CN112333528A - Stadium information publishing method and device - Google Patents

Abstract

The application discloses a method and a device for publishing stadium information, which are used for shortening transmission time and reducing cost. The stadium information publishing method comprises the following steps: accessing a video signal source to an input interface of an information transmitting box; simultaneously carrying out first format coding and second format coding on the video signal source to obtain first format data and second format data; outputting the first format data and the second format data to a first network switch, and outputting the second format data to a second network switch; a first signal receiving box receives the first format data, decodes the first format data to obtain first display data, and outputs the first display data to a display terminal; a second signal receiving box receives the second format data, decodes the second format data to obtain second display data, and outputs the second display data to a display terminal; wherein the first format encoding and the second format encoding are different, and a transmission rate of the first network switch is greater than a transmission rate of the second network switch. The application also provides a stadium information publishing device.

Description

Stadium information publishing method and device

Technical Field

The present application relates to the field of information technologies, and in particular, to a method and an apparatus for publishing stadium information.

Background

The hardware part of the stadium information publishing system generally consists of an information sending end, information transmission equipment, an information receiving end and an information display terminal. The current streaming media video source adopts a compression technology with high compression ratio to reduce the transmitted data volume, so that the display definition of the terminal cannot achieve the ultra-high definition display effect. Since the high compression transmission needs soft decoding, the real-time video of the game is displayed to the terminal and generally delayed for 3-4 seconds, which affects the experience of the audience. In addition, in the prior art, display content control and power supply control cannot be independently performed on each display terminal, and the flexibility is poor.

Disclosure of Invention

In view of the above technical problems, embodiments of the present application provide a method and an apparatus for publishing stadium information, so as to reduce transmission delay, improve user experience, and improve flexibility of management.

In one aspect, a method for publishing information of a stadium, provided by an embodiment of the present application, includes:

accessing a video signal source to an input interface of an information transmitting box;

simultaneously carrying out first format coding and second format coding on the video signal source to obtain first format data and second format data;

outputting the first format data and the second format data to a first network switch, and outputting the second format data to a second network switch;

a first signal receiving box receives the first format data, decodes the first format data to obtain first display data, and outputs the first display data to a display terminal;

a second signal receiving box receives the second format data, decodes the second format data to obtain second display data, and outputs the second display data to a display terminal;

wherein the first format encoding and the second format encoding are different, and a transmission rate of the first network switch is greater than a transmission rate of the second network switch.

The first network switch is a gigabit network switch;

the second network switch is a gigabit network switch.

Further, the first format data is output to a gigabit network switch through a gigabit optical fiber;

and outputting the second format data to a gigabit network switch through a gigabit optical fiber.

And selecting to simultaneously display the first display data or the second display data in a split screen mode by the user for the flexibility of the user.

Further, the system manager uses the management terminal to view one or a combination of the following:

the working state of the information transmitting box;

the working state of the first signal receiving box;

the working state of the second signal receiving box;

and the power consumption of the power supply of the display terminal.

The method further comprises the following steps: and remotely turning off or turning on the power supply of the display terminal by using the management terminal through a wireless switch controller.

As a preferred example, the first format encoding is SDVOE encoding, and the first signal-receiving box is an SDVOE signal-receiving box; the second format code is H.264/H.265 code, and the second signal receiving box is H.264/H.265 signal receiving box.

As a preferred example, the input Interface is a High Definition Multimedia Interface, HDMI Interface;

the outputting the first display data to a display terminal comprises:

outputting the first display data to a display terminal through the HDMI interface;

the outputting the second display data to a display terminal includes:

and outputting the second display data to a display terminal through the HDMI interface.

As a preferred example, the video signal source is a 4K ultra high definition signal source.

