KR102281044B1 - Digital satellite broadcasting system and method capable of communicating - Google Patents

Abstract

The present invention relates to a digital satellite broadcasting system enabling a transmitter-receiver dialogue and a method for transmitting and receiving the digital satellite broadcasting. The digital satellite broadcasting system includes a transmitter sending digital satellite broadcasting, a first satellite repeater receiving the digital satellite broadcasting sent by the transmitter and re-transmitting it to the ground, and a receiver receiving the digital satellite broadcasting re-transmitted by the first satellite repeater. The transmitter includes: a reception information setting unit setting information with respect to the receiver; a repeater search unit searching for a second satellite repeater corresponding to the set receiver; a return information setting unit setting return information corresponding to the searched second satellite repeater; and a return information transmission unit transmitting the set return information to the receiver through the first satellite repeater. The receiver includes: a response signal generation unit generating a response signal with respect to a digital satellite broadcasting signal received through the first satellite repeater; and a response signal transmission unit transmitting the response signal generated by the response signal generation unit to the transmitter through the second satellite repeater.

Description

A digital satellite broadcasting system capable of communicating with a transmitter and a receiver, and a method for transmitting and receiving digital satellite broadcasting therefor {DIGITAL SATELLITE BROADCASTING SYSTEM AND METHOD CAPABLE OF COMMUNICATING}

The present invention relates to a digital satellite broadcasting system capable of communicating between a transmitter and a receiver and a method for transmitting and receiving digital satellite broadcasting therefor, and more particularly, to transmit a response signal from a receiving side to a transmitting side with respect to a digital satellite broadcasting transmitted from a transmitting side to a receiving side The present invention relates to a digital satellite broadcasting system capable of communicating with a transmitter and a receiver, and a method for transmitting and receiving digital satellite broadcasting therefor, which enables two-way communication such as Internet service, electronic commerce, and online game by enabling the communication.

Satellite broadcasting refers to various types of broadcasting such as TV broadcasting or PCM (Pulse Code Modulation) using a Broadcasting Satellite (BS) located at an altitude of about 35,784 km from the Earth.

Satellite broadcasting is for direct reception of broadcasting to the general public, and is a broadcasting method in which a signal is transmitted or retransmitted by a space station mounted on an artificial satellite. Broadcast satellites can be broadly divided into high-power and medium-power types depending on whether the receiving side is individual reception or joint reception.

Satellite broadcasting in various countries around the world is dominated by the former, which is an individual reception type, but there are also medium output type broadcasting satellites for the purpose of distribution to CATV (cable television), which is a common reception type.

Since satellite broadcasting transmits radio waves directly from the satellite, it has the advantages of low image quality, clear images, and nationwide simultaneous broadcasting. In addition, satellite broadcasting allows you to see clear images even in hard-to-reach areas, and because it uses a PCM device, high-quality broadcasting is possible, and because it broadcasts using satellite as a relay medium, it does not suffer from disasters such as nature or war on earth. In case of emergency, it can broadcast all over the country at once.

Meanwhile, the digitalization of broadcasting opens a new chapter in the convergence of broadcasting and communication by enabling Internet services, e-commerce, and online games through TV.

However, general satellite broadcasting is made in the form of unilateral broadcasting from the transmitting side to the receiving side, and since the receiving side cannot transmit a response signal corresponding to the satellite broadcasting signal to the transmitting side, two-way communication such as Internet service, e-commerce, and online game There is a problem with this difficulty.

Laid-open Patent Publication No. 10-2003-0025444 (published date: March 29, 2003)

The present invention has been devised to solve the above-mentioned problems, and by enabling a response signal to be transmitted from the receiving side to the transmitting side for a digital satellite broadcast transmitted from the transmitting side to the receiving side, two-way communication such as Internet service, e-commerce, online game, etc. An object of the present invention is to provide a digital satellite broadcasting system capable of communicating between a transmitter and a receiver, and a method for transmitting and receiving digital satellite broadcasting thereof.

A digital satellite broadcasting system according to an aspect of the present invention for achieving the above object includes a transmitter for transmitting digital satellite broadcasting, a first satellite repeater for receiving digital satellite broadcasting transmitted by the transmitter and retransmitting to the ground; A digital satellite broadcasting system comprising a receiver for receiving digital satellite broadcasting retransmitted by the first satellite repeater, the transmitter comprising: a reception information setting unit configured to set information about the receiver; a repeater search unit that searches for a second satellite repeater corresponding to the set receiver; a return information setting unit configured to set return information corresponding to the searched second satellite repeater; and a return information transmitter for transmitting the set return information to the receiver through the first satellite repeater, wherein the receiver generates a response signal to the digital satellite broadcast signal received through the first satellite repeater a response signal generating unit; and a response signal transmitter for transmitting the response signal generated by the response signal generator to the transmitter through the second satellite repeater.

