KR101397821B1 - Wireless Local Broadcasting System for increasing receiving rate and method thereof - Google Patents

Abstract

The present invention relates to a local broadcasting system, and more particularly, to a broadcasting system and method for improving a broadcasting reception ratio between a wireless LAN router and a terminal. A broadcast system for improving the broadcast reception rate includes a broadcast data server for broadcasting high-speed broadcast data and low-speed broadcast data, and a high-speed broadcast data receiving unit for receiving the high- And a wireless LAN router for broadcasting at least one of the high speed broadcast data and the low speed broadcast data to the local network.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless local broadcast system and a method thereof,

The present invention relates to a local broadcasting system, and more particularly, to a system and method for improving a broadcasting reception ratio between a wireless LAN router and a terminal.

Information retrieval and exchange is rapidly proceeding through the Internet, and it is predicted that almost all service platforms will be based on the Internet in the future. The Internet performs data communication using Internet protocols such as IP, TCP, and UDP. Basically, three methods are used to transmit IP datagrams to a destination node.

First, the unicasting method transmits datagrams one-to-one between communication nodes. When a destination IP address is set in the header of a datagram to be transmitted, it is transmitted to a destination node via Internet routers.

The second is multicasting. This method is a method in which a multicasting user registers multicasting datagrams received by the multicasting router using the Internet Group Management Protocol (IGMP), and the multicasting router receives the multicasting datagram and delivers the multicasting datagram to the multicasting user .

The third is broadcasting. Broadcasting methods generate too much traffic on the network, so they are not used for the transmission of datagrams that actually contain user information, and most routers do not provide this capability.

A data broadcasting service over the Internet is being activated, and accordingly, a method for improving the reception ratio of broadcast data is required.

A technique for broadcasting different data by region by combining Internet unicasting and broadcasting techniques has also been developed. In this method, there is no solution when there is an error in received broadcast data.

The proposed embodiments propose a method in which a separate HTTP server program is executed in a wireless LAN router and a player of a portable terminal (for example, a smart phone) accesses the server and reproduces the received broadcast data.

In addition, in the proposed embodiments, the broadcast wireless LAN router temporarily stores the broadcast data received from the broadcast data server and executes the HTTP server program so that the smartphone accesses the HTTP server of the wireless LAN router, A method of receiving and reproducing moving picture data is used.

The present invention also provides a broadcasting system robust against a random frame error and a burst frame error frequently occurring in a wireless LAN environment.

In one aspect, a broadcasting system for improving a broadcasting reception rate of a local broadcasting network includes a broadcasting data server for broadcasting high-speed broadcasting data or low-speed broadcasting data; And a controller configured to receive the high-speed broadcast data or the low-speed broadcast data, determine a data bit transmission rate of the wireless modem according to control of the broadcast data server or in consideration of a reception state of the terminal, To a local network.

At this time, the control data may be included in the high-speed broadcast data or the low-speed broadcast data.

In another aspect, a broadcasting system for improving a broadcasting reception rate of a local broadcasting network includes a broadcasting data server for broadcasting high-speed broadcasting data or low-speed broadcasting data; A wireless LAN router for temporarily storing broadcast data received from a broadcast data server and executing an HTTP server program; And a terminal connected to an HTTP server of the wireless LAN router to receive and reproduce moving picture data in UDP or TCP mode.

According to one aspect, a method for improving the broadcast reception ratio of a local broadcasting network includes receiving at least one of high-speed broadcast data and low-speed broadcast data from a broadcast data server, And broadcasting at least one of the high speed broadcast data and the low speed broadcast data to the local network.

In the proposed embodiments, an IP address conversion function is added to an end device of a network in order to improve a broadcasting reception rate of a local broadcasting network, so that local data can be broadcasted to a terminal using a wireless Internet protocol without changing the existing wired / wireless communication protocol.