On the other hand, an embodiment of the present application provides a stadium information publishing device, including:

the signal source module is used for generating a 4K video signal source;

the aggregation encoder module is used for simultaneously carrying out first format encoding and second format encoding on the video signal source to obtain first format data and second format data;

the first network switch is used for transmitting the first format data and the second format data;

a second network switch for transmitting the second format data;

the first signal receiving box is used for receiving the first format data, decoding the first format data to obtain first display data and outputting the first display data to a display terminal;

the second signal receiving box is used for receiving the second format data, decoding the second format data to obtain second display data and outputting the second display data to a display terminal;

the display terminal is used for displaying the first display data and/or the second display data;

the signal source module is connected with the aggregation encoder module, the aggregation encoder is connected with the first network switch and the second network switch, the first network switch is connected with the first signal receiving box, the second network switch is connected with the second signal receiving box, and the display terminal is connected with the first signal receiving box and the second signal receiving box;

wherein the first format encoding and the second format encoding are different, and a transmission rate of the first network switch is greater than a transmission rate of the second network switch.

By the method and the device for publishing the information of the stadium, the ultra-high-definition pictures can be displayed in a low delay time, and a user can select played contents through the remote controller, so that the user experience is improved. In addition, the manager can check the state of the display terminal through the management terminal, and remotely and independently close or open a specific display terminal, so that the management flexibility and efficiency are improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic diagram of a prior art stadium information distribution device;

fig. 2 is a schematic flow chart of a method for publishing sports stadium information according to an embodiment of the present application;

fig. 3 is a first schematic structural diagram of a stadium information publishing device according to an embodiment of the present application;

fig. 4 is a schematic structural diagram of a stadium information publishing device according to an embodiment of the present application;

fig. 5 is a schematic view of a split screen mode 1 provided in an embodiment of the present application;

fig. 6 is a schematic diagram of a split screen mode 2 according to an embodiment of the present application;

fig. 7 is a schematic view of a split screen mode 3 provided in the embodiment of the present application.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, the present invention will be described in further detail with reference to the accompanying drawings, and it is apparent that the described embodiments are only a part of the embodiments of the present invention, not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Some of the words that appear in the text are explained below:

1. the term "and/or" in the embodiments of the present invention describes an association relationship of associated objects, and indicates that three relationships may exist, for example, a and/or B may indicate: a exists alone, A and B exist simultaneously, and B exists alone. The character "/" generally indicates that the former and latter associated objects are in an "or" relationship.

2. In the embodiments of the present application, the term "plurality" means two or more, and other terms are similar thereto.

Fig. 1 is a schematic diagram of a prior art stadium information publishing device, which includes:

the information sending terminal 101 is typically a computer or a live video server. The computer is provided with information release software and has the functions of managing an information receiving end, sending public information to the receiving end and the like. Public information content includes announcements, welcome words, advertisements, trailers, live game scenes, and the like. The video live broadcast server can compress and push the signals of the camera or other video input devices to an IP network, and then the signals are decoded and output to the display terminal by the information receiving terminal.

The information transmission device 102 is based on an IP network, and the hardware devices include switches, optical fibers, network cables, and the like, and may use a private network inside a venue or an independent private network for information distribution.

The information receiving device 103 is used for converting the multimedia information on the network into a video signal interface, such as VGA, DVI, HDMI, etc.

The information display terminal 104, the information display terminal generally uses a liquid crystal screen or a liquid crystal television, and is used in cooperation with the information receiving device. The information display terminals are distributed in all corners of the stadium, such as entrances and exits, corridors, VIP boxes and the like.

Generally, the building area of the venue is large, the terminal devices are distributed dispersedly, and centralized information publishing and unified management are required to be carried out on each terminal device. The display screen in the venue can be utilized to play the role of a notice board, and also can display information such as videos, pictures, time, weather and the like.

The existing stadium information publishing system uses video coding compression technology when transmitting real-time signals. The video source signal is generally from a relay car or a camera, the analog video signal of the camera enters an information sending end, is compressed into a digital signal by using H.264/H.265 or other video coding technologies, and is transmitted to an information receiving device through an IP network, and the information receiving device decodes the digital signal into a video interface signal and outputs the video interface signal to a television or an LCD screen for display. But the displayed content is uniformly distributed and controlled by the administrator.