The transmitter may include: a repeater registration unit for registering a plurality of satellite repeaters; and a first repeater setting unit configured to set the first satellite repeater based on a distance to each of the satellite repeaters and signal strength.

The transmitter may further include a second repeater setting unit configured to set the second satellite repeater based on a distance between the receiver and each of the satellite repeaters and signal strength.

According to an aspect of the present invention, there is provided a digital satellite broadcasting transmission/reception method of a digital satellite broadcasting system according to an aspect of the present invention for achieving the above object. A digital satellite broadcasting transmission/reception method of a digital satellite broadcasting system comprising: a first satellite repeater for retransmission; and a receiver for receiving digital satellite broadcasting retransmitted by the first satellite repeater, wherein the transmitter receives information about the receiver setting; searching for a second satellite repeater corresponding to the configured receiver; setting return information corresponding to the searched second satellite repeater; and transmitting the set return information to the receiver through the first satellite repeater, wherein the receiver generates a response signal to the digital satellite broadcast signal received through the first satellite repeater; and transmitting the generated response signal to the transmitter through the second satellite repeater.

The above-described digital satellite broadcast transmission/reception method includes: registering, by the transmitter, a plurality of satellite repeaters; setting the first satellite repeater based on the distance to each of the satellite repeaters and signal strength; and setting the second satellite repeater based on a distance between the receiver and each of the satellite repeaters and signal strength.

According to the present invention, two-way communication such as Internet service, e-commerce, online game, etc. is possible by allowing the receiving side to transmit a response signal to the transmitting side with respect to the digital satellite broadcast transmitted from the transmitting side to the receiving side.

1 is a diagram schematically illustrating a digital satellite broadcasting system according to an embodiment of the present invention.
2 is a diagram schematically illustrating a digital satellite broadcasting system according to another embodiment of the present invention.
3 is a diagram schematically illustrating a digital satellite broadcasting system according to another embodiment of the present invention.
4 is a diagram schematically illustrating a configuration of a transmitter used in the digital satellite broadcasting system shown in FIG. 1, FIG. 2 or FIG. 3;
FIG. 5 is a diagram schematically illustrating a configuration of a receiver used in the digital satellite broadcasting system shown in FIG. 1, FIG. 2 or FIG. 3. Referring to FIG.
6 is a flowchart illustrating a digital satellite broadcast transmission/reception method according to an embodiment of the present invention.
7 is a flowchart illustrating a digital satellite broadcast transmission/reception method according to another embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described with reference to exemplary drawings. In describing the reference numerals for the components of each drawing, the same components are denoted by the same reference numerals as much as possible even if they are displayed on different drawings. In addition, in describing the embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function interferes with the understanding of the embodiment of the present invention, the detailed description thereof will be omitted.

In addition, in describing the components of the embodiment of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only for distinguishing the components from other components, and the essence, order, or order of the components are not limited by the terms. When it is described that a component is “connected”, “coupled” or “connected” to another component, the component may be directly connected, coupled, or connected to the other component, but the component and the other component It should be understood that another element may be “connected”, “coupled” or “connected” between elements.

1 is a diagram schematically illustrating a digital satellite broadcasting system according to an embodiment of the present invention.

Referring to FIG. 1, the digital satellite broadcasting system according to an embodiment of the present invention includes a transmitter 100 for transmitting digital satellite broadcasting, and a first satellite for receiving digital satellite broadcasting transmitted by the transmitter 100 and retransmitting it to the ground. The repeater 200, the receiver 300 for receiving the digital satellite broadcast retransmitted by the first satellite repeater 200, and the second satellite for transmitting the response signal by the receiver 300 to the transmitter 100 as return information It may include a repeater 400 . Here, the first satellite repeater 200 and the second satellite repeater 400 are illustrated as independent satellite repeaters, but the first satellite repeater 200 and the second satellite repeater 400 are to be implemented as one satellite repeater. may be

2 is a diagram schematically illustrating a digital satellite broadcasting system according to another embodiment of the present invention.

