CN205028144U - Stage self -adaptation multidimension transmission control system - Google Patents

Abstract

The utility model discloses a stage self -adaptation multidimension transmission control system includes local cluster control unit, direct memory access unit, a plurality of transfer memory cell, data type recognition cell, IP address matching unit, stage equipment data extraction unit, stage personnel data extraction unit and on -the -spot data extraction unit of stage and data volume detecting element, the relevant information of acquireing and transmit many equipment of stage and personnel that can real time kinematic has improved the degree of accuracy of stage control, has realized data traffic's control, has reduced the stage potential safety hazard, has promoted the stage and has presented the effect.

Description

Stage self-adaptation multi-dimensional transmission control system

Technical Field

The utility model relates to a stage control field especially relates to a stage self-adaptation multidimension transmission control system.

Background

With the increasing abundance of elements in the arrangement of modern performance scenes, the number of devices and personnel in the field is also multiplied, and the control and management of these devices and personnel becomes more and more complex. In order to better manage or control, the field data needs to be acquired as detailed as possible, which includes two aspects, namely data acquisition and transmission, but in the prior art, the subsystems of the stage are independent from each other and are difficult to operate coordinately, the data collected by the subsystems are also independent from each other, and the problems of bandwidth contention, disordered transmission, difficult evaluation of the whole data volume and the like exist, so that the stage control accuracy is low, and the stage effect is not ideal.

SUMMERY OF THE UTILITY MODEL

The purpose of the utility model is realized through the following technical scheme.

According to the embodiment of the utility model, a stage self-adaptive multidimensional transmission control system is provided, the system comprises a local cluster control unit, a direct storage access unit, a plurality of transfer storage units, a data type identification unit, an IP address matching unit, a stage equipment data extraction unit, a stage personnel data extraction unit, a stage field data extraction unit and a data quantity detection unit, wherein,

the local cluster control unit is used for receiving a data acquisition instruction sent by the cloud central control unit and respectively forwarding the instruction to the direct storage access unit, the stage equipment data extraction unit, the stage personnel data extraction unit and the stage field data extraction unit;

the direct storage access unit is used for receiving a data transmission instruction of the local cluster control unit, reading the storage data of the plurality of transfer storage units and uploading the storage data to the cloud central control unit;

the data type identification unit is used for identifying the data type of the received data;

the IP address matching unit is used for matching the received data with a pre-allocated IPv6 address so as to determine an accurate data source; and

the transfer storage unit is used for storing data submitted by the stage equipment data extraction unit, the stage personnel data extraction unit and the stage field data extraction unit in a classified manner according to the data types and the matched IPv6 addresses;

a data amount detection unit for performing data amount detection on the transmitted data;

the stage equipment data extraction unit is used for extracting real-time operation data related to stage equipment;

the stage personnel data extraction unit is used for extracting real-time execution data related to stage performance personnel, and

the stage scene data extraction unit is used for extracting dynamic data related to a stage scene.

According to the utility model discloses an embodiment, stage equipment data extraction unit specifically includes: the system comprises a first sub-control unit, a stage equipment data packaging unit, a mechanical component data acquisition subunit, an audio and video data acquisition subunit and a light data acquisition subunit; wherein,

the first sub-control unit is used for receiving a data acquisition instruction sent by the local cluster control unit and indicating the mechanical component data acquisition sub-unit, the audio and video data acquisition sub-unit and the light data acquisition sub-unit to acquire corresponding data according to the instruction;

the stage equipment data packaging unit is used for packaging and transmitting corresponding data acquired by the mechanical component data acquisition subunit, the audio and video data acquisition subunit and the lighting data acquisition subunit to the transfer storage unit;

the mechanical component data acquisition subunit is used for periodically acquiring sensing information of a mechanical part connected with the mechanical component data acquisition subunit, wherein the sensing information comprises a stage three-dimensional coordinate and an operation state of the mechanical part;

the audio and video data acquisition subunit is used for acquiring stage audio and video playing information in real time;

and the lighting data acquisition subunit is used for acquiring the stage lighting operation information in real time.