In addition, the proposed embodiments can execute a separate HTTP server in a portable terminal (for example, a smart phone), and a player of the smartphone can access the server and play back the received broadcast data.

In addition, in the proposed embodiments, the broadcast wireless LAN router temporarily stores the broadcast data received from the broadcast data server and executes the HTTP server program so that the smartphone accesses the HTTP server of the wireless LAN router, It is possible to receive and reproduce moving image data.

In addition, in the proposed embodiments, the broadcast data storage unit of the broadcast data server divides the entire broadcast data into the broadcast data packets of the optimum size and stores the broadcast data packets once or several times through the internet module. It is transmitted to the router and relayed to the terminal.

In the present invention, by repeatedly transmitting the same broadcast data packet, the terminal combines only error-free broadcast data packets to form the entire broadcast data, or selectively rebroadcasts the broadcast data packet in which errors occur in the receiver to the broadcast server in a one- To control the error.

Burst errors can be controlled by converting the burst packet error into a random error through the interleaver because the packets received by the terminal can be continuously error even if it is repeatedly transmitted.

As described above, the present invention can effectively control the burst packet error by combining the iterative transmission and the interleaver. Further, the present invention is effective even when there is no random error and only a burst error exists.

1 is a block diagram of a wireless Internet area broadcasting system according to an embodiment of the present invention.
2 is a block diagram of the wireless LAN router shown in FIG.
FIG. 3 is a diagram for explaining allocation of an idle period every time a transmission time interval and a number of transmission packets between respective packets according to an embodiment of the present invention becomes a predetermined number.
4 is a flowchart of a wireless LAN router operation according to an exemplary embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is a block diagram of a wireless Internet area broadcasting system according to an embodiment of the present invention.

1, a broadcasting system for improving the broadcasting reception rate of a local broadcasting network includes a broadcasting data server 110, a wireless LAN router 130, and a portable terminal (for example, a smartphone terminal) 150.

The broadcast data server 110 broadcasts broadcast data. The broadcast data includes high-speed broadcast data and low-speed broadcast data.

Broadcast data may be transmitted from the broadcast data server 110 to the wireless LAN router 130 via the Internet 120. [

For data transmission in communication, for example, a typical speed of connecting to the Internet through a modem is about 56 Kbps, and data transmission in a local area network such as Ethernet is about 10 Mbps. In recent 4G mobile communication, it can support 100Mbps download speed and 50Mbps upload speed.

Accordingly, the high-speed broadcast data refers to data broadcast at a transmission rate of 100 Mbps or 1 Gbps or higher, for example, and data transmission broadcast at a transmission rate of 100 Mbps or 1 Gbps or lower may be low-speed broadcast data. Of course, the transmission speed of high-speed broadcast data and low-speed broadcast data is not limited to 100 Mbps or 1 Gbps, and high-speed broadcast data can be distinguished from low-speed broadcast data on the basis of hundreds of Mbps.

In this case, the transmission rate of the broadcast data may be a transmission rate between the wireless LAN sharer 130 and the portable terminal 150.

One of the reasons for distinguishing the broadcast data from the high-speed broadcast data and the low-speed broadcast data in the present invention is to adaptively transmit content to a terminal located near the wireless LAN router 130 and a terminal located at a remote location.

The broadcast data server 110 can broadcast and control high-speed broadcast data and low-speed broadcast data.

At this time, the broadcast data server 110 may divide the entire broadcast data into small-size broadcast data packets and transmit the same broadcast data packets repeatedly. Through repetitive transmission of the same broadcast frame, an effective response to a random frame error can be possible.

In addition, the broadcast data server 110 can transmit the data sequence in a mixed manner in preparation for a burst error in which all the consecutive data packets are lost. At this time, the communication unit 210 or the control unit 220 of the wireless LAN router 130 can restore the original data using an interleaver technique that corrects this order.

In FIG. 1, the broadcast server 110 and the wireless LAN router 130 are connected by a wire, so that there is a low probability of error occurrence.