Referring to FIG. 2, the digital satellite broadcasting system according to the embodiment of the present invention registers a plurality of satellite repeaters in addition to the digital satellite broadcasting system shown in FIG. 1, and is transmitted by the transmitter 100 among the registered satellite repeaters. To select the first satellite repeater 200 for retransmitting the digital satellite broadcast to the receiver 300 and the second satellite repeater 400 for transmitting the response signal by the receiver 300 to the transmitter 100, respectively can

At this time, in the digital satellite broadcasting system according to the embodiment of the present invention, the distance between the transmitter 100 and each registered satellite repeater and the strength of a transmission/reception signal, and the distance between the receiver 300 and each registered satellite repeater, and The first satellite repeater 200 and the second satellite repeater 400 may be selected in consideration of the strength of the transmission/reception signal. In addition, the digital satellite broadcasting system according to an embodiment of the present invention selects one satellite repeater, and the selected satellite repeater performs the function of the first satellite repeater 200 and the function of the second satellite repeater 400, respectively. may be

3 is a diagram schematically illustrating a digital satellite broadcasting system according to another embodiment of the present invention.

Referring to FIG. 3 , in the digital satellite broadcasting system according to the embodiment of the present invention, in addition to the digital satellite broadcasting system shown in FIG. 1 or the digital satellite broadcasting system shown in FIG. 2 , the transmitter 100 includes the first network 10 . It may be connected to the first server 20 through the repeater 500 , and the receiver 300 may be connected to the second server 40 through the second repeater 600 . At this time, at least one transmitting terminal 30 is connected to the first server 20 through the network 10 , and at least one receiving terminal 50 is connected to the second server 40 through the network 10 . can be

Here, the network 10 includes mobile communication networks such as Code Division Multiple Access (CDMA), Wideband CDMA (WCDMA), and Long Term Evolution (LTE) as well as the Internet.

In addition, the transmitting terminal 30 is a terminal capable of producing, editing, and reproducing digital broadcasting, and includes a computer, a laptop computer, a smart phone, etc., and satellite relays the produced and edited digital broadcasting to a specific receiving terminal 50 . It may request the transmitter 100 to do so.

In addition, the receiving terminal 50 is a terminal capable of producing, editing, and reproducing digital broadcasting, and includes a computer, a laptop computer, a smart phone, etc., and receives and reproduces digital satellite broadcasting from the receiver 300 and reproduces digital broadcasting. A response signal to the satellite broadcast is generated, and the receiver 300 may be requested to relay the generated response signal to a specific transmitting terminal 30 by satellite.

Through this, the digital satellite broadcasting system according to the embodiment of the present invention can transmit the digital satellite broadcasting produced by the transmitter 100 to the receiver 300 and receive a response signal from the receiver 300 as well as the transmitting terminal. The digital satellite broadcast produced by ( 30 ) may be selectively transmitted to at least one receiving terminal 50 connected to the network 100 , and a corresponding response signal may be received from the corresponding receiving terminal 50 . That is, the transmitting terminal 30 can transmit the digital broadcast directly produced to the receiver 300 and the receiving terminal 50 by connecting to the transmitter 100 through the network 10 even if there is no transmission function of the digital satellite broadcast. . In addition, even if the receiving terminal 50 does not have a digital satellite broadcasting reception function, by accessing the receiver 300 through the network 10, it can receive the digital satellite broadcasting and transmit a response signal thereto.

FIG. 4 is a diagram schematically illustrating a configuration of a transmitter used in the digital satellite broadcasting system shown in FIG. 1, FIG. 2 or FIG. 3;

Referring to FIG. 4 , the transmitter 100 includes a reception information setting unit 102 , a repeater search unit 104 , a return information setting unit 106 , a return information insertion unit 108 , a return information transmission unit 110 , It may include a repeater registration unit 112 , a first repeater setting unit 114 , a second repeater setting unit 116 , a dispatch information collecting unit 118 , and a target information collecting unit 120 .

The reception information setting unit 102 sets information about the receiver 300 . At this time, the reception information setting unit 102 includes geographic location information on the receiver 300 of a member who has subscribed to the digital satellite broadcasting transmission/reception service according to an embodiment of the present invention, address information on the network 10, terminal type information, You can set model information, etc.

The repeater search unit 104 searches for the second satellite repeater 400 corresponding to the set receiver 300 . In this case, the repeater search unit 104 may search for a satellite repeater located within a range set from the receiver 300 as the second satellite repeater 400 in response to the geographic location of the receiver 300 . Also, the repeater search unit 104 may search for a satellite repeater in which the strength of the signal transmitted and received with the transmitter 100 and the strength of the signal transmitted and received with the receiver 300 are equal to or greater than a set value as the second repeater 400 . In addition, the repeater search unit 104 primarily searches for a satellite repeater that is greater than or equal to a set distance range or a set signal strength from the transmitter 100, and a distance range with the receiver 300 from among the primarily searched satellite repeaters is within a set range. Alternatively, a satellite repeater having