According to the utility model discloses an embodiment, mechanical component data acquisition subunit specifically includes:

the angular motion detection unit is connected with the vehicle platform and used for calculating the position and the speed of the vehicle platform in real time and sending the position and the speed of the vehicle platform as sensing information to the stage equipment data packaging unit;

the limiting sensing unit is used for sending limiting alarm information to the stage equipment data packaging unit when detecting that the position of the corresponding vehicle platform reaches a limiting height;

the safety rope sensing unit is used for sending rope loosening alarm information to the stage equipment data packaging unit when the tightness degree of the safety rope corresponding to the vehicle platform is detected to reach a set threshold value;

the stage equipment data packaging unit reports the received limit alarm information or the rope loosening alarm information to the cloud central control unit through the transfer storage unit;

and the cloud central control unit is also used for stopping the operation of the vehicle platform after receiving the limit alarm information or the rope loosening alarm information.

According to the utility model discloses an embodiment, audio and video data obtains the subelement and specifically includes: an audio playing real-time parameter acquisition unit, a video playing real-time parameter acquisition unit, an audio and video pre-programming parameter acquisition unit and a first parameter comparison unit, wherein,

the audio playing real-time parameter acquisition unit and the video playing real-time parameter acquisition unit are used for acquiring audio and video parameters played in stage performance in real time;

the audio and video pre-programming parameter acquisition unit is used for acquiring audio and video related parameters needing to be played in the current performance from the cloud central control unit in advance;

the first parameter comparison unit is used for comparing the acquired audio and video real-time parameters with pre-acquired audio and video pre-programmed parameters, generating audio and video playing abnormal information when the parameters are not corresponding, and reporting the audio and video playing abnormal information and the audio and video real-time parameters to the cloud central control unit through the transfer storage unit;

the cloud central control unit is also used for correcting the audio and video playing parameters after receiving the audio and video playing abnormal information and the audio and video real-time parameters and sending the audio and video playing parameters to the audio and video playing unit.

According to the utility model discloses an embodiment, light data acquisition subunit specifically includes: a light real-time parameter acquisition unit, a light pre-programmed parameter acquisition unit and a second parameter comparison unit, wherein,

the light real-time parameter acquisition unit is used for acquiring light real-time parameters used in stage performance;

the light pre-programming parameter acquisition unit is used for acquiring light related parameters required by the current performance from the cloud central control unit in advance;

the second parameter comparison unit is used for comparing the acquired real-time lamplight parameters with pre-acquired pre-programmed lamplight parameters, generating abnormal lamplight information when the parameters are not corresponding, and reporting the abnormal lamplight information and the real-time lamplight parameters to the cloud central control unit through the transfer storage unit;

and the cloud central control unit is also used for correcting the lighting parameters after receiving the lighting abnormal information and the lighting real-time parameters and transmitting the lighting parameters to each stage lighting unit.

According to the embodiment of the present invention, the stage personnel data extraction unit specifically comprises a second sub-control unit, a stage personnel data packing unit, a high-speed motion image acquisition unit, and a data preprocessing unit, wherein,

the second sub-control unit is used for receiving a data acquisition instruction sent by the local cluster control unit and instructing the high-speed motion image acquisition unit to acquire corresponding data according to the instruction;

the high-speed motion image acquisition unit is used for acquiring the body motion state of an actor and recording a video;

the data preprocessing unit is used for receiving the data acquired by the high-speed motion image acquisition unit, extracting action key frames and identifying and comparing action sequences;

and the stage personnel data packaging unit is used for packaging the corresponding data of the data preprocessing unit and transmitting the data to the transfer storage unit.

The utility model discloses a stage self-adaptation multidimension transmission control system includes local cluster control unit, direct memory access unit, a plurality of transfer memory cell, data type identification unit, IP address matching unit, stage equipment data extraction unit, stage personnel data extraction unit and stage field data extraction unit and data volume detecting element; the method can dynamically acquire and transmit the related information of multiple devices and personnel on the stage in real time, improves the accuracy of stage control, realizes the control of data flow, reduces the potential safety hazard of the stage, and improves the stage presentation effect.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a schematic structural diagram of a stage adaptive multi-dimensional transmission control system according to an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a stage equipment data extraction unit according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a stage personnel data extraction unit according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a stage field data extraction unit according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a data amount detection unit according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art.

