CN114613119B - Base station supporting wireless group control fluorescent rod group control - Google Patents

Abstract

The invention relates to a base station supporting wireless group control of a fluorescent rod group control, which comprises a main processor, an Ethernet communication link and detection monitoring sensor equipment, wherein the main processor is connected with the detection monitoring sensor equipment through the Ethernet communication link, detection signals input into the Ethernet communication link by the detection monitoring sensor equipment are processed by a data conversion unit and then input into the main processor for analysis and calculation, the main processor converts control signals into digital signals and transmits the digital signals to the Ethernet communication link, and the Ethernet communication link is connected with an RF (radio frequency) module to control the fluorescent rod to work. The invention sets a plurality of groups of base stations for cooperative control, so that the system control node can be multiplied, the coverage distance of a single base station is supported to be hundreds of meters, meanwhile, a plurality of fluorescent rods are controlled, the main processor sends an operation instruction to the control base station through an Ethernet communication link, the control base station performs wireless control according to the fluorescent rods of the corresponding nodes, and the accuracy and the flexibility of the fluorescent rod luminescence adjustment are enhanced.

Description

Base station supporting wireless group control fluorescent rod group control

Technical Field

The invention relates to the technical field of electronic communication systems, in particular to a base station supporting group control of a wireless group control fluorescent rod.

Background

The current fluorescent rod group control base stations are fewer, few group control systems can only support patterns with one full screen color or patterns with one block, pixel-level control is seldom achieved, and the current fluorescent rod group control base stations are in a preset mode, namely a preset appointed mode is preset, and the current fluorescent rod group control base stations are started at fixed time. The online real-time updating and control cannot be supported, and the refresh rate is extremely low although a few fluorescent rod group control base stations can perform field control; although the few fluorescent rod group control base stations can realize field control, the base stations are basically in preset mode, only the arrangement of several schemes is supported independently, the arrangement and the editing cannot be carried out on the field, the real-time control cannot be carried out, the accuracy and the flexibility of fluorescent rod atmosphere adjustment are reduced, and therefore the base stations supporting wireless group control of the fluorescent rod group control are provided.

Disclosure of Invention

The invention aims to solve the problems of providing a base station supporting wireless group control of a group control fluorescent rod, solving the problems that the existing group control base station is less and cannot realize on-site group control and has lower control refreshing frequency, so as to achieve the purposes of improving the accuracy and flexibility of a control end for controlling the fluorescent rod through the base station, increasing the operation mode of the base station control, improving the light effect adjustment of the fluorescent rod matched performance and enhancing the control stability of the base station on the fluorescent rod.

The technical scheme adopted by the invention for solving the technical problems is as follows: the base station supporting wireless group control of the fluorescent rods comprises a main processor, a co-processor, an Ethernet communication link and detection monitoring sensor equipment, wherein the main processor is connected with a first instruction input end, the main processor is connected with a clock module, the main processor is connected with the detection monitoring sensor equipment through the Ethernet communication link, the detection monitoring sensor equipment comprises area monitoring equipment, audio detection equipment and Myo action detection equipment, detection signals input by the detection monitoring sensor equipment into the Ethernet communication link are processed by a data conversion unit and then input into the main processor for analysis and calculation, the main processor converts control signals into digital signals and transmits the digital signals to the Ethernet communication link, the RF communication link is connected with an RF module for controlling the fluorescent rods to work, the main processor is connected with the co-processor, an algorithm processing module is arranged in the co-processor, a memory unit is arranged in the co-processor, the memory unit is connected with a second flash memory unit, the instruction input end is connected with a control device connected with the main processor, and the control device connected with the corresponding power supply equipment.

As a preferred embodiment of the present invention, wherein: the Ethernet communication link is provided with a plurality of base stations according to communication requirements and venue installation pressure, communication connection is established between the base stations and the main processor through radio signals, the fluorescent rods are in one-to-one correspondence with seats, the seats are arranged in a plurality of control areas of the auditorium, the control nodes of the seats establish unidirectional independent control through RFID seat cards arranged on the fluorescent rods and RFID reading heads arranged on the fluorescent rods, RF receiving ends arranged on the fluorescent rods can receive the corresponding fluorescent rod light-emitting treatment of each field seat of the main processor output by the base stations, namely, the fluorescent rods on each seat of the auditorium establish communication connection between the main processor and the fluorescent rods through the base stations and the Ethernet communication link.

Further, the signal receiving control of the base station comprises a wireless group control positioning technology research oriented to a large-scale fluorescent rod equipment lattice, a luminous lattice interaction control technology based on audio and video feature perception and a motion recognition and fluorescent rod interaction visual presentation control technology based on a Myo detection device, the signal receiving of the base station is input into a main processor, and an interaction experience viewing and listening control system oriented to the fluorescent rod equipment is arranged in the main processor.

