CN117729677A - Stage lamp calibration system, method, equipment and medium - Google Patents

Abstract

The application discloses a stage lamp calibration system, a stage lamp calibration method, a stage lamp calibration device, a stage lamp calibration equipment and a stage lamp calibration medium, and relates to the technical field of stage lamp calibration, wherein the stage lamp calibration system comprises a stage lamp and a visual calibration device; the visual calibration device comprises a communication connection module; the visual calibration device acquires calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information of stage lamps to be calibrated and calibration target values; the visual calibration device generates a calibration configuration instruction based on the calibration configuration parameters, matches corresponding stage lamps to be calibrated with the identification information of the stage lamps, and sends the calibration configuration instruction to the stage lamps to be calibrated; the stage lamp to be calibrated is automatically calibrated based on the calibration target value indicated by the received calibration configuration instruction; the visual calibration device inputs a preset record list based on a calibration configuration instruction, wherein the preset record list comprises a plurality of stage lamps and corresponding calibration configuration parameters; the application has the effect of being convenient for calibrate stage lamp.

Description

Stage lamp calibration system, method, equipment and medium

Technical Field

The application relates to the technical field of stage lamp calibration, in particular to a stage lamp calibration system, a stage lamp calibration method, stage lamp calibration equipment and a stage lamp calibration medium.

Background

When the stage lamp is in actual use, a plurality of stage lamps are usually installed at different heights and positions to meet the requirements of the performance stage; in order to ensure that the projection range and effect of a plurality of stage lamps meet the expectations, control parameters of the position, focal length, color temperature, light beam, light intensity and the like of the stage lamps need to be calibrated in advance so as to ensure that each stage lamp generates the expected light effect.

In the related art, the calibration of the control parameters of the stage lamp needs to be performed through a mechanical button arranged on the stage lamp, and when the stage lamp is reused after the power supply is turned off, the control parameters of the stage lamp can be restored to default control parameter values of the stage lamp, so that the stage lamp usually needs to perform calibration work of the control parameters before being used; and when actual scene, to the crowded place condition that hangs the stage lamp in eminence or stage lamp's mounted position is narrower, there is the defect of being inconvenient for carrying out the calibration to the stage lamp, need improve.

Disclosure of Invention

In order to facilitate calibrating stage lamps, the application provides a stage lamp calibration system, a stage lamp calibration method, a stage lamp calibration device and a stage lamp calibration medium.

The first technical scheme adopted by the invention of the application is as follows:

the stage lamp calibration system comprises stage lamps and a visual calibration device for sending calibration configuration instructions to the stage lamps;

the visual calibration device comprises a communication connection module which is used for being in communication connection with the stage lamp; the visual calibration device acquires calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information of stage lamps to be calibrated and calibration target values;

the visual calibration device generates a calibration configuration instruction based on the calibration configuration parameters, matches corresponding stage lamps to be calibrated with the identification information of the stage lamps, and sends the calibration configuration instruction to the stage lamps to be calibrated;

the stage lamp to be calibrated automatically performs calibration based on the received calibration target value indicated by the calibration configuration instruction;

the visual calibration device inputs a preset record list based on the calibration configuration instruction, wherein the preset record list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

By adopting the technical scheme, the visual calibration device is in communication connection with the stage lamp through the communication connection module, so that a user can conveniently calibrate the control parameters of the stage lamp in a mode of generating a calibration configuration instruction and remotely controlling the stage lamp after inputting the calibration configuration parameters through the visual calibration device; when the stage lamp receives the calibration configuration instruction, the effect of automatically calibrating the control parameters of the stage lamp to the calibration target value in real time can be achieved, when the first calibration configuration instruction does not reach the expected light effect, the specific numerical value of the calibration configuration parameter can be adjusted, the user sends the calibration configuration instruction again to adjust the control parameters of the current stage lamp, the steps are repeated, so that the current calibrated stage lamp generates the expected light effect, and the control parameters of the stage lamp are the finally determined calibration configuration parameters; thereby facilitating calibration of stage lamps.

Furthermore, the visual calibration device can also record the finally determined calibration configuration parameters corresponding to the calibration configuration instructions into a record list, wherein the record list comprises a plurality of stage lamps and corresponding calibration configuration parameters stored by a user, and each stage lamp is provided with unique identification information; when the stage lamp is restarted and used, for the same stage setting up scene, when the prior stage lamp light effect is hoped to be used, the corresponding calibration configuration parameters can be directly called through the record list and the identification information of the stage lamp, and then the calibration configuration instructions can be directly sent, so that a user does not need to reset the calibration configuration parameters one by one, and the operation is more convenient.