According to an embodiment of the present invention, a stage adaptive multi-dimensional transmission control system is provided, as shown in fig. 1, the system includes a local cluster control unit, a direct storage access unit, a plurality of transfer storage units, a data type identification unit, an IP address matching unit, a stage equipment data extraction unit, a stage personnel data extraction unit, a stage site data extraction unit, and a data amount detection unit, wherein,

the local cluster control unit is used for receiving a data acquisition instruction sent by the cloud central control unit and respectively forwarding the instruction to the direct storage access unit, the stage equipment data extraction unit, the stage personnel data extraction unit and the stage field data extraction unit;

the direct storage access unit is used for receiving a data transmission instruction of the local cluster control unit, reading the storage data of the plurality of transfer storage units and uploading the storage data to the cloud central control unit;

the data type identification unit is used for identifying the data type of the received data, such as personnel data, equipment data and the like;

the IP address matching unit is used for matching the received data with a pre-allocated IPv6 address so as to determine an accurate data source; and

the transfer storage unit is used for storing data submitted by the stage equipment data extraction unit, the stage personnel data extraction unit and the stage field data extraction unit in a classified manner according to the data types and the matched IPv6 addresses;

a data amount detection unit for performing data amount detection on the transmitted data;

the stage equipment data extraction unit is used for extracting real-time operation data related to stage equipment;

the stage personnel data extraction unit is used for extracting real-time execution data related to stage performance personnel, and

the stage scene data extraction unit is used for extracting dynamic data related to a stage scene.

According to the utility model discloses an embodiment, as shown in FIG. 2, stage equipment data extraction unit specifically includes: the system comprises a first sub-control unit, a stage equipment data packaging unit, a mechanical component data acquisition subunit, an audio and video data acquisition subunit and a light data acquisition subunit; wherein,

the first sub-control unit is used for receiving a data acquisition instruction sent by the local cluster control unit and indicating the mechanical component data acquisition sub-unit, the audio and video data acquisition sub-unit and the light data acquisition sub-unit to acquire corresponding data according to the instruction;

the stage equipment data packaging unit is used for packaging and transmitting corresponding data acquired by the mechanical component data acquisition subunit, the audio and video data acquisition subunit and the lighting data acquisition subunit to the transfer storage unit;

the mechanical component data acquisition subunit is used for periodically acquiring sensing information of a mechanical part connected with the mechanical component data acquisition subunit, wherein the sensing information comprises a stage three-dimensional coordinate and an operation state of the mechanical part;

the audio and video data acquisition subunit is used for acquiring stage audio and video playing information in real time;

and the lighting data acquisition subunit is used for acquiring the stage lighting operation information in real time.

According to the utility model discloses a preferred embodiment, mechanical component data acquisition subunit specifically includes:

the angular motion detection unit is connected with the vehicle platform and used for calculating the position and the speed of the vehicle platform in real time and sending the position and the speed of the vehicle platform as sensing information to the stage equipment data packaging unit;

the limiting sensing unit is used for sending limiting alarm information to the stage equipment data packaging unit when detecting that the position of the corresponding vehicle platform reaches a limiting height;

the safety rope sensing unit is used for sending rope loosening alarm information to the stage equipment data packaging unit when the tightness degree of the safety rope corresponding to the vehicle platform is detected to reach a set threshold value;

the stage equipment data packaging unit reports the received limit alarm information or the rope loosening alarm information to the cloud central control unit through the transfer storage unit;

and the cloud central control unit is also used for stopping the operation of the vehicle platform after receiving the limit alarm information or the rope loosening alarm information.

According to the utility model discloses a preferred embodiment, audio and video data obtains the subelement and specifically includes: an audio playing real-time parameter acquisition unit, a video playing real-time parameter acquisition unit, an audio and video pre-programming parameter acquisition unit and a first parameter comparison unit, wherein,

the audio playing real-time parameter acquisition unit and the video playing real-time parameter acquisition unit are used for acquiring audio and video parameters played in the stage performance in real time, and the parameters can be, but are not limited to, information such as tone, sound breaking, height, delay, synchronization and the like;

the audio and video pre-programming parameter acquisition unit is used for acquiring audio and video related parameters needing to be played in the current performance from the cloud central control unit in advance;

the first parameter comparison unit is used for comparing the acquired audio and video real-time parameters with pre-acquired audio and video pre-programmed parameters, generating audio and video playing abnormal information when the parameters are not corresponding, and reporting the audio and video playing abnormal information and the audio and video real-time parameters to the cloud central control unit through the transfer storage unit;

the cloud central control unit is also used for correcting the audio and video playing parameters after receiving the audio and video playing abnormal information and the audio and video real-time parameters and sending the audio and video playing parameters to the audio and video playing unit.