The research of the wireless group control positioning technology for the lattice of the large-scale fluorescent rod equipment comprises the steps of positioning fluorescent rods and seat areas and screening and positioning working frequency bands, the wireless group control positioning technology is completed through offline grouping networking, a secondary distribution/unpacking strategy and a cloud control link frequency band self-adaptive module, and the positioning work comprises area network distribution, a large-scale fluorescent rod lattice monitoring module, an audio and video signal detection module and a working mode selection module.

The luminous dot matrix interaction control technical module based on the audio and video feature perception comprises processing modules such as an audio material, a video material and an audio and video material matching module, wherein the audio and video feature perception luminous dot matrix interaction control technical module sets an audio and video perception feature mining and extraction technology, a cross-modal subjective evaluation experiment and a cross-modal information matching model construction, and the audio material and the video material are analyzed and processed to enable a fluorescent stick to display an image refreshing mode in cooperation with audio rhythm or video requirements.

Myo detection bracelet is arranged on wrist of user based on action recognition of Myo detection device and interactive visual presentation control technology research of fluorescent rod, the Myo detection bracelet can detect action angle electric signal sent by user, rotation action determining signal and visual effect signal of monitoring device, action recognition modeling and work-visual effect key modeling are established, user control action recognition is realized by cooperation with monitoring equipment, and work signal of fluorescent rod is regulated.

The interaction experience viewing control system for the fluorescent rod equipment comprises an authoring module, a real-time data calculation module, a large-scale group control distribution module and a resource allocation module.

The creating module is provided with a cloud creating resource downloading component, the cloud creating resource downloading component controls the main processor to establish a real-time simulation effect after real-time data calculation, the real-time simulation effect comprises a local two-dimensional model simulation effect and a three-dimensional model simulation effect, a local simulation display mode is set to be an image simulation mode, a text simulation mode and an audio simulation mode, and the real-time data calculation mode comprises an audio feature analysis mode, a video feature analysis mode, an image feature analysis mode and a real-time mapping calculation feedback program.

The large-scale group control distribution module comprises a control analysis module, a base station analysis module and a mapping analysis link, and the signals are distributed to the fluorescent rod control processing of each area by the large-scale distributed distribution module after being analyzed and calculated.

The resource allocation module comprises a simulation parameter allocation program, an instruction input and selection module, an online base station allocation module, a bracelet, a seat allocation module and a group control interface area parameter allocation module, wherein different fluorescent rod group control presentation mode instructions including an image mode, a music mode, a text mode, a wave mode, a color block mode, a countdown mode and the like are arranged in the instruction input and selection module.

Furthermore, the base station is provided with an interaction experience audio-visual control system facing the fluorescent rod through the main manager, and the interaction experience audio-visual control system facing the fluorescent rod comprises a resource configuration module, a real-time resource calculation module, a group control distribution module, a simulation module and an creation module.

The resource configuration module comprises a mode selection device and a seat configuration device, wherein the mode selection device comprises a simulation parameter configuration device and an online base station configuration device, and the seat configuration device comprises an RFID tag configuration device and an RF radio frequency signal configuration device.

The real-time resource calculation module comprises an audio signal analysis module, a video signal analysis module and an audio-video associated data comparison module.

The group control distribution module comprises a control module, a base station and mapping analysis module and a seat area dividing and positioning module.

The simulation module comprises a two-dimensional model, a three-dimensional model analysis module, an image and text analysis module and an audio simulation module.

The creating module comprises a simulation resource access module, a cloud creating instruction input module and a data processing module.

Further, the main processor establishes a wireless group control system facing the large-scale fluorescent rod lattice through an Ethernet communication link, the wireless group control system comprises a software service layer, a secondary distribution layer and a field regulation and control layer, the software service layer comprises a local creation and editing, audio and video material analysis and calculation module, a base station configuration device, a distribution strategy and a control configuration device, the secondary distribution layer is provided with a plurality of groups of base stations with adjustable frequency bands and adjustable transmission rates, and the regulation and control object of the field regulation and control layer comprises the division and positioning of the seat area of an audience, the seat RFID tag, the unidirectional control of the fluorescent rod and the work control of the fluorescent rod through an RF (radio frequency) module.