The wireless LAN router 130 temporarily stores the broadcast data received from the broadcast data server and can execute the HTTP server program and transmit the broadcast data to the smartphone terminal 150 using the wireless LAN signal 140.

The wireless LAN router 130 receives the high-speed broadcast data or the low-speed broadcast data and determines the data bit transmission rate of the wireless modem according to the control of the broadcast data server or in consideration of the reception state of the terminal or based on the control data. And broadcast at least one of the high-speed broadcast data and the low-speed broadcast data to the local network.

The control data may be included in the high-speed broadcast data or the low-speed broadcast data. That is, the broadcast data server 110 may insert the control data into the high-speed broadcast data or the low-speed broadcast data, and may transmit the broadcast data inserted with the control data to the wireless LAN router 130.

The speed difference between the high-speed broadcast data and the low-speed broadcast data may be determined according to a packet transmission time interval of each broadcast data, a repetitive transmission number of the same packet, or a data bit transmission rate of the wireless modem. The smartphone terminal 150 can access the HTTP server of the wireless LAN router and receive and reproduce the moving picture data in UDP or TCP mode.

Meanwhile, the high-speed broadcast data and the low-speed broadcast data may be simultaneously broadcasted by the broadcast data server 110. A terminal with a large received signal receives data at high speed, and a terminal with a small received signal receives low speed data.

That is, the broadcasting system may further include a plurality of terminals 151, 152, and 153. In this case, a terminal having a signal level higher than a predetermined reference among the plurality of terminals receives the high-speed broadcast data, and when a signal level of a received signal among the plurality of terminals is less than or equal to the pre- May receive the low-rate broadcast data. In the case of low-speed data, it may be data having a small amount of information such as a high data compression ratio or a low resolution.

Although not shown in FIG. 1, the broadcasting system may further include a broadcast station between the broadcast data server 110 and the wireless LAN router 130. At this time, the broadcasting base station may collect the number of wireless LAN routers and receivers (terminals) in the vicinity, usage amount of communication traffic, and intensity information of the received signals, and report the information to the broadcasting data server 110. The broadcast data server 110 or the broadcast base station may analyze the collected information and adaptively reset connection parameters of the wireless LAN router and terminals. At this time, the connection parameters may include, for example, a signaling transmission period, a type of a wireless LAN service, and the like.

Also, the broadcast data server 110 or the wireless LAN router 130 may directly collect signal strength information of the terminals or receive the signal strength information from the broadcasting base station. At this time, the broadcast data server 110 or the wireless LAN router 130 may adaptively change the transmission rate of the wireless modem based on the signal strength information of the collected terminals. In addition, the wireless LAN sharer 130 can determine the reception state of the terminal based on the signal strength information of the collected terminals, and determine the data bit transmission rate of the wireless modem in consideration of the reception state of the terminal. For example, if the reception state of the terminal is lower than the set value, the data bit rate of the wireless modem can be reduced.

2 is a block diagram of the wireless LAN router shown in FIG.

2, the wireless LAN router 130 of the broadcasting system for improving the broadcasting reception rate of the local broadcasting network includes a communication unit 210, a controller 220, an IP address converter 230, a data storage 240, (250).

The communication unit 210 can receive a signal from the broadcast data server.

The control unit 220 determines the data bit rate of the wireless modem according to the control of the broadcast data server or based on the control data and controls the wireless LAN router to broadcast at least one of the high speed broadcast data and the low speed broadcast data to the local network 130).

In this case, the difference in the broadcast data rate is related to the packet transmission time interval or the number of repeated transmissions of the same packet, the data bit transmission rate of the wireless modem, and the like. In addition, the control unit 220 may increase the data compression rate or transmit only a part of data in the case of low-speed data.

The IP address converter 230 may change the destination IP address of the high speed broadcast data or the low speed broadcast data received from the broadcast data server to 255. 255. 255. 255 and transmit the UDP according to the changed address.