In a preferred example, the present application: the stage lamp is provided with initial control parameters; the calibration configuration parameters include a plurality of different control parameter types; the visual calibration device comprises a plurality of different parameter adjustment areas and a recovery key;

the parameter adjustment areas are matched with the control parameter types one by one; each parameter adjustment area is respectively provided with a parameter adjustment range;

the visual calibration device responds to the operation input of a user to select the control parameter type corresponding to the stage lamp which is currently calibrated, and responds to the operation input of the user to select the target parameter value of the corresponding parameter adjustment area; taking all the control parameter types and the corresponding target parameter values as the calibration configuration parameters;

and the visual calibration device responds to the pressing operation of the recovery key to adjust the control parameters of the stage lamp which are currently calibrated to the initial control parameters.

By adopting the technical scheme, the stage lamp is provided with default initial control parameters, and when the stage lamp is started up and used and the calibration configuration parameters input by a user are not received, the stage lamp displays initial light effects based on the initial control parameters; the calibration configuration parameters comprise different control parameter types such as focal length, color temperature, light beam, light intensity and the like; in order to distinguish a plurality of different control parameter types of the same stage lamp, the visual calibration device is provided with a plurality of different parameter adjustment areas corresponding to the control parameter types one by one, for example, the calibration channel setting range of the stage lamp is 1-80, wherein 1-5 of the stage lamp calibration channel represents the focal length calibration channel of the stage lamp, 6-10 of the calibration channel represents the color temperature calibration channel of the stage lamp, and the like; each parameter adjustment area is respectively provided with a parameter adjustment range, for example, the parameter adjustment range of the light intensity of the stage lamp is 1400XL-2200XL.

The user inputs the operation through the visual calibration device to determine target parameter values of a plurality of control parameter types, and the calibration configuration parameters of the stage lamp are obtained after adjustment is completed; thereby providing a visual remote stage light calibration system; furthermore, in the stage lamp calibration process, the control parameters of the stage lamp can be restored to the initial control parameters by pressing the restoration key, so that the stage lamp is more friendly to a novice user when the user is not satisfied with the light effect after the calibration and needs to be readjusted.

In a preferred example, the present application: the visual calibration device comprises a voice acquisition module, wherein the voice acquisition module is used for acquiring voice calibration information input by a user;

the visual calibration device establishes communication connection with the stage lamp to be calibrated based on the identification information of the stage lamp, and converts the acquired voice calibration information into calibration characters to obtain an initial calibration statement;

the visual calibration device screens the initial calibration statement based on a preset fuzzy matching algorithm to obtain a plurality of calibration keywords, and the visual calibration device combines the calibration keywords to convert to obtain the calibration configuration parameters.

By adopting the technical scheme, the visual calibration device also provides a mode of remotely controlling the stage lamp to calibrate by voice; when a user calibrates, after the stage lamp to be calibrated is connected based on the unique identification information of the stage lamp, the visual calibration device processes based on the acquired voice calibration information to obtain an initial calibration statement, for example, the light intensity of the lamp is calibrated to 1400XL, and a plurality of calibration keywords, for example, the light intensity and the calibration keyword are extracted based on the initial calibration statement, for example, 1400 XL; after the visual calibration device obtains calibration configuration parameters based on the obtained calibration keywords, the visual calibration device sends calibration configuration instructions corresponding to the calibration keywords to the stage lamp to be calibrated, so that the control parameter calibration work of the stage lamp is conveniently completed.

The second object of the present application is achieved by the following technical scheme:

a stage light calibration method applied to a stage light calibration system as described above, the method comprising:

establishing communication connection with stage lamps;

acquiring calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information and a calibration target value of a stage lamp to be calibrated;

generating a calibration configuration instruction based on the calibration configuration parameters, matching the corresponding stage lamp to be calibrated by combining the identification information of the stage lamp, and sending the calibration configuration instruction to the stage lamp to be calibrated;

the stage lamp to be calibrated is automatically calibrated based on the received calibration target value indicated by the calibration configuration instruction;

and inputting a preset record list based on the calibration configuration instruction, wherein the preset record list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

By adopting the technical scheme, the control parameters of the stage lamp can be conveniently adjusted by establishing communication connection without pressing a mechanical button of the stage lamp by a user, namely, after the user inputs the calibration configuration parameters, a calibration configuration instruction is generated, and the stage lamp is remotely controlled to automatically perform the calibration work of the control parameters of the stage lamp; when receiving a calibration configuration instruction, the stage lamp can realize the effect of automatically calibrating own control parameters to a calibration target value in real time; thereby facilitating calibration of stage lamps.

Further, recording calibration configuration parameters corresponding to the calibration configuration instructions into a recording list, wherein the recording list comprises a plurality of stage lamps and corresponding calibration configuration parameters stored by a user, and each stage lamp is provided with unique identification information; when the stage lamp is restarted and used, for the same stage setting up scene, when the prior stage lamp light effect is hoped to be used, the corresponding calibration configuration parameters can be directly called through the record list and the identification information of the stage lamp, and then the calibration configuration instructions are sent, so that a user does not need to reset the calibration configuration parameters one by one, and the operation is more convenient.