Further, an audio material library and a video material library are arranged in the audio and video material analysis and calculation module, the audio and video material analysis and calculation module extracts audio feature data and video feature data, two groups of feature data are processed and constructed through a cross-mode matching model, the cross-mode matching model construction comprises a cross-mode model construction experiment and a monitoring information data matching model construction, the cross-mode model construction experiment comprises a test condition setting, an experiment flow setting, an experiment scheme implementation and an experiment result statistical analysis, the monitoring information data matching model construction comprises data analysis, feature selection, parameter optimization and model evaluation, an audio-visual interaction mode research and development module is arranged after the cross-mode matching model construction, and the audio-visual interaction mode research and development module is a music image interaction mode design based on audio-video data, and the music image interaction mode design comprises a music rhythm mode and an image refreshing mode.

Compared with the prior art, the technical scheme of the invention has the following advantages:

1. the base station supporting wireless group control of the fluorescent rods provided by the invention has the advantages that the base stations are provided with the plurality of groups of base stations, the base stations can cooperatively control, so that the system control nodes can be multiplied, the coverage distance of a single base station is supported to be hundreds of meters, meanwhile, the fluorescent rods of a plurality of nodes are controlled, the main processor sends an operation instruction to the control base station through an Ethernet communication link, the control base station controls the fluorescent rods of the corresponding nodes according to the controlled area, the accuracy and the flexibility of the control end for adjusting the luminescence of the fluorescent rods are enhanced, the Ethernet communication link and the group control base station are utilized for adjusting the nodes of the fluorescent rods, after the fluorescent rods receive the control instruction of the corresponding coordinates, the full-color LED lamps are controlled to send out corresponding light color to enable the plurality of groups of fluorescent rods to realize group control and combined control luminescence, so that the audience seat displays specific patterns of pixel levels, and the corresponding atmosphere adjustment is realized in cooperation with stage performance, and the full-field adjustment of the fluorescent rods of the audience seat is realized.

2. According to the scheme, the fluorescent rod is matched with the working frequency range of the control instruction sent by the base station, different working voltages of the full-color LED lamp are controlled and regulated, and the light color regulation of the fluorescent rod is realized, so that the fluorescent rod supports different light color outputs at a high-efficiency refresh rate, the color is rich, the color index is far higher than that in the prior art, the fluorescent rod of the stadium and the audience seat is controlled to be matched with the performance to realize different multicolor pattern display, and the group control fluorescent rod control system is ensured to be suitable for being used in large-sized stadium and stand.

Drawings

Fig. 1 is a control schematic diagram of a base station supporting group control of wireless group control fluorescent rods according to the present invention;

fig. 2 is a schematic diagram of a control signal transmission structure of a base station supporting group control of a wireless group control fluorescent rod according to the present invention;

fig. 3 is a schematic diagram of a working system structure of a base station supporting group control of wireless group control fluorescent rods according to the present invention;

fig. 4 is a schematic diagram of an audio-visual interaction experience of a base station supporting wireless group control and fluorescent rod group control according to the present invention;

FIG. 5 is a block diagram of a group control technique for a phosphor stick of a base station supporting group control of wireless group control phosphor sticks according to the present invention;

fig. 6 is a schematic diagram of audio/video control model construction of a base station supporting wireless group control and fluorescent rod group control according to the present invention.

Wherein: the system comprises a main processor 1, an Ethernet communication link 2, a fluorescent rod 3, detection monitoring sensor equipment 4, a co-processor 5, a command input end two 6 and a command input end one 7.

Detailed Description

The following describes in further detail the embodiments of the present invention with reference to the drawings and examples. The following examples are illustrative of the invention and are not intended to limit the scope of the invention.

Referring to fig. 1-6, the technical scheme provided by the invention is a base station supporting wireless group control of a fluorescent rod, which comprises a main processor 1, a co-processor 5, an ethernet communication link 2 and a detection monitoring sensor device 4, wherein the main processor 1 is connected with a first instruction input end 7, the main processor 1 is connected with a clock module, the main processor 1 is connected with the detection monitoring sensor device 4 through the ethernet communication link 2, the detection monitoring sensor device 4 comprises a region monitoring device, an audio detection device and a Myo action detection device, a transmission signal input by the detection monitoring sensor device 4 into the ethernet communication link 2 is processed by a data conversion unit and then is input into the main processor 1 for analysis and calculation, the main processor 1 converts a control signal into a digital signal and transmits the digital signal to the ethernet communication link 2, the ethernet communication link 2 is connected with an RF radio frequency module to control the fluorescent rod 3 to work, the main processor 1 is connected with the co-processor 5, an algorithm processing module is arranged in the co-processor 5, a memory unit is arranged in the co-processor 5, the memory unit is connected with a flash memory unit, the flash memory unit is connected with a second instruction input end 6, and a control device connected with a corresponding power supply device is connected with the flash memory device.