According to the utility model discloses a preferred embodiment, light data acquisition subunit specifically includes: a light real-time parameter acquisition unit, a light pre-programmed parameter acquisition unit and a second parameter comparison unit, wherein,

the light real-time parameter acquisition unit is used for acquiring light real-time parameters used in stage performance, and the parameters can be, but are not limited to, information such as brightness, color, synchronization, light chasing position and the like;

the light pre-programming parameter acquisition unit is used for acquiring light related parameters required by the current performance from the cloud central control unit in advance;

the second parameter comparison unit is used for comparing the acquired real-time lamplight parameters with pre-acquired pre-programmed lamplight parameters, generating abnormal lamplight information when the parameters are not corresponding, and reporting the abnormal lamplight information and the real-time lamplight parameters to the cloud central control unit through the transfer storage unit;

and the cloud central control unit is also used for correcting the lighting parameters after receiving the lighting abnormal information and the lighting real-time parameters and transmitting the lighting parameters to each stage lighting unit.

According to the utility model discloses an embodiment, as shown in FIG. 3, stage personnel data extraction unit specifically includes:

a second sub-control unit, a stage personnel data packing unit, a high-speed motion image acquisition unit and a data preprocessing unit, wherein,

the second sub-control unit is used for receiving a data acquisition instruction sent by the local cluster control unit and instructing the high-speed motion image acquisition unit to acquire corresponding data according to the instruction;

the high-speed motion image acquisition unit is used for acquiring the body motion state of an actor and recording a video;

the data preprocessing unit is used for receiving the data acquired by the high-speed motion image acquisition unit, extracting action key frames and identifying and comparing action sequences;

and the stage personnel data packaging unit is used for packaging the corresponding data of the data preprocessing unit and transmitting the data to the transfer storage unit.

According to the preferred embodiment of the present invention, the data preprocessing unit includes:

the system comprises a pre-programmed action acquisition unit, a cloud central control unit and a pre-programmed action acquisition unit, wherein the pre-programmed action acquisition unit is used for acquiring an actor standard action sequence required by the current performance from the cloud central control unit;

the action sequence identification unit is used for angulating the body motion state data acquired by the high-speed motion image acquisition unit and extracting action key frames;

the action compiling unit is used for compiling the action of the actor by utilizing the action key frames extracted by the action sequence identification unit;

the action comparison unit is used for comparing the compiled action with the standard action sequence acquired by the pre-programmed action acquisition unit, and reporting a corresponding action key frame and a comparison result to the cloud central control unit through the transfer storage unit when the comparison is unsuccessful;

the cloud central control unit is further used for storing the action key frames after receiving the comparison result so as to improve learning subsequently.

According to the utility model discloses an embodiment, as shown in FIG. 4, stage field data extraction unit specifically includes: the system comprises a third control unit, a stage field data packaging unit, a plurality of high-definition intelligent ball machines, a plurality of directional audio pickup units and an audio and video preprocessing unit; wherein,

the third sub-control unit is used for receiving a data acquisition instruction sent by the local cluster control unit and instructing the high-definition intelligent dome camera to acquire corresponding data according to the instruction;

the high-definition intelligent ball machines are used for acquiring real-time images of performance sites and acquiring related information including audience flow, crowd density and the like;

the plurality of directional audio pickup units are used for acquiring background noise of a performance site and acquiring related information including noise intensity, noise positioning and the like;

the audio and video preprocessing unit is used for compressing and encoding the acquired audio and video data;

and the stage field data packaging unit is used for packaging the audio and video data compressed and coded by the audio and video preprocessing unit and transmitting the audio and video data to the transfer storage unit.