In a preferred example, the present application: comprising the following steps: collecting installation configuration parameters of each stage lamp based on each stage lamp and the corresponding calibration configuration parameters, and associating corresponding stage layout effect graphs;

generating a layout calibration scheme according to the calibration configuration parameters, the installation configuration parameters and the corresponding stage layout effect diagram;

and respectively establishing a plurality of layout calibration schemes based on design parameters of different stage lamps and recording the record list.

By adopting the technical scheme, the calibration configuration parameters are based on one of factors which influence the light display effect such as focal length, color temperature, light beam, light intensity, color, pattern shape and the like of the stage lamp, so that the stage lamp can completely display the same light effect as the history; the installation configuration parameters of the stage lamps also need to be considered based on various different stage setting scenes, wherein the installation configuration parameters comprise the total number of the stage lamps, the installation intervals of a plurality of stage lamps, the installation height position of each stage lamp and the like; the stage layout effect diagrams are corresponding light effect diagrams of different calibration configuration parameters and different installation configuration parameters; the stage layout effect graph can be obtained by storing historical lamplight effect graphs obtained based on different calibration configuration parameters and different installation configuration parameters in the historical calibration work; the method is convenient for a user to refer to the installation configuration parameters to carry out the stage lamp installation and layout work by calling the layout calibration scheme from the record list, and the stage lamp calibration system is convenient for providing reference and learning for the user based on the direct calling of the calibration configuration parameters in the layout calibration scheme after the stage lamp is installed.

In a preferred example, the present application: the layout calibration scheme comprises various light effects corresponding to various light display links of stage lamps;

formulating a light effect model according to the display content and the change process of each light effect;

and carrying out visual scene simulation on the display process of stage lighting based on the initial lighting state of the stage and the lighting effect model, generating a simulation result and storing the simulation result into the visual calibration device.

By adopting the technical scheme, a user can watch the whole lamplight display effect and lamplight display process in the simulated layout calibration scheme through the visual calibration device; further, the user simulates the lamplight display change process of the stage lamp after the stage lamp is set up and calibrated based on the visualized scene, such as displaying the appointed color and pattern at a specific time point; the lighting change result of the stage lamp on the stage is simulated, so that a user can optimally set the layout calibration scheme in advance, the control parameter of a stage lamp in the layout calibration scheme can be flexibly adjusted, and the expected stage lighting effect can be conveniently achieved based on the self demand of the user, and the stage lamp calibration mode is flexible and various.

In a preferred example, the present application: before the light effect model is formulated according to the display content and the change process of each light effect, the method comprises the following steps:

establishing an initial effect prediction model and a physical model of stage lamp movement, and obtaining lamp parameters of the stage lamp through the physical model;

the initial effect prediction model is adjusted based on the lamp parameters of the stage lamp to obtain an optimized effect prediction model;

and responding to the acquired calibration configuration instruction, generating a moving track of the stage lamp by combining the optimized effect prediction model, and obtaining the display content and the change process of each light effect based on the moving track of each stage lamp and the calibration configuration parameters corresponding to the calibration configuration instruction.

By adopting the technical scheme, the lamp parameters of the stage lamp obtained through the physical model and the movement track of each stage lamp generated by combining the prediction model can be used for more accurately predicting and obtaining the movement and the light effect of the stage lamp; the display content of each obtained light effect and the light effect model formulated after the change process are more accurate.

The third object of the present application is achieved by the following technical scheme:

a computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the stage lamp calibration method described above when the computer program is executed by the processor.

The fourth object of the present application is achieved by the following technical scheme:

a computer readable storage medium storing a computer program which when executed by a processor performs the steps of the stage lamp calibration method described above.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the visual calibration device is in communication connection with the stage lamp through the communication connection module, so that a user can conveniently calibrate the control parameters of the stage lamp in a mode of generating a calibration configuration instruction and remotely controlling the stage lamp after the visual calibration device inputs the calibration configuration parameters; when the stage lamp receives the calibration configuration instruction, the effect of automatically calibrating the control parameters of the stage lamp to the calibration target value in real time can be realized, when the first calibration configuration instruction does not reach the expected light effect, the specific numerical value of the calibration configuration parameter can be adjusted, the calibration configuration instruction is sent again to adjust the control parameters of the current stage lamp, and the steps are repeated, so that the current calibrated stage lamp generates the expected light effect, and the control parameters of the stage lamp are the finally determined calibration configuration parameters; thereby being convenient for calibrating the stage lamp; furthermore, the visual calibration device can also record the finally determined calibration configuration parameters corresponding to the calibration configuration instructions into a record list, wherein the record list comprises a plurality of stage lamps and corresponding calibration configuration parameters stored by a user, and each stage lamp is provided with unique identification information; when the stage lamp is restarted and used, for the same stage setting up scene, when the prior stage lamp light effect is hoped to be used, the corresponding calibration configuration parameters can be directly called through a record list and combined with the identification information of the stage lamp, and then the calibration configuration instructions are sent, so that a user does not need to reset the calibration configuration parameters one by one, and the operation is more convenient;