All control devices and electronic circuits are connected by independent power supply equipment, potential safety hazards caused by connection disorder of power supply lines are avoided, corresponding fluorescent rod assemblies in a venue are respectively defined by coordinates through regional division, corresponding detection monitoring sensor equipment 4 is arranged in the control range according to requirements, the installation range of detection elements of the monitoring sensor equipment 4 is not limited, the installation positions and the detection capacities of the detection elements can be used for detecting the light source, the audio and video of the venue and the data of all Myo action detection equipment, detection signals are transmitted into a main processor 1 through an Ethernet communication link 2, after the main processor 1 performs contrast processing, a control signal is transmitted to an RF radio frequency transmission module in the fluorescent rod 3 through the Ethernet communication link 2, the fluorescent rod 3 is controlled to execute a working instruction sent by the main processor 1, the co-processor 5 receives and stores the control instruction of the co-processor 5 and a mobile phone control end through a memory unit and a flash memory unit and transmits the control instruction to the main processor 1 for integration, the instruction input end II 6 comprises a mobile phone applet input key connected with the fluorescent rod 3 and a control instruction input end connected with the outer end of a venue communication base station, and the control instruction input end is matched with the adjustment of the working atmosphere of the venue fluorescent rod 3 and the output of the venue in-situ conversion, so that the venue fluorescent rod is ensured to be used to interact with the front performance.

The accurate synchronous clock module that main processor 1 cooperation set up, the atmosphere that accurate assurance fluorescent rod cooperated the performance is adjusted when no emergency, realizes its pixel and regional control, and the control end passes through the operation of cell-phone control most fluorescent rod, reduces the control degree of difficulty to the fluorescent rod of forcing automatic reception control command, through binding ethernet communication link 2, guarantees the accuracy and the timeliness of fluorescent rod operation time control and instruction, improves the performance effect of fluorescent rod cooperation performance.

Referring to fig. 2, the ethernet communication link is provided with a plurality of base stations according to communication requirements and venue installation pressure, the base station can establish communication connection with the main processor through radio signals, the fluorescent rods are in one-to-one correspondence with seats, the seats are arranged in a plurality of control areas of the auditorium, the control nodes of the seats establish unidirectional independent control through the arranged RFID seat cards and the RFID reading heads arranged on the fluorescent rods, the RF radio frequency receiving ends arranged on the fluorescent rods can receive the corresponding fluorescent rod light-emitting treatment of the main processor at each field of the main processor output by the base station, namely, the fluorescent rods on each seat of the auditorium establish communication connection between the main processor and the fluorescent rods through the base station and the ethernet communication link.

Setting a plurality of base stations in a venue according to actual use requirements, respectively controlling corresponding seats and fluorescent bars among each control base station, setting redundant processing interfaces to ensure that other nearby base stations can coordinate corresponding control areas when one base station fails, connecting each base station with a main processor through radio signals, receiving control instructions of the main processor and a co-processor, enabling audiences to scan two-dimensional codes through mobile phones, establishing unidirectional control of seat nodes on the fluorescent bars, enabling RF radio frequency receiving ends arranged by the fluorescent bars to receive program arrangement information sent by mobile phones matched with cloud and control ends, and displaying corresponding fluorescent effects, and enhancing atmosphere feeling and artistry of performances; the pattern formed by the fluorescent rods is controlled by the control end, so that the on-site real-time and quick updating is realized, the optical domain of the fluorescent rods forms a group control or joint control image, the scene is colorful, the signal input end supports on-line or off-line configuration, and the signal input end comprises RF parameters such as frequency points, transmission rate and the like, and network parameter control such as IP, port and the like.

Referring to fig. 3, the signal receiving control of the base station includes a wireless group control positioning technology research oriented to a large-scale fluorescent bar device lattice, a luminous lattice interaction control technology based on audio and video feature perception, and a motion recognition and fluorescent bar interaction visual presentation control technology based on a Myo detection device, the signal receiving of the base station is input into a main processor, an interaction experience visual control system oriented to the fluorescent bar device is arranged in the main processor, the base station controls the fluorescent bar to present different output effects through signal receiving and controlling the regional positioning of the fluorescent bar device lattice, the audio and video detection and analysis and adjusting the matching output of the fluorescent bar lattice, and recognizing the motion output of a user, and the signal of the base station realizes communication control with the main processor through a radio signal, so that the main processor can accurately and real-time control the fluorescent bar.