Therefore, according to the embodiment of the present invention, it is possible to broadcast local data to a terminal using a wireless Internet protocol without changing the existing wired / wireless communication protocol.

The data storage device 240 in the wireless LAN router 130 may temporarily store the broadcast data received from the broadcast data server to the smartphone terminals 150 to 152 for repeated transmission and interleaving.

For example, in a wireless communication interval between the wireless LAN router 130 and the smartphone terminals 150 to 152, the wireless LAN router 130 needs to repeatedly transmit the same data to the smartphone terminals 150 to 152 . Particularly, when the local traffic information is broadcasted on the road side, because the vehicle passes through the wireless communication area at a high speed, the period of staying in the communication area is short, so it is necessary to frequently broadcast the same information. However, since unnecessary communication traffic occurs when the same data is transmitted from the service server every time, the data stored in the data storage device 240 in the wireless LAN router is stored in the wireless LAN router through the control of the controller 220, In the communication area.

The wireless LAN module 250 may transmit the final broadcast data stored in the storage device to the smartphone terminal.

The data bit rate of the wireless LAN module 250 may be set to Quadrature Phase Shift Keying (QPSK) or Quadrature Amplitude Modulation (64QAM) in consideration of the strength of the received signal of the smartphone.

At this time, the method of setting the data bit transmission rate of the wireless LAN module 250 includes

A method of setting a data bit transmission rate of the wireless LAN module 250 by a control signal in a broadcasting server, a method of measuring and analyzing transmission signal strength of a smartphone terminal by a wireless LAN router, The wireless LAN module 250 may transmit data at a predetermined speed.

At this time, there may be a difference in the reception speed depending on the performance of the smartphone terminals 150 to 152.

FIG. 3 is a diagram illustrating an example of a transmission time interval 301, 302, and 303 between packets 310 to 313, 315, and 320 to 322 according to an exemplary embodiment of the present invention, And the period 304 in Fig.

3, the WLAN router 130 sets transmission time intervals 301, 302, and 303 between packets 310, 311, 312, and 313 broadcast on the local network at high speed, The idle period 304 can be allocated every time the number of transmission packets becomes a predetermined number.

At this time, the transmission time intervals 301, 302, and 303 between the packets 310, 311, 312, and 313 may be, for example, several tens of microseconds.

At this time, the idle period 304 may be set to, for example, about 500 msec.

Experimentally, when a broadcast data frame is transmitted from a broadcast server to a router, when a broadcast frame broadcasted by the wireless LAN router 130 through the wireless LAN router 130 can not be transmitted from about 500 or more .

To compensate for this problem, if the transmission time interval between each packet is given by several tens of milliseconds, this phenomenon disappears, but the broadcasting data transmission speed becomes too slow. Therefore, the transmission time interval between packets is reduced to as small as several tens of microseconds, and instead, a sufficient time of about 500 msec is repeated every 500 transmission packet counts, and transmission can be started again. In this case, the broadcast data transmission rate of the proposed scheme can be much faster. The broadcast data server broadcasts high-speed broadcast data or low-speed broadcast data, and the wireless LAN router 130 temporarily stores the broadcast data received from the broadcast data server and executes the HTTP server program.

On the other hand, when the application of the broadcast data installed in the terminal is executed, the application automatically selects the SSID (Service Set Identifier) of the designated broadcasting LAN router 130. Or the broadcast data application can be automatically executed when the SSID of the broadcast wireless LAN router 130 is detected.

The wireless LAN sharer 130 can temporarily store the broadcast data received from the broadcast data server and execute the HTTP server program.

Currently, a method of playing a moving picture on a smart phone may be a method of accessing a HTTP server program executed in a broadcasting server by a URL address, receiving moving picture data by the UDP method, and reproducing the moving picture data by a player. However, in the case of the wireless Internet area information broadcasting, since the video data is unilaterally broadcast in the wireless LAN router 130, a conventional method is not available.