However, in the prior art, since the streaming media video source adopts a compression technology with a high compression ratio, the display definition of the terminal cannot achieve the ultra-high definition display effect. Due to the problems of video source compression and soft decoding delay of a terminal, the real-time video of a match is delayed for 3-4 seconds when the video is displayed at the terminal, and the user experience is poor. In addition, because the displayed content is uniformly issued and controlled by an administrator, the user cannot switch the video source to be watched by himself, and the flexibility is insufficient. In addition, if the terminal uses a television as a display terminal, the management terminal cannot control the power switches of the television one to one, and the management efficiency is low.

In view of the above technical problems, embodiments of the present application provide a method and an apparatus for publishing stadium information, so as to implement non-compression and ultra-low delay transmission of a 4K ultra-high request video, thereby improving user experience. The method supports compression transmission while no compression transmission, is convenient for setting different devices according to different scenes, can display different contents in a split screen mode by each display terminal, and can remotely turn on or turn off a power supply by each display terminal, thereby improving the flexibility and the management efficiency.

It should be noted that the 4K ultra-high-definition signal source described in this embodiment is specifically defined as a signal source with a resolution of 3840 × 2160 (wide × high) and a refresh rate of 60Hz at the highest. The higher the refresh rate, the greater the network bandwidth requirement, e.g., 60Hz bandwidth is 2 times the 30Hz bandwidth requirement. The refreshing frequency is the 4K ultra-high definition signal source of 60Hz, can be called 4K @60Hz signal source for short.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only a part of the embodiments of the present application, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.

It should be noted that the display sequence of the embodiment of the present application only represents the sequence of the embodiment, and does not represent the merits of the technical solutions provided by the embodiments.

Example one

Referring to fig. 2, a schematic diagram of a method for publishing information of a stadium provided in an embodiment of the present application is shown, where the method includes:

s201, accessing a video signal source to an input interface of an information transmitting box;

in order to realize uncompressed transmission of high-definition video, in this step, the video signal source is a 4K ultra-high-definition signal source. In order to realize uncompressed transmission, the transmission rate of the transmission interface needs to meet the transmission requirement of a 4K ultra-high-definition signal source. As a preferred example, the input Interface is a High Definition Multimedia Interface HDMI (High Definition Multimedia Interface, HDMI for short). Or may be other interfaces satisfying the transmission of the 4K ultra-high-definition signal source, which is not limited in this embodiment.

S202, simultaneously carrying out first format coding and second format coding on the video signal source to obtain first format data and second format data;

in the invention, in order to arrange terminals with different resolutions and definitions according to different occasion requirements, the management efficiency is improved, the cost is reduced, and two different coding formats are compatible: a first format code and a second format code.

The first format code is uncompressed code to meet the requirements of ultra-high definition and ultra-low delay display. As a preferred example, the first encoding format may be SDVOE encoding, which is described herein as SDVOE (Software Defined Video-over-Ethernet) Ethernet-based Software Defined Video.

The second format code is a high-compression code, so that the second format code is compatible with high-compression coding equipment in the prior art, and meets the requirements of occasions without ultra-high definition display and low delay requirement, and the cost is reduced. As a preferred example, the second encoding format may be h.264/h.265 encoding. Among them, h.264 may also be referred to as AVC (Advanced Video Coding), and h.265 may also be referred to as HAVC (High Efficiency Video Coding).

In this step, the first format encoding and the second format encoding are performed simultaneously. Carrying out first format coding on a video signal source to obtain first format data; and carrying out second format coding on the video signal source to obtain second format data.

S203, outputting the first format data and the second format data to a first network switch, and outputting the second format data to a second network switch;

in the embodiment of the present invention, the first format data and the second format data are transmitted through different network switches, corresponding to the first format data and the second format data in step S202. The transmission rate of the first network switch is greater than the transmission rate of the second network switch.

The first network switch is a gigabit network switch and is used for transmitting data in a first format; the second network switch is a gigabit network switch and is used for transmitting the second format data.

In the embodiment of the invention, the first format data is uncompressed, the second format data is highly compressed, the first format data volume is larger than the second format data volume by the same video signal source. In order to output the encoded data to the corresponding network switch, the rates of the transmission interfaces are respectively required to meet the requirements of the first format data and the second format data. As a preferred example, the first format data is output to a gigabit network switch through a gigabit optical fiber; the second format data may be output to a gigabit network switch over a gigabit fiber, and the second format data may be output to the gigabit network switch over a gigabit fiber.