The wireless group control positioning technology research for the large-scale fluorescent rod equipment lattice comprises the steps of positioning fluorescent rods and seat areas and screening and positioning the working frequency bands, the wireless group control positioning technology is completed through an offline grouping networking, a secondary distribution/unpacking strategy and a cloud control link frequency band self-adaptive module, the positioning work comprises area network distribution, a large-scale fluorescent rod lattice monitoring module, an audio and video signal detection module and a working mode selection module, the range of each control base station is determined by dividing stadium areas, a main processor can inform corresponding fluorescent rods to send corresponding light to match with field performance atmosphere adjustment through sending different control instructions to each area, control signals and band frequencies of each area are screened and adjusted through the working frequency band screening working device, accuracy of the control instructions is guaranteed, and accuracy of positioning signals is guaranteed through offline grouping, distribution programs and the cloud control link frequency band self-adaptive module.

The positioning work is performed by the area network distribution and positioning, the fluorescent rod lattice monitoring module monitors the working conditions in the corresponding range, the audio and video signal detection signals, the fluorescent rods cooperate with the audio and video signal working conditions, and the fluorescent rod multi-group working mode selection device completes the control work of the corresponding fluorescent rods on all seats.

The luminous dot matrix interaction control technical module based on the audio and video feature perception comprises processing modules such as an audio material, a video material and an audio and video material matching module, wherein the audio and video feature perception luminous dot matrix interaction control technical module sets audio and video perception feature mining and extraction technology, cross-modal subjective evaluation experiments and cross-modal information matching model construction, the fluorescent stick is enabled to display an image refreshing mode in cooperation with audio rhythm or video requirement after the audio material and the video material are analyzed and processed, and the corresponding working state of the fluorescent stick is controlled to be displayed along with audio signals after the audio and video feature perception luminous dot matrix interaction control technical module compares and analyzes the venue audio material, video material (front performance video detection and actor position detection) and matching modules thereof.

According to the method, myo detection bracelets are arranged on wrists of users based on action recognition of Myo detection devices and interaction visual presentation control technology research of fluorescent bars, the Myo detection bracelets can detect action angle electric signals sent by the users, rotation action determining signals and visual effect signals of monitoring devices, action recognition modeling and work-visual effect key modeling are established, user control action recognition is achieved through cooperation of monitoring equipment, working signals of the fluorescent bars are adjusted, the Myo bracelets judge to receive angle control signals of the bracelets of the users according to rotation angles of the wrists of the users and secondary repetition or rotation angle residence time when reaching signal detection nodes, corresponding fluorescent effects are presented by adjusting the rotation directions of angles of the fluorescent bars, and Myo detection ends are matched through setting detection standards and action amplitudes, so that adjustment of control of the fluorescent bars by Myo detection bracelets is achieved.

The interactive experience viewing and listening control system for the fluorescent rod equipment comprises an creation module, a real-time data calculation module, a large-scale group control distribution module and a resource allocation module, wherein the creation module can provide temporary insertion and control frequency bands for workers, and is matched with the group control distribution module and the resource allocation module to regulate fluorescent rod lattices and on-site performance audio and video signals.

The creating module is provided with a cloud creating resource downloading component, the cloud creating resource downloading component controls the main processor to establish a real-time simulation effect after real-time data calculation, the real-time simulation effect comprises a local two-dimensional model simulation effect and a three-dimensional model simulation effect, the local simulation display mode is set to be image simulation, text simulation and audio simulation, the real-time data calculation mode comprises audio feature analysis, video feature analysis, image feature analysis and real-time mapping calculation feedback programs, the cloud resource downloading component downloads and caches control instructions and cloud control resources, the cloud control resources are subjected to data calculation, then a working model is established through the main processor, the simulation effect is established and demonstrated in real time, the two-dimensional or three-dimensional simulation presentation effect can be established through different frequencies and wave band control light effects of the fluorescent rod, and accurate regulation and control of audio and video features, image features and real-time mapping calculation are achieved through the image simulation, text simulation and audio simulation.

The large-scale group control distribution module comprises a control analysis module, a base station analysis module and a mapping analysis link, signals are distributed to the fluorescent rod control processing of each area by the large-scale distributed distribution module after being analyzed and calculated, and the large-scale group control distribution module distributes control fluorescent rods to work by the large-scale distributed distribution module after analyzing, transmitting and mapping control data.

The resource allocation module comprises a simulation parameter allocation program, an instruction input and selection module, an online base station allocation module, a bracelet, a seat allocation module and a group control interface area parameter allocation module, wherein different fluorescent rod group control presentation mode instructions including an image mode, a music mode, a text mode, a wave mode, a color block mode, a countdown mode and the like are arranged in the instruction input and selection module, the resource allocation module is convenient for allocating simulation parameters, storing instruction input and sequencing priorities, and after the instructions are allocated by the control base station, the corresponding bracelet is regulated to display fluorescent effects.

Referring to fig. 4, the base station is provided with an interactive experience audio-visual control system facing the fluorescent rod through a main manager, and the interactive experience audio-visual control system facing the fluorescent rod comprises a resource configuration module, a real-time resource calculation module, a group control distribution module, a simulation module and an creation module.