According to a preferred embodiment of the present invention, the direct memory access unit is composed of a buffer relay unit, a limited high-speed memory set, and an interface control sequence unit, wherein:

the buffer relay unit consists of a first-in first-out buffer and a second first-in first-out buffer, wherein the first-in first-out buffer is used for buffering data read from the transit storage unit to the cloud central control unit, the second first-in first-out buffer is used for buffering data written from each data extraction unit to the transit storage unit, and the first-in first-out buffer or the second first-in first-out buffer is used when data streams are communicated among the transit storage units;

the limited high-speed storage set consists of two groups of configuration registers and a group of state registers, wherein the two groups of configuration registers are used for controlling each data stream communication of the transfer storage unit in turn, and each group of configuration registers are at least used for configuring the type of a data stream channel, the type of a data extraction unit, the sending address or/and the receiving address of the transfer storage unit and the length of transmission data in each data stream communication; the group of state registers are used for starting the transfer storage unit and reflecting the transmission state of the transfer storage unit, wherein the transmission state at least reflects whether the current transmission is finished;

the interface control sequence unit is composed of a state recognizer, when the transfer storage unit accesses the data extraction unit, the state recognizer directly controls the interface signal of the data transmitted or received by the data extraction unit according to each state and state jump, and detects the working state of the data extraction unit in real time.

According to the preferred embodiment of the present invention, as shown in fig. 5, the data amount detecting unit specifically includes: the device comprises a transmission flow table establishing unit, a characteristic sequence acquiring unit, a memory, an analyzing unit, a first judging unit, a second judging unit and a third judging unit; wherein,

the transmission flow table establishing unit is used for establishing a transmission flow table, and the attributes of the table structure of the transmission flow table comprise: transmitting node type, protocol type, source IP, source port, destination IP, destination port, packet direction of data packet and data message length of data packet;

the characteristic sequence acquisition unit is used for acquiring characteristic sequences of various monitored transport streams in a transmission layer and storing the characteristic sequences in a memory;

the analysis unit is used for analyzing the packet header of the intercepted data packet to obtain the protocol type, the source IP, the source port, the destination IP, the destination port and the data message length of the data packet;

the first judging unit is used for inquiring whether a source IP, a source port, a destination IP and a destination port of a transmission stream record exist in the transmission stream table under the same protocol type and the source IP, the source port, the destination IP and the destination port in the data packet are the same;

the second judging unit is used for judging whether the transmission node type of the transmission stream is calibrated or not when the first judging unit judges that the same condition is stored, and recording the packet direction and the data message length of the data packet in the transmission stream and loading the data packet into a transmission stream table if the transmission node type of the transmission stream is not calibrated; and

the third judging unit is used for judging whether the data packet record of the network data stream reaches the set data packet number threshold value N, and if the threshold value N is reached, the data transmission quantity of the stage is recorded.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any changes or substitutions that can be easily conceived by those skilled in the art within the technical scope of the present invention should be covered by the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (1)

1. A stage self-adaptive multidimensional transmission control system is characterized by comprising a local cluster control unit, a direct storage access unit, a plurality of transfer storage units, a data type identification unit, an IP address matching unit, a stage equipment data extraction unit, a stage personnel data extraction unit, a stage field data extraction unit and a data volume detection unit, wherein,

the stage equipment data extraction unit specifically comprises a first sub-control unit, a stage equipment data packing unit, a mechanical component data acquisition subunit, an audio and video data acquisition subunit and a light data acquisition subunit;

the mechanical component data acquisition subunit specifically includes:

an angular motion detection unit connected to the vehicle body,

a position-limiting sensing unit which is arranged on the base,

a safety rope sensing unit for sensing the safety rope,

the audio and video data acquisition subunit specifically comprises: an audio playing real-time parameter acquisition unit, a video playing real-time parameter acquisition unit, an audio and video pre-programming parameter acquisition unit and a first parameter comparison unit,

the light data acquisition subunit specifically includes: a light real-time parameter acquisition unit, a light pre-programmed parameter acquisition unit, a second parameter comparison unit,

the stage personnel data extraction unit specifically comprises a second sub-control unit, a stage personnel data packing unit, a high-speed motion image acquisition unit and a data preprocessing unit.