2. the calibration configuration parameters are based on one of factors which influence the light display effect such as focal length, color temperature, light beam, light intensity, color, pattern shape and the like of the stage lamp, so that the stage lamp can be further ensured to completely display the same light effect as the history; the installation configuration parameters of the stage lamps also need to be considered based on various different stage setting scenes, wherein the installation configuration parameters comprise the total number of the stage lamps, the installation intervals of a plurality of stage lamps, the installation height position of each stage lamp and the like; the stage layout effect diagrams are corresponding light effect diagrams of different calibration configuration parameters and different installation configuration parameters; the stage layout effect diagram can be obtained by obtaining and storing a historical lamplight effect diagram based on different calibration configuration parameters and different installation configuration parameters in the historical calibration work; the stage lamp calibration system is convenient for a user to refer to the installation configuration parameters to perform the stage lamp installation and layout work by calling the layout calibration scheme from the record list, and is convenient for providing reference and learning for the user after the stage lamp is installed based on the calibration configuration parameters in the layout calibration scheme to perform the calibration work of each stage lamp;

3. the user can watch the whole lamplight display effect and lamplight display process in the simulated layout calibration scheme through the visual calibration device; further, the user simulates the lamplight display change process of the stage lamp after the stage lamp is set up and calibrated based on the visualized scene, such as displaying the appointed color and pattern at a specific time point; the lighting change result of the stage lamp on the stage is simulated, so that a user can optimally set a layout calibration scheme in advance, the control parameter of one stage lamp in the layout calibration scheme can be flexibly adjusted, the expected stage lighting effect can be conveniently achieved based on the self requirement of the user, and the stage lamp calibration mode is flexible and various;

drawings

FIG. 1 is a schematic block diagram of a stage light calibration system in accordance with an embodiment of the present application;

FIG. 2 is a flow chart of a stage lamp calibration method according to an embodiment of the present application;

FIG. 3 is a flow chart of a stage lamp calibration method according to an embodiment of the present application;

FIG. 4 is another flow chart of a stage lamp calibration method according to an embodiment of the present application;

FIG. 5 is a flowchart before step S111 in a stage lamp calibration method according to an embodiment of the present application;

fig. 6 is a schematic diagram of an apparatus in an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to the accompanying drawings.

In one embodiment, as shown in fig. 1, the present application discloses a stage lamp calibration system, including a stage lamp provided with initial control parameters and a visual calibration device for sending a calibration configuration instruction to the stage lamp; the visual calibration device comprises a computer terminal, an IPAD and a mobile phone terminal, wherein the computer terminal is provided with a processor supporting multi-core calculation and parallel design; the visual calibration device comprises a communication connection module used for being in communication connection with the stage lamp, wherein the communication connection module comprises a communication Bluetooth chip, wired serial communication and WIFI communication; the stage lamp is also connected with a communication connection module.

The visual calibration device acquires calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information of stage lamps to be calibrated and calibration target values; the visual calibration device generates a calibration configuration instruction based on the calibration configuration parameters, matches corresponding stage lamps to be calibrated with the identification information of the stage lamps, and sends the calibration configuration instruction to the stage lamps to be calibrated; the stage lamp to be calibrated is automatically calibrated based on the calibration target value indicated by the received calibration configuration instruction; the visual calibration device inputs a preset record list based on the calibration configuration instruction, wherein the preset record list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

When the stage lamp receives the calibration configuration instruction, the effect of automatically calibrating the control parameters of the stage lamp to the calibration target value in real time can be realized, when the first calibration configuration instruction does not reach the expected light effect, the specific numerical value of the calibration configuration parameter can be adjusted, the calibration configuration instruction is sent again to adjust the control parameters of the current stage lamp, and the steps are repeated, so that the current calibrated stage lamp generates the expected light effect, and the control parameters of the stage lamp are the finally determined calibration configuration parameters; thereby facilitating calibration of stage lamps.

The calibration configuration parameters comprise a plurality of different control parameter types, namely the calibration configuration parameters comprise different control parameter types such as focal length, color temperature, light beam, light intensity and the like; the visual calibration device comprises a plurality of different parameter adjustment areas and a recovery key, wherein the parameter adjustment areas are matched with various control parameter types in a one-to-one correspondence manner, the parameter adjustment areas are divided and set through calibration channel parameters of the stage lamp, for example, the calibration channel setting range of the stage lamp is 1-80, 1-5 of the stage lamp calibration channel represents a focal length calibration channel of the stage lamp, 6-10 of the calibration channel represents a color temperature calibration channel of the stage lamp, and the like; each parameter adjustment area is respectively provided with a parameter adjustment range, for example, the parameter adjustment range of the light intensity of the stage lamp is 1400XL-2200XL.