The present invention can execute a separate HTTP server in a smart phone and a player of a smart phone can play back the received broadcast data by connecting to the server, and this method is called HLS.

In the present invention, the broadcast wireless LAN router 130 temporarily stores the broadcast data received from the broadcast data server and executes the HTTP server program (at this time, the URL address is known and fixed in advance) And can access the HTTP server of the router 130 to receive and reproduce moving picture data in UDP or TCP mode.

When a broadcast application is executed on a smartphone, parameters such as an IP address can be set by the smartphone itself. Parameter indicates a parameter such as the MAC address of the wireless LAN sharer 130 for connection with the wireless LAN sharer 130 and the IP address may indicate the IP address of the smartphone for Internet access.

The present invention can activate the wireless LAN signal and Internet data receiving function of the smartphone through this method. (If the Internet IP address is not assigned to the terminal according to the OS, the Internet broadcasting datagram may not be received.) Note that since the internet broadcast datagram uses the destination IP address 255. 255. 255. 255, None)

The wireless LAN router 130 may continuously transmit a carrier signal or an empty frame to prevent collision of wireless LAN signals.

The wireless LAN sharer 130 may determine the duration value or the NAV value included in the packet when continuously transmitting the RTS (Request To Send), CTS (Clear To Send), ACK (ACKnowledge), or beacon signal. Network Allocation Vector) value can be set to more than necessary value. Accordingly, it is possible to prevent the terminals from attempting to transmit data, thereby ensuring the bandwidth of the broadcast data in the wireless LAN router in the presence of a plurality of terminals. The NAV value may be adjusted to adjust the bandwidth of the broadcast traffic and the internet communication traffic of the terminals in the wireless LAN traffic.

At this time, the NAV (Network Allocation Vector) value is a data frame transmission timer value of the wireless node, and it should be considered that the wireless medium is occupied by another wireless node until this value becomes zero. It is a value that acts as a kind of timer which means time information that the wireless medium is being used in 802.11 which is a wireless LAN standard.

This wireless Internet local broadcasting system can receive Internet broadcasting without setting Internet address when the terminal is turned on like a conventional radio. Broadcast data can be transmitted from the broadcast data server to the wireless LAN router 130 through a unicasting method. In the wireless LAN router 130, the destination IP address is changed to 255. 255. 255. 255 (the MAC address is also set to ff ff ff ff ff), and the received broadcast data is transmitted in the UDP scheme, All terminals can receive it.

At this time, since a plurality of smartphone terminals attempt to automatically transmit data through the wireless LAN router 130 in various applications, a collision of the wireless LAN signals may occur.

The terminals receiving the NAV count down the NAV value and attempt to transmit the wireless LAN signal when the number of NAVs is 0. Therefore, if the wireless LAN router continuously broadcasts a large NAV parameter, the terminals may not be able to generate a wireless LAN signal . This has the effect of minimizing a signal transmission attempt of the terminal in a very large number of situations.

4 is a flowchart of the operation of the wireless LAN sharer 130 according to an exemplary embodiment.

The method shown in FIG. 4 may be performed by the wireless LAN router 130 in FIG.

In step 410, the wireless LAN sharer 130 may receive at least one of high-speed broadcast data and low-speed broadcast data from the broadcast data server.

In step 420, the wireless LAN sharer 130 may determine the data bit rate of the wireless modem based on the control of the broadcast data server or based on the control data.

In step 430, the wireless LAN router 130 broadcasts at least one of the high-speed broadcast data and the low-speed broadcast data to the local network, and the control data is included in the high-speed broadcast data or the low- .

At this time, the high-speed broadcast data and the low-speed broadcast data are broadcast through the unicasting method, and the step of broadcasting to the local network changes the destination IP address of the received high-speed broadcast data or low-speed broadcast data to 255. 255. 255. 255 And can transmit the UDP data according to the changed address.