S204, the first signal receiving box receives the first format data, decodes the first format data to obtain first display data, and outputs the first display data to a display terminal;

s205, the second signal receiving box receives the second format data, decodes the second format data to obtain second display data, and outputs the second display data to the display terminal.

In steps S204 and S205, the first signal receiving box is a receiving box matched with the first format data, that is, a receiving box capable of receiving and decoding the first data is provided. Accordingly, the second signal receiving box is a receiving box matched with the second format data, that is, a receiving box capable of receiving and decoding the second data is provided.

As a preferred example, when the first format encoding is SDVOE encoding, the first signal-receiving box is an SDVOE signal-receiving box; when the second format code is H.264/H.265 code, the second signal receiving box is H.264/H.265 signal receiving box.

The interface between the first signal receiving box and the second signal receiving box and the display terminal needs to meet the transmission requirements of the first display data and the second display data. Accordingly, the first display data is an ultra high definition 4K signal, and the transmission rate requirement is higher than the transmission rate requirement of the second display data decompressed after the compression.

As a preferred example, the first display data is output to a display terminal through the HDMI interface; and outputting the second display data to a display terminal through the HDMI interface.

It should be noted that the first signal receiving box and the second signal receiving box may be integrated in the same receiving box, that is, the same receiving box, and can simultaneously receive and decode the first format data and the second format data. The first signal receiving box and the second signal receiving box may be separate and independent receiving boxes.

It should be noted that the signal source described in this embodiment may include a plurality of signal sources, for example, signal sources from different shooting locations or different shooting angles, or signal sources from different game items, and the like. In a display terminal, data and/or other system information from a plurality of different signal sources may be displayed in a split-screen manner. Several split screen modes provided by the present invention are given below.

Split screen mode 1:

as shown in fig. 5, for example, in a track and field competition, a track and field competition are usually performed simultaneously, so that the signal source 1 is generally accessed to a live track competition screen, the signal source 2 is accessed to a live track competition screen, and the signal source 3 is accessed to a timing and scoring and score publishing screen;

in the upper left corner of the picture, the user can use the remote controller to switch between the signal source 1/2/3 to watch the picture which is more interesting; meanwhile, the three small windows on the right side fixedly display the picture of the signal source 1/2/3, so that the audience can take all pictures into account without missing any competition process;

the bottom is a bottom bar area which is used for displaying the name/logo of the event, the name/logo of the host, the rolling caption (real-time information: score information, advance notice of the event, the prompt of the event watching and the like) and the time information;

the whole interface not only gives consideration to the live broadcast requirement when a plurality of events are carried out simultaneously, but also gives consideration to the publishing and displaying of public information.

Split screen mode 2:

as shown in fig. 6, in a game such as basketball and tennis, only one game is played in the same time field, so the signal source 1 is accessed to a live broadcast picture of the game, and the signal source 2 is accessed to a game result and data analysis statistical picture of the timing and scoring system;

the bottom column content is in the same split screen mode 1.

Split screen mode 3:

as shown in fig. 7, in the games such as table tennis and curling, a plurality of groups of games are simultaneously played in the field, so that a signal source 1 is accessed to a first group of live broadcast pictures, a signal source 2 is accessed to a second group of live broadcast pictures, and similarly, a signal source N is accessed to an nth group of live broadcast pictures (generally, 4 signal sources are available);

the bottom column content is in the same split screen mode 1.

In this embodiment, in order to monitor the operating states of the information transmitting box, the first signal receiving box, the second signal receiving box and the display terminal, the manager may use the management terminal to view the state of each of the above devices, that is: the management terminal looks at one or a combination of the following:

the working state of the information transmitting box;

the working state of the first signal receiving box;

the working state of the second signal receiving box;

and the power consumption of the power supply of the display terminal.

As another preferred example, a wireless switch controller is installed on the display terminal, and the administrator can remotely turn off or turn on the power supply of the display terminal by means of remote control, so as to improve the management efficiency.