The visual calibration device responds to the operation input of a user to select the type of the control parameter corresponding to the stage lamp which is currently calibrated, and responds to the operation input of the user to select the target parameter value of the corresponding parameter adjustment area; taking all control parameter types and corresponding target parameter values as calibration configuration parameters, thereby providing a stage lamp calibration system with visual remote control; the visual calibration device responds to the pressing operation of the recovery key to adjust the control parameters of the stage lamp which is calibrated currently to the initial control parameters, so that the user can also recover the control parameters of the stage lamp to the initial control parameters by pressing the recovery key in the stage lamp calibration process, and the visual calibration device is more friendly to novice users when the user is dissatisfied with the light effect after the calibration and needs to be readjusted.

In one embodiment, as shown in fig. 1, the visual calibration device includes a voice acquisition module, where the voice acquisition module is used to acquire voice calibration information input by a user; the visual calibration device establishes communication connection with the stage lamp to be calibrated based on the identification information of the stage lamp, and converts the acquired voice calibration information into calibration characters to obtain an initial calibration statement; the visual calibration device screens the initial calibration statement based on a preset fuzzy matching algorithm to obtain a plurality of calibration keywords, and the visual calibration device combines the calibration keywords to convert to obtain calibration configuration parameters.

When a user calibrates, after the stage lamp to be calibrated is connected based on the unique identification information of the stage lamp, the visual calibration device processes based on the acquired voice calibration information to obtain an initial calibration statement, for example, the light intensity of the lamp is calibrated to 1400XL, and a plurality of calibration keywords, for example, the light intensity and the calibration keyword are extracted based on the initial calibration statement, for example, 1400 XL; after the visual calibration device obtains calibration configuration parameters based on the obtained calibration keywords, the visual calibration device sends calibration configuration instructions corresponding to the calibration keywords to the stage lamp to be calibrated, so that the control parameter calibration work of the stage lamp is conveniently completed.

All or part of the modules in the stage lamp calibration system can be realized by software, hardware and the combination thereof; the above modules may be embedded in hardware or may be independent of a processor in the computer device, or may be stored in software in a memory in the computer device, so that the processor may call and execute operations corresponding to the above modules.

In an embodiment, as shown in fig. 2, a stage calibration method is provided, and the stage calibration method is applied to the stage calibration system in the above embodiment; the calibration method specifically comprises the following steps:

s1: establishing communication connection with stage lamps; and acquiring calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information of stage lamps to be calibrated and calibration target values.

In this embodiment, stage lamps are provided with default initial control parameters; the calibration configuration parameters comprise a plurality of different control parameter types, such as different control parameter types of focal length, color temperature, light beam, light intensity and the like; the identification information of the stage lamps comprises model identification information, and each stage lamp is provided with unique identification information; the calibration target value is a specific control parameter value of a plurality of different control parameter types for calibration.

Specifically, when the stage lamp is started and used and the calibration configuration parameters input by the user are not received, the stage lamp displays initial light effects based on initial control parameters.

S2: and generating a calibration configuration instruction based on the calibration configuration parameters, matching the corresponding stage lamp to be calibrated by combining the identification information of the stage lamp, and sending the calibration configuration instruction to the stage lamp to be calibrated.

In this embodiment, the calibration configuration instruction is an instruction sent by the visual calibration device to the stage lamp to be calibrated for calibration.

S3: the stage lamp to be calibrated is calibrated automatically based on the calibration target value indicated by the received calibration configuration instruction.

In this embodiment, after stage lamp and visual calibrating device establish communication connection, visual calibrating device can confirm the stage lamp of waiting to calibrate based on the unique identification information of stage lamp, and the real-time control parameter of stage lamp shows at visual calibrating device, and the control parameter of stage lamp can be adjusted the calibration by visual calibrating device to when receiving the calibration configuration instruction, can realize the effect of self control parameter automatic calibration to the calibration target value in real time, be convenient for calibrate the stage lamp.

Further, when the first calibration configuration instruction does not reach the expected light effect, a specific value of the calibration configuration parameter can be adjusted, the calibration configuration instruction is sent again to adjust the control parameter of the current stage lamp, and the steps are repeated, so that the current calibrated stage lamp generates the expected light effect, and the control parameter of the stage lamp is the finally determined calibration configuration parameter.

S4: based on the calibration configuration instruction, a preset recording list is recorded, and the preset recording list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

In this embodiment, the record list is stored in the visual calibration device; the recording list is used for recording the historical calibration configuration parameters of each stage lamp, and the historical calibration configuration parameters are stored in the recording list based on the identification information of the stage lamp; the page display terminal of the visual calibration device is provided with a parameter storage key, and the visual calibration device stores a plurality of stage lamps and corresponding calibration configuration parameters by responding to the pressing operation of the user terminal on the parameter storage key.

Specifically, when the stage lamp is restarted and used, for the same stage setting up scene, when the prior stage lamp light effect is hoped to be used, the corresponding calibration configuration parameters can be directly called through the record list and the identification information of the stage lamp, and then the calibration configuration instructions are sent, so that a user does not need to reset the calibration configuration parameters one by one, and the operation is more convenient.

