transmitted to the display computer, audio computer and relay control board through the network switch.
The simulated performance control method according to claim 13, wherein the orderly action of adjusting the performance equipment to cooperate with the preset performance scene according to the control signal includes:

Under the control of the central control machine, adjust the lifting height of the elevator;

Under the control of the display computer, adjust the display screen of the background screen;

Under the control of the audio computer, adjust the sound effects of the audio equipment;

Under the control of the relay control board, the lighting of the lighting equipment is adjusted.
An electronic device including:

one or more processors;

A storage device on which one or more programs are stored, and when the one or more programs are executed by the one or more processors, the one or more processors implement any one of claims 12 to 14 The simulation performance control method described in the item;

One or more I/O interfaces are connected between the processor and the memory, and are configured to implement information exchange between the processor and the memory.
A computer-readable storage medium on which a computer program is stored. When the computer program is executed by a processor, the simulation performance control method according to any one of claims 12 to 14 is implemented.