By the stadium information publishing method provided by the embodiment, the 4K ultra-high definition video signal is transmitted by using the first format coding (for example, the SDVOE coding technology), so that the effect of transmission without compression and zero delay is achieved. The first format coding and the second format coding (for example, the SDVOE coding and the H.264/H.265 coding are simultaneously used) are used for considering both the functional requirement and the management cost, and the SDVOE version signal receiving box is configured at important positions, such as a VIP box, an entrance, an exit and the like, so that ultra-high-definition non-delay pictures are provided for users. In general locations, such as elevator rooms, corridors and mobile equipment, the H.264/H.265 version signal receiving box or the integrated machine with lower cost is used, so that the expense is saved.

By the stadium information publishing method provided by the embodiment, the split screen display function can be realized, and users can check different video source signals at the same time. For example, a field and a track may be played simultaneously in a stadium, and the user may watch different events simultaneously. The user can also select the signal source which the user wants to watch in a full screen mode by using the remote controller.

According to the stadium information publishing method provided by the embodiment, the wireless switch controller is installed in the strong electricity socket of each display terminal, a user can use a remote controller or an administrator to use management software, and the power on/off state of the switch controller is remotely controlled, so that the purpose of opening or closing the display terminals is realized, and the management efficiency is improved.

Example two

Based on the same inventive concept, an embodiment of the present invention further provides a stadium information publishing device, as shown in fig. 3, the device includes:

a signal source module 1, 301-1 for generating a first video signal source; optionally, the first video signal source is a 4K ultra-high-definition video signal source;

the signal source module N, 301-2 is used for generating a second video signal source; optionally, the second video signal source is a 4K ultra-high-definition video signal source;

it should be noted that the first video signal source and the second video signal source are signal sources from different shooting locations and/or different shooting angles. The aggregation encoder module 1, 302-1 is configured to perform first format encoding and second format encoding on the first video signal source at the same time to obtain first format data and second format data;

the aggregation encoder module N, 302-2 is configured to perform first format encoding and second format encoding on the second video signal source at the same time to obtain first format data and second format data;

a first network switch 303-1 for transmitting said first format data;

a second network switch 303-2 for transmitting the second format data;

the first signal receiving box 304-1 is configured to receive the first format data, decode the first format data to obtain first display data, and output the first display data to a display terminal;

the second signal receiving box 304-2 is configured to receive the second format data, decode the second format data to obtain second display data, and output the second display data to a display terminal;

a display terminal 305-1 and a display terminal 305-2 for displaying the first display data or the second display data; there may be a plurality of display terminals, and only display terminal 1 and display terminal N are shown in fig. 3.

The signal source module 1, 301-1 is connected to the aggregation encoder module 1, 302-1, the signal source module N, 301-2 is connected to the aggregation encoder module N, 302-2, the aggregation encoder 302-1 is connected to the first network switch 303-1, the first network switch 303-1 is connected to the second network switch 303-2, the first network switch 303-1 is connected to the first signal receiving box 304-1, the second network switch 303-2 is connected to the second signal receiving box 304-2, and the display terminal is connected to the first signal receiving box 304-1 and the second signal receiving box 304-2;

wherein the first format encoding and the second format encoding are different, and a transmission rate of the first network switch 303-1 is greater than a transmission rate of the second network switch 303-2.

As a preferred example, the aggregation encoder module 1, 302-1 and/or the aggregation encoder module N, 302-2 further includes a first encoder module and a second encoder module, where the first encoder module is configured to perform a first format encoding on video signal sources simultaneously and output the first format data to a first network switch; the second encoder module is used for simultaneously carrying out second format encoding on the video signal source and outputting the second format data to a second network switch.

As a preferred example, the first encoder module is further configured to output the first format data to a gigabit network switch via a gigabit optical fiber; the second encoder module is further configured to output the second format data to a gigabit network switch through the same gigabit optical fiber, and forward the data to the gigabit network switch through the gigabit network switch.

As a preferred example, the first network switch 303-1 is a gigabit network switch and the second network switch 303-2 is a gigabit network switch.

As a preferred example, the first format encoding is SDVOE encoding, and the first signal-receiving box 304-1 is an SDVOE signal-receiving box; the second format code is an H.264/H.265 code and the second signal-receiving box 304-2 is an H.264/H.265 signal-receiving box.