The resource configuration module comprises a mode selection device and a seat configuration device, wherein the mode selection device comprises a simulation parameter configuration device and an online base station configuration device, the seat configuration device comprises an RFID label configuration device and an RF radio frequency signal configuration device, the mode selection device is used for adjusting field simulation and online base station configuration, the base station control is guaranteed to control and adjust field control parameters, the seat configuration is used for opening a mobile phone by a viewer, scanning a two-dimensional code, opening an MCU (micro control unit) and a working system thereof in a fluorescent rod, opening an RFID label in the fluorescent rod, reading seat area and number information of a seat of the viewer, and establishing control of the mobile phone and the base station on the fluorescent rod through RF radio frequency signals.

The real-time resource calculation module comprises an audio signal analysis module, a video signal analysis module and an audio-video associated data comparison module, and the light effect presentation of the resource calculation module to the audio-video control and the fluorescent stick matched performance is regulated and implemented through the audio-video signal analysis module and the associated data comparison.

The group control distribution module comprises a control module, a base station and mapping analysis module and a seat area dividing and positioning module, and the group control distribution module ensures that the fluorescent rod accurately receives a control instruction sent by the main processor through the control module, the base station and mapping analysis module and the seat area dividing module, and ensures that the main processor accurately controls the fluorescent rod.

The simulation module comprises a two-dimensional model, a three-dimensional model analysis module, an image, text analysis module and an audio simulation module, and the simulation module realizes the two-dimensional and three-dimensional models of the luminous effect of the fluorescent rod by controlling the fluorescent rod to cooperate with simulation instructions, so that different image, text and audio simulation effects are presented, and the control accuracy and flexibility are enhanced.

The creation module comprises a simulation resource access module, a cloud creation instruction input module and a data processing module, wherein the creation module analyzes and processes simulation resource access and original creation instruction input data through the data processing module, and controls the fluorescent rod to work in cooperation after analyzing the creation module instruction by the cooperation control end.

Referring to fig. 5, the main processor establishes a wireless group control system for large-scale fluorescent rod lattice through an ethernet communication link, the wireless group control system comprises a software service layer, a secondary distribution layer and a site regulation layer, the software service layer comprises a local creation, an audio and video material analysis and calculation module, a base station configuration, a distribution strategy and a control configuration device, the secondary distribution layer is provided with a plurality of groups of base stations with adjustable frequency bands and adjustable transmission rates, the regulation object of the site regulation layer comprises division and positioning of seat areas of the audience, seat RFID tags, unidirectional control of the fluorescent rods and working control of the fluorescent rods through the RF radio frequency module, the software service layer distributes data of the local creation and analysis and calculation of respective detection signals into the secondary distribution layer through the ethernet communication link, and the secondary distribution layer controls the plurality of groups of base stations to realize regulation and control of the fluorescent rods in the audience.

Referring to fig. 6, an audio material library and a video material library are set in an audio and video material analysis and calculation module, the audio and video material analysis and calculation module extracts audio feature data and video feature data, and processes the two sets of feature data, and builds a cross-mode matching model, which includes building an experiment and a monitoring information data matching model, building a cross-mode model, which includes setting its experimental conditions, setting experimental flow, implementing experimental scheme and statistical analysis of experimental results, building a monitoring information data matching model, which includes data analysis, feature selection, parameter optimizing and model evaluation, setting a research and development module for audio-visual interaction mode based on audio and video data, the research and development module for audio-visual interaction mode, which includes a music rhythm pattern and an image refreshing mode, the material library stores audio material and video material, and builds a cross-mode matching model, which includes audio-visual feature and a video material, and builds a cross-mode matching model, which includes a complete condition, a flow, implementing an audio and statistical scheme, and a control window-interaction mode, which includes a music-performance-interaction-mode, and an audio-interaction-window-interaction-mode, which control-interaction-mode, and an audio-interaction-mode, are set.

The foregoing is merely a preferred embodiment of the present invention, and it should be noted that it will be apparent to those skilled in the art that modifications and variations can be made without departing from the technical principles of the present invention, and these modifications and variations should also be regarded as the scope of the invention.