In one embodiment, as shown in fig. 3, the stage lamp calibration method further comprises:

s101: based on each stage lamp and the corresponding calibration configuration parameters, the installation configuration parameters of each stage lamp are collected, and the corresponding stage layout effect graphs are associated.

In this embodiment, for the case where a plurality of stage lamps need to be installed and laid; the installation configuration parameters include: the total number of stage lamps, the installation intervals of a plurality of stage lamps, the installation height of each stage lamp and the specific installation position of each stage lamp; the stage layout effect diagram is a light effect diagram integrally formed by a plurality of stage lamps, and comprises a projection area, a projection shape, a projection size, a color and the like of the stage lamps; based on different calibration configuration parameters of each stage lamp, associating and acquiring corresponding stage layout effect graphs in the same installation configuration parameters; and obtaining a corresponding stage layout effect diagram in a correlated manner on the basis of the same calibration configuration parameters of each stage lamp at different installation configuration parameters.

Specifically, based on the calibration configuration parameters and the different installation configuration parameters of different stage lamps, corresponding stage layout effect graphs are respectively obtained one by one so as to obtain the lamplight effects under the conditions of the different calibration configuration parameters and the different installation configuration parameters.

S102: and generating a layout calibration scheme according to the calibration configuration parameters, the installation configuration parameters and the corresponding stage layout effect diagram.

In this embodiment, the layout calibration scheme includes a plurality of working links for laying stage lamps, working contents of each working environment, and the like; the stage lamp control parameters can be calibrated based on the stage layout calibration scheme to achieve the light effect in the stage layout effect diagram corresponding to the stage layout calibration scheme.

S103: and respectively establishing a plurality of layout calibration schemes based on design parameters of different stage lamps and recording a record list.

In this embodiment, after a plurality of stage lamps based on different design parameters are established, a record list is recorded, so that a user can conveniently install and arrange the stage lamps by referring to installation configuration parameters in a mode of calling the arrangement calibration scheme from the record list, and after the stage lamps are installed, the stage lamp calibration system based on the calibration configuration parameters in the arrangement calibration scheme can be directly called to perform the calibration work of each stage lamp, thereby being convenient for providing reference and learning for the user.

In one embodiment, as shown in fig. 4, the stage lamp calibration method further comprises:

s111: the layout calibration scheme comprises various light effects corresponding to various light display links of stage lamps; and making a light effect model according to the display content and the change process of each light effect.

S112: based on the initial lighting state and lighting effect model of the stage, visual scene simulation is carried out on the display process of the stage lighting, and a simulation result is generated and stored in a visual calibration device.

In this embodiment, the user may view the entire light display effect and the light display process in the simulated layout calibration scheme through the visual calibration device; further, the user simulates the light display change process of the stage lamp after the stage is erected on the stage and the calibration is completed based on the visualized scene, such as displaying the appointed color and pattern at a specific time point; the lighting change result of the stage lamp on the stage is simulated, so that a user can optimally set the layout calibration scheme in advance, the control parameter of a stage lamp in the layout calibration scheme can be flexibly adjusted, and the expected stage lighting effect can be conveniently achieved based on the self demand of the user, and the stage lamp calibration mode is flexible and various.

In one embodiment, as shown in fig. 5, before step S111, the stage lamp calibration method further includes:

s001: and establishing an initial effect prediction model and a physical model of stage lamp movement, and obtaining lamp parameters of the stage lamp through the physical model.

In this embodiment, the effect prediction model includes a predicted movement track of the stage lamp and a predicted light display area and range of the stage lamp, and the light effect change is displayed through the effect prediction model; setting a moving track of the stage lamp, modeling an effect prediction model by using a neural network model based on a lamp bead of the stage lamp as a reference point of the moving track, taking historical track data, a stage lighting display area and range data as a training set, and establishing effect prediction of the moving track and the display range of the stage lamp by learning the historical data; predicting according to different factors such as the movement speed, the position, the light effect and the like of the stage lamp; and displaying the moving track of the stage lamp and the corresponding display range and area on the visual calibration device.

Specifically, for stage lamps of the shaking type, a physical model of the stage lamp is established, wherein the lamp parameters comprise design parameters and motion parameters of the stage lamp, and the design parameters comprise color, brightness, focal length, color temperature and the like of the stage lamp; the motion parameters include angular velocity, which governs the rotation angle of the cap in the horizontal direction, and angular acceleration, which characterizes the degree of rotational acceleration of the cap in the horizontal direction.

S002: the initial effect prediction model is adjusted based on lamp parameters of stage lamps to obtain an optimized effect prediction model.