As a preferred example, the Interface between the first signal receiving box/the second signal receiving box and the display terminal is a High Definition Multimedia Interface (HDMI for short).

It should be noted that the apparatus provided in the second embodiment and the method provided in the first embodiment belong to the same inventive concept, solve the same technical problem, and achieve the same technical effect, and the system provided in the second embodiment can implement all the methods of the first embodiment, and the same parts are not described again.

EXAMPLE III

Based on the same inventive concept, an embodiment of the present invention further provides a stadium information publishing device, as shown in fig. 4, the device includes:

a signal source module 1, 401-1 for generating a first video signal source; optionally, the first video signal source is a 4K ultra-high-definition video signal source;

the signal source module N, 401-2 is used for generating a second video signal source; optionally, the second video signal source is a 4K ultra high definition video signal source;

it should be noted that the first video signal source and the second video signal source are signal sources from different shooting locations and/or different shooting angles. The aggregation encoder module 1, 402-1 is configured to perform first format encoding and second format encoding on the first video signal source at the same time to obtain first format data and second format data;

the aggregation encoder module N, 402-2 is used for simultaneously carrying out first format encoding and second format encoding on the second video signal source to obtain first format data and second format data; a first network switch 403-1 for transmitting the first format data;

a second network switch 403-2 for transmitting the second format data;

the first signal receiving box 404-1 is configured to receive the first format data, decode the first format data to obtain first display data, and output the first display data to a display terminal;

the second signal receiving box 404-2 is configured to receive the second format data, decode the second format data to obtain second display data, and output the second display data to a display terminal;

a display terminal 405-1 and a display terminal 405-2 for displaying the first display data or the second display data; there may be a plurality of display terminals, and only the display terminal 1 and the display terminal N are shown in fig. 4.

The signal source module 1, 401-1 is connected to the aggregation encoder module 1, 402-1, the signal source module N, 401-2 is connected to the aggregation encoder module N, 402-2, the first network switch 403-1 is connected to the second network switch 403-2, the first network switch 403-1 is connected to the first signal receiving box 404-1, the second network switch 403-2 is connected to the second signal receiving box 404-2, and the display terminal is connected to the first signal receiving box 404-1 and the second signal receiving box 404-2, respectively;

the functions of the above modules correspond to those of the corresponding modules in fig. 3 in the second embodiment, and are not described herein again.

The apparatus provided in this embodiment further includes:

the management terminal 407 is configured to implement one or a combination of the following functions through the first network switch 403-1 and the second network switch 403-2:

checking the working state of the first network switch 403-1 and the second network switch 403-2;

checking the operating status of the first signal receiving box 404-1 and the second signal receiving box 404-2;

turning off or turning on the power of the display terminal 405-1 and the display terminal 405-2;

the power consumption of the display terminal 405-1 and the display terminal 405-2 is viewed.

Remote controllers 408-1 and 408-2 for implementing the following functions:

selecting to simultaneously display the first display data and the second display data in a split-screen manner; or

And selecting to display the first display data or the second display data in a full-screen mode.

As another alternative embodiment, the stadium information distribution apparatus further includes a wireless switch controller 1, 406-1 and/or a wireless switch controller N, 406-2 for receiving an instruction of the remote controller 408-1 and/or 408-2 for turning off/on the power of the display terminal 1/the display terminal N.

It should be noted that the apparatus provided in the third embodiment and the method provided in the first embodiment belong to the same inventive concept, solve the same technical problem, and achieve the same technical effect, and the system provided in the third embodiment can implement all the methods of the first embodiment, and the same parts are not described again.

It should be noted that the division of the unit in the embodiment of the present application is schematic, and is only a logic function division, and there may be another division manner in actual implementation. In addition, functional units in the embodiments of the present application may be integrated into one processing unit, or each unit may exist alone physically, or two or more units are integrated into one unit. The integrated unit can be realized in a form of hardware, and can also be realized in a form of a software functional unit.