Claims (3)

1. The base station supporting wireless group control of the fluorescent rod group control comprises a main processor (1), a co-processor (5), an Ethernet communication link (2) and a detection monitoring sensor device (4), and is characterized in that the main processor (1) is connected with a first instruction input end (7), the main processor (1) is connected with a clock module, the main processor (1) is connected with the detection monitoring sensor device (4) through the Ethernet communication link (2), the detection monitoring sensor device (4) comprises an area monitoring device, an audio detection device and a Myo action detection device, a detection signal input by the detection monitoring sensor device (4) is input into the main processor (1) after being processed by a data conversion unit, the control signal is converted into a digital signal by the main processor (1) to be transmitted to the Ethernet communication link (2), the RF module is connected with the Ethernet communication link (2) to control the fluorescent rod (3) to work, the main processor (1) is connected with the co-processor (5), the co-processor (5) is provided with an internal memory unit, the flash memory unit (6) is connected with the flash memory unit, the control devices connected with the main processor (1) are connected with corresponding power supply equipment;

the system comprises a main processor (1), a control node of the seat, a Radio Frequency (RF) receiving end, a fluorescent rod module, a control module and a control module, wherein the Ethernet communication link is provided with a plurality of base stations according to communication requirements and venue installation pressure, the base stations can establish communication connection with the main processor through radio signals, the fluorescent rods are in one-to-one correspondence with seats, the seats are arranged in a plurality of control areas of an audience seat, the control node of the seat establishes unidirectional independent control with an RFID reading head arranged on the fluorescent rod through an RFID seat card arranged on the fluorescent rod, an RF receiving end arranged on the fluorescent rod can receive fluorescent rod luminous processing corresponding to each area seat of the main processor output by the base stations, the seats in the venue respectively define control ranges of the corresponding fluorescent rod modules through coordinates through regional division, corresponding detection monitoring sensor equipment is arranged in the control ranges according to requirements, the monitoring sensor equipment (4) detect the light source, audio and video of the whole venue and data of all Myo action detection equipment, and transmits detection signals to the main processor (1) through the Ethernet communication link (2), after the contrast processing is carried out by the main processor (1), the control signals are transmitted to the fluorescent rod luminous modules (3) in the main processor through the Ethernet communication link (2), and the control module is connected with the base stations through the RF communication link (3) to the control rod, namely the base station communication module and the main processor, and the control module is connected with the base station;

the base station is provided with a fluorescent rod-oriented interactive experience audio-visual control system through a main manager, and the fluorescent rod-oriented interactive experience audio-visual control system comprises a resource allocation module, a real-time resource calculation module, a group control distribution module, a simulation module and an creation module;

the resource configuration module comprises a mode selection device and a seat configuration device, wherein the mode selection device comprises a simulation parameter configuration device and an online base station configuration device, the seat configuration device comprises an RFID tag configuration device and an RF radio frequency signal configuration device, the mode selection device is used for adjusting field simulation and online base station configuration, the base station control is guaranteed to control and adjust field control parameters, the seat configuration is used for opening a mobile phone by a spectator, scanning a two-dimensional code, opening an MCU (micro control unit) and a working system thereof in the fluorescent rod, opening an RFID tag in the fluorescent rod, reading seat area and number information of a spectator seat, and establishing control of the mobile phone and the base station on the fluorescent rod through RF radio frequency signals;

the real-time resource calculation module comprises an audio signal analysis module, a video signal analysis module and an audio-video associated data comparison module, and the light effect presentation of the audio-video control and the fluorescent stick matched performance by the resource calculation module is regulated and implemented through comparing the audio-video signal analysis module with the associated data;

the group control distribution module comprises a control module, a base station and mapping analysis module and a seat area dividing and positioning module, and the group control distribution module ensures that the fluorescent rod accurately receives a control instruction sent by the main processor through the control module, the base station and mapping analysis module and the seat area dividing module, and ensures that the main processor accurately controls the fluorescent rod;

the simulation module comprises a two-dimensional model, a three-dimensional model analysis module, an image, text analysis module and an audio simulation module, wherein the simulation module realizes that the two-dimensional and three-dimensional models of the luminous efficiency of the fluorescent rod are built by controlling the fluorescent rod to cooperate with simulation instructions, so that different image, text and audio simulation effects are presented, and the control accuracy and flexibility are enhanced;

the system comprises a creation module, a control end, a cloud creation module and a data processing module, wherein the creation module comprises a simulation resource access module, a cloud creation instruction input module and a data processing module, the creation module analyzes and processes simulation resource access and original creation instruction input data through the data processing module, and the control end is matched with the control end to control the fluorescent rod to work in a matched mode after analyzing the creation module instruction;

the signal receiving control of the base station comprises a wireless group control positioning technology research oriented to a large-scale fluorescent rod equipment lattice, a luminous lattice interaction control technology based on audio and video feature perception and a motion recognition and fluorescent rod interaction visual presentation control technology based on a Myo detection device, the signal receiving of the base station is input into a main processor, and an interaction experience viewing and listening control system oriented to the fluorescent rod equipment is arranged in the main processor;