The method according to an embodiment may be implemented in the form of a program command that can be executed through various computer means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions to be recorded on the medium may be those specially designed and configured for the embodiments or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the embodiments, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. For example, it is to be understood that the techniques described may be performed in a different order than the described methods, and / or that components of the described systems, structures, devices, circuits, Lt; / RTI > or equivalents, even if it is replaced or replaced.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (14)

1. A broadcasting system for improving a broadcasting reception ratio of a local broadcasting network to which a plurality of terminals are connected,
A wireless LAN router for receiving high speed broadcast data or low speed broadcast data from a broadcast data server and broadcasting at least one of the high speed broadcast data and the low speed broadcast data to a local network
Lt; / RTI >
The wireless LAN router includes:
The broadcast data server receives the high-speed broadcast data or the low-rate broadcast data from the broadcast data server through a unicasting method, and changes the destination IP address of the high-speed broadcast data or the low-rate broadcast data to 255. 255. 255. 255, According to the address, UDP broadcasts,
When a packet including an RTS (Request To Send), a CTS (Clear To Send), an ACK (ACKnowledge), or a beacon signal is continuously transmitted to prevent the plurality of terminals from attempting to transmit data, (NAV) value to a predetermined value or more,
Broadcasting System for Improving Broadcast Reception Rate. The method according to claim 1,
Wherein the terminal having the signal level of the received signal of the plurality of terminals is higher than a predetermined reference,
Wherein the terminal having a signal level of the received signal of the plurality of terminals less than or equal to the pre-set reference receives the low-
Broadcasting System for Improving Broadcast Reception Rate. The method according to claim 1,
Wherein the broadcast data server generates the low-rate broadcast data by increasing the compression rate of the original data or using only a part of the original data,
Broadcasting System for Improving Broadcast Reception Rate. The method according to claim 1,
The speed difference between the high-speed broadcast data and the low-speed broadcast data is determined according to a packet transmission time interval of each broadcast data, a repetitive transmission number of the same packet, or a data bit transmission rate of the wireless modem
Broadcasting System for Improving Broadcast Reception Rate. The method according to claim 1,
The wireless LAN router includes:
A transmission time interval between each packet broadcast on the local network is set to be high and an idle period is allocated every time the number of transmission packets becomes a predetermined number
Broadcasting System for Improving Broadcast Reception Rate. The method according to claim 1,
The wireless LAN router includes:
Temporarily stores the broadcast data received from the broadcast data server and executes the HTTP server program
Broadcasting System for Improving Broadcast Reception Rate. The method according to claim 1,
The wireless LAN router includes:
And continuously transmitting a carrier signal or an empty frame to the local network
Broadcasting System for Improving Broadcast Reception Rate. delete The method according to claim 1,
The broadcast data server or the wireless LAN router may adaptively change the transmission rate of the wireless modem based on the signal strength information of the collected terminals
Broadcasting System for Improving Broadcast Reception Rate. delete delete delete A method for improving a broadcast reception ratio of a local broadcasting network to which a plurality of terminals are connected,
Receiving at least one of high speed broadcast data and low speed broadcast data from a broadcast data server; And
Broadcasting at least one of the high speed broadcast data and the low speed broadcast data to a local network
Lt; / RTI >
Broadcasting at least one of the high speed broadcast data and the low speed broadcast data to a local network,
The broadcast data server receives the high-speed broadcast data or the low-rate broadcast data from the broadcast data server through a unicasting method, and changes the destination IP address of the high-speed broadcast data or the low-rate broadcast data to 255. 255. 255. 255, Broadcasting in UDP mode according to the address; And
When a packet including an RTS (Request To Send), a CTS (Clear To Send), an ACK (ACKnowledge), or a beacon signal is continuously transmitted to prevent the plurality of terminals from attempting to transmit data, (NAV) value to a predetermined value or more
The method comprising the steps of: delete

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