As will be appreciated by one skilled in the art, embodiments of the present application may be provided as a method, system, or computer program product. Accordingly, the present application may take the form of an entirely hardware embodiment, an entirely software embodiment or an embodiment combining software and hardware aspects. Furthermore, the present application may take the form of a computer program product embodied on one or more computer-usable storage media (including, but not limited to, disk storage, optical storage, and the like) having computer-usable program code embodied therein.

The present application is described with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems), and computer program products according to embodiments of the application. It will be understood that each flow and/or block of the flow diagrams and/or block diagrams, and combinations of flows and/or blocks in the flow diagrams and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, embedded processor, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions specified in the flowchart flow or flows and/or block diagram block or blocks.

These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function specified in the flowchart flow or flows and/or block diagram block or blocks.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present application without departing from the spirit and scope of the application. Thus, if such modifications and variations of the present application fall within the scope of the claims of the present application and their equivalents, the present application is intended to include such modifications and variations as well.

Claims (10)

1. A method for publishing information of a stadium, comprising:

accessing a video signal source to an input interface of an information transmitting box;

simultaneously carrying out first format coding and second format coding on the video signal source to obtain first format data and second format data;

outputting the first format data and the second format data to a first network switch, and outputting the second format data to a second network switch;

a first signal receiving box receives the first format data, decodes the first format data to obtain first display data, and outputs the first display data to a display terminal;

a second signal receiving box receives the second format data, decodes the second format data to obtain second display data, and outputs the second display data to a display terminal;

wherein the first format encoding and the second format encoding are different, and a transmission rate of the first network switch is greater than a transmission rate of the second network switch.

2. The method of claim 1, comprising:

the first network switch is a gigabit network switch;

the second network switch is a gigabit network switch.

3. The method of claim 2, comprising:

outputting the first format data to a gigabit network switch through a gigabit optical fiber;

and outputting the second format data to a gigabit network switch through a gigabit optical fiber.

4. The method according to one of claims 1 to 3, further comprising:

and the user uses a remote controller to select to simultaneously display the first display data or the second display data in a split screen mode.

5. The method according to one of claims 1 to 3, further comprising:

using the management terminal to view one or a combination of the following:

the working state of the information transmitting box;

the working state of the first signal receiving box;

the working state of the second signal receiving box;

and the power consumption of the power supply of the display terminal.

6. The method of claim 5, further comprising:

and remotely turning off or turning on the power supply of the display terminal by using the management terminal through a wireless switch controller.

7. A method according to one of claims 1 to 3, characterized in that it comprises:

said first format encoding is SDVOE encoding and said first signal receiving box is an SDVOE signal receiving box;

the second format code is H.264/H.265 code, and the second signal receiving box is H.264/H.265 signal receiving box.

8. A method according to one of claims 1 to 3, characterized in that it comprises:

the input Interface is a High Definition Multimedia Interface (HDMI) Interface;

the outputting the first display data to a display terminal comprises:

outputting the first display data to a display terminal through the HDMI interface;

the outputting the second display data to a display terminal includes:

and outputting the second display data to a display terminal through the HDMI interface.

9. A method according to one of claims 1 to 3, characterized in that it comprises:

the video signal source is a 4K ultra-high definition signal source.

10. A stadium information distribution apparatus, comprising:

the signal source module is used for generating a 4K ultrahigh request video signal source;

the aggregation encoder module is used for simultaneously carrying out first format encoding and second format encoding on the video signal source to obtain first format data and second format data;

a first network switch for transmitting the first format data and the second format data;

a second network switch for transmitting the second format data;

the first signal receiving box is used for receiving the first format data, decoding the first format data to obtain first display data and outputting the first display data to a display terminal;

the second signal receiving box is used for receiving the second format data, decoding the second format data to obtain second display data and outputting the second display data to a display terminal;

the display terminal is used for displaying the first display data and/or the second display data;

the signal source module is connected with the aggregation encoder module, the aggregation encoder is connected with the first network switch and the second network switch, the first network switch is connected with the first signal receiving box, the second network switch is connected with the second signal receiving box, and the display terminal is connected with the first signal receiving box and the second signal receiving box;

wherein the first format encoding and the second format encoding are different, and a transmission rate of the first network switch is greater than a transmission rate of the second network switch.

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