the wireless group control positioning technology research for the lattice of the large-scale fluorescent rod equipment comprises the steps of positioning a fluorescent rod and a seat area and screening and positioning a working frequency band, wherein the wireless group control positioning technology is completed through an offline grouping networking, a secondary distribution/unpacking strategy and a cloud control link frequency band self-adaptive module, and the positioning work comprises area network distribution, a large-scale fluorescent rod lattice monitoring module, an audio and video signal detection module and a working mode selection module;

the luminous dot matrix interaction control technology module based on the audio and video feature perception comprises a processing module of an audio material, a video material and an audio and video material matching module, wherein the luminous dot matrix interaction control technology module based on the audio and video feature perception sets an audio and video perception feature mining and extraction technology, a cross-modal subjective evaluation experiment and a cross-modal information matching model construction, and the audio material and the video material are analyzed and processed to enable a fluorescent stick to display an image refreshing mode in cooperation with audio rhythms or video requirements;

the Myo detection bracelet is arranged on a wrist of a user based on research of action recognition of the Myo detection device and interaction visual presentation control technology of the fluorescent rod, the Myo detection bracelet can detect action angle electric signals sent by the user, rotation action determining signals and visual effect signals of the monitoring device, action recognition modeling and work-visual effect key modeling are established, user control action recognition is realized by matching with monitoring equipment, a working signal of the fluorescent rod is regulated, the Myo bracelet judges to receive the angle control signal of the bracelet by the user according to the rotation angle of the wrist of the user and secondary repetition or rotation angle stopping time reaches a signal detection node, the corresponding fluorescent effect is presented by regulating the rotation direction of the angle of the fluorescent rod, and the Myo detection end realizes regulation of control of the fluorescent rod by setting detection standards and action amplitude matching;

the interaction experience viewing control system for the fluorescent rod equipment comprises an authoring module, a real-time data calculation module, a large-scale group control distribution module and a resource allocation module;

the system comprises a creating module, a creating module and a real-time data processing module, wherein the creating module is provided with a cloud creating resource downloading component, the cloud creating resource downloading component controls a main processor to establish a real-time simulation effect after real-time data calculation, the real-time simulation effect comprises a local two-dimensional model simulation effect and a three-dimensional model simulation effect, a local simulation display mode is set to be an image simulation mode, a text simulation mode and an audio simulation mode, and the real-time data calculation mode comprises an audio feature analysis mode, a video feature analysis mode, an image feature analysis mode and a real-time mapping calculation feedback program;

the large-scale group control distribution module comprises a control analysis module, a base station analysis module and a mapping analysis link, and the signals are distributed to the fluorescent rod control processing of each area by the large-scale distributed distribution module after being analyzed and calculated;

the resource allocation module comprises a simulation parameter allocation program, an instruction input and selection module, an online base station allocation module, a bracelet, a seat allocation module and a group control interface area parameter allocation module, wherein different fluorescent rod group control presentation mode instructions including an image mode, a music mode, a text mode, a wave mode, a color block mode and a countdown mode are arranged in the instruction input and selection module.

2. The base station supporting group control of wireless group control fluorescent rods according to claim 1, wherein the main processor establishes a wireless group control system oriented to a large-scale fluorescent rod lattice through an Ethernet communication link, the wireless group control system comprises a software service layer, a secondary distribution layer and a field regulation layer, the software service layer comprises a local creating, audio and video material analysis and calculation module, a base station configuration, a distribution strategy and a control configuration device, the secondary distribution layer is provided with a plurality of groups of base stations with adjustable frequency bands and adjustable transmission rates, and the regulation object of the field regulation layer comprises division and positioning of a seat area of a spectator, seat RFID labels, unidirectional control of the fluorescent rods and working control of the fluorescent rods through an RF (radio frequency) module.

3. The base station supporting wireless group control of a group control fluorescent stick according to claim 1, wherein an audio material library and a video material library are arranged in the audio and video material analysis and calculation module, the audio and video material analysis and calculation module extracts audio feature data and video feature data, two groups of feature data are processed and constructed through a cross-mode matching model, audio and video data of a venue performance are analyzed, the cross-mode matching model construction comprises a cross-mode model construction experiment and a monitoring information data matching model construction, the cross-mode model construction experiment comprises a experiment condition setting, an experiment flow setting, an experiment scheme implementation and an experiment result statistical analysis, the monitoring information data matching model construction comprises data analysis, feature selection, parameter optimization and model evaluation, and the cross-mode matching model construction is followed by setting and audio-visual interaction mode research and development module, and the audio-visual interaction mode research and development module is designed for a music image interaction mode based on audio and video data, and the music image interaction mode design comprises a music rhythm mode and an image refreshing mode.