Specifically, the pre-trained initial effect prediction model acquires lamp parameters of stage lamps in the physical model so as to update and adjust the parameters; the angle of the stage lamp and the projection direction of the stage lamp are continuously updated in the initial effect prediction model, the lighting direction, the projection area and the projection range of the stage lamp can be updated and optimized, the movement effect of the stage lamp is predicted based on the combination of the movement track set by the physical model and the lamp parameters, the movement and the light effect of the stage lamp can be predicted more accurately by the optimized effect prediction model, and therefore a user can calibrate the control parameters of the stage lamp more accurately and adjust the stage lamp to the expected light effect rapidly.

S003: and responding to the acquired calibration configuration instruction, generating a moving track of the stage lamp by combining the optimized effect prediction model, and obtaining the display content and the change process of each lamplight effect based on the moving track of each stage lamp and the calibration configuration parameters corresponding to the calibration configuration instruction.

In this embodiment, a calibration configuration instruction input by a user is received, where the calibration configuration instruction includes a moving direction, a moving speed, a moving sequence, angular velocity data, and angular acceleration data of the stage lamp; analyzing the received calibration configuration instruction, for example, converting the moving speed into speed data of the stage lamp at a specific time point, and converting the angular speed data and the angular acceleration data into rotation angle and rotation angle change data of the stage lamp in the horizontal direction at the specific time point; and generating a predicted moving track of the stage lamp according to the effect prediction model so as to obtain the display light effect and the light process of each light effect according to the actual design parameters, the calibration configuration parameters and the installation configuration parameters of the stage lamp.

It should be understood that the sequence number of each step in the foregoing embodiment does not mean that the execution sequence of each process should be determined by the function and the internal logic of each process, and should not limit the implementation process of the embodiment of the present application in any way.

In one embodiment, a computer device is provided, which may be a server, the internal structure of which may be as shown in fig. 6. The computer device includes a processor, a memory, a network interface, and a database connected by a system bus. Wherein the processor of the computer device is configured to provide computing and control capabilities. The memory of the computer device includes a non-volatile storage medium and an internal memory. The non-volatile storage medium stores an operating system, computer programs, and a database. The internal memory provides an environment for the operation of the operating system and computer programs in the non-volatile storage media. The database of the computer device is used for storing layout calibration schemes, record lists, visual scene simulation results, physical models, effect prediction models and the like. The network interface of the computer device is used for communicating with an external terminal through a network connection. The computer program is executed by a processor to implement a stage lamp calibration method.

In one embodiment, a computer device is provided comprising a memory, a processor, and a computer program stored in the memory and executable on the processor, the processor implementing the following steps when executing the computer program:

s1: establishing communication connection with stage lamps; acquiring calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information and a calibration target value of a stage lamp to be calibrated;

s2: generating a calibration configuration instruction based on the calibration configuration parameters, matching the corresponding stage lamp to be calibrated by combining the identification information of the stage lamp, and sending the calibration configuration instruction to the stage lamp to be calibrated;

s3: the stage lamp to be calibrated is automatically calibrated based on the calibration target value indicated by the received calibration configuration instruction;

s4: based on the calibration configuration instruction, a preset recording list is recorded, and the preset recording list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

In one embodiment, a computer readable storage medium is provided having a computer program stored thereon, which when executed by a processor, performs the steps of:

s1: establishing communication connection with stage lamps; acquiring calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information and a calibration target value of a stage lamp to be calibrated;

s2: generating a calibration configuration instruction based on the calibration configuration parameters, matching the corresponding stage lamp to be calibrated by combining the identification information of the stage lamp, and sending the calibration configuration instruction to the stage lamp to be calibrated;

s3: the stage lamp to be calibrated is automatically calibrated based on the calibration target value indicated by the received calibration configuration instruction;

s4: based on the calibration configuration instruction, a preset recording list is recorded, and the preset recording list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

Those skilled in the art will appreciate that implementing all or part of the above described methods may be accomplished by way of a computer program stored on a non-transitory computer readable storage medium, which when executed, may comprise the steps of the embodiments of the methods described above. Any reference to memory, storage, database, or other medium used in the various embodiments provided herein may include non-volatile and/or volatile memory. The nonvolatile memory can include Read Only Memory (ROM), programmable ROM (PROM), electrically Programmable ROM (EPROM), electrically Erasable Programmable ROM (EEPROM), or flash memory. Volatile memory can include Random Access Memory (RAM) or external cache memory. By way of illustration and not limitation, RAM is available in a variety of forms such as Static RAM (SRAM), dynamic RAM (DRAM), synchronous DRAM (SDRAM), double Data Rate SDRAM (DDRSDRAM), enhanced SDRAM (ESDRAM), synchronous Link DRAM (SLDRAM), memory bus direct RAM (RDRAM), direct memory bus dynamic RAM (DRDRAM), and memory bus dynamic RAM (RDRAM), among others.

It will be apparent to those skilled in the art that, for convenience and brevity of description, only the above-described division of the functional units and modules is illustrated, and in practical application, the above-described functional distribution may be performed by different functional units and modules according to needs, i.e. the internal structure of the apparatus is divided into different functional units or modules to perform all or part of the above-described functions.

The above embodiments are only for illustrating the technical solution of the present application, and are not limiting; although the present application has been described in detail with reference to the foregoing embodiments, those of ordinary skill in the art will understand; the technical scheme described in the foregoing embodiments can be modified or some of the features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present application, and are intended to be included in the scope of the present application.

Claims (9)

1. The stage lamp calibration system is characterized by comprising stage lamps and a visual calibration device for sending calibration configuration instructions to the stage lamps;

the visual calibration device comprises a communication connection module which is used for being in communication connection with the stage lamp; the visual calibration device acquires calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information of stage lamps to be calibrated and calibration target values;

the visual calibration device generates a calibration configuration instruction based on the calibration configuration parameters, matches corresponding stage lamps to be calibrated with the identification information of the stage lamps, and sends the calibration configuration instruction to the stage lamps to be calibrated;

the stage lamp to be calibrated automatically performs calibration based on the received calibration target value indicated by the calibration configuration instruction;

the visual calibration device inputs a preset record list based on the calibration configuration instruction, wherein the preset record list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

2. Stage light calibration system according to claim 1, characterized in that the stage light is provided with initial control parameters; the calibration configuration parameters include a plurality of different control parameter types; the visual calibration device comprises a plurality of different parameter adjustment areas and a recovery key;

the parameter adjustment areas are matched with the control parameter types one by one; each parameter adjustment area is respectively provided with a parameter adjustment range;

the visual calibration device responds to the operation input of a user to select the control parameter type corresponding to the stage lamp which is currently calibrated, and responds to the operation input of the user to select the target parameter value of the corresponding parameter adjustment area; taking all the control parameter types and the corresponding target parameter values as the calibration configuration parameters;

and the visual calibration device responds to the pressing operation of the recovery key to adjust the control parameters of the stage lamp which are currently calibrated to the initial control parameters.

3. A stage light calibration system according to claim 1, wherein the visual calibration device comprises a voice acquisition module for acquiring voice calibration information entered by a user;

the visual calibration device establishes communication connection with the stage lamp to be calibrated based on the identification information of the stage lamp, and converts the acquired voice calibration information into calibration characters to obtain an initial calibration statement;

the visual calibration device screens the initial calibration statement based on a preset fuzzy matching algorithm to obtain a plurality of calibration keywords, and the visual calibration device combines the calibration keywords to convert to obtain the calibration configuration parameters.

4. A stage light calibration method applied to the stage light calibration system of any one of claims 1-3, the method comprising:

establishing communication connection with stage lamps;

acquiring calibration configuration parameters input by a user, wherein the calibration configuration parameters comprise identification information and a calibration target value of a stage lamp to be calibrated;

generating a calibration configuration instruction based on the calibration configuration parameters, matching the corresponding stage lamp to be calibrated by combining the identification information of the stage lamp, and sending the calibration configuration instruction to the stage lamp to be calibrated;

the stage lamp to be calibrated is automatically calibrated based on the received calibration target value indicated by the calibration configuration instruction;

and inputting a preset record list based on the calibration configuration instruction, wherein the preset record list comprises a plurality of stage lamps and corresponding calibration configuration parameters.

5. A stage lamp calibration method according to claim 4, comprising:

collecting installation configuration parameters of each stage lamp based on each stage lamp and the corresponding calibration configuration parameters, and associating corresponding stage layout effect graphs;

generating a layout calibration scheme according to the calibration configuration parameters, the installation configuration parameters and the corresponding stage layout effect diagram;

and respectively establishing a plurality of layout calibration schemes based on design parameters of different stage lamps and recording the record list.

6. A stage lighting calibration method according to claim 5 wherein the layout calibration scheme comprises respective lighting effects corresponding to respective lighting display links of the stage lighting;

formulating a light effect model according to the display content and the change process of each light effect;

and carrying out visual scene simulation on the display process of stage lighting based on the initial lighting state of the stage and the lighting effect model, generating a simulation result and storing the simulation result into the visual calibration device.

7. A stage lighting calibration method according to claim 6, wherein prior to modeling lighting effects based on the display content and course of each lighting effect, comprising:

establishing an initial effect prediction model and a physical model of stage lamp movement, and obtaining lamp parameters of the stage lamp through the physical model;

the initial effect prediction model is adjusted based on the lamp parameters of the stage lamp to obtain an optimized effect prediction model;

and responding to the acquired calibration configuration instruction, generating a moving track of the stage lamp by combining the optimized effect prediction model, and obtaining the display content and the change process of each light effect based on the moving track of each stage lamp and the calibration configuration parameters corresponding to the calibration configuration instruction.

8. Computer device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, characterized in that the processor implements the steps for a stage lamp calibration method according to any of claims 4 to 7 when the computer program is executed.

9. A computer readable storage medium storing a computer program, characterized in that the computer program when executed by a processor implements the steps for a stage lamp calibration method according to any one of claims 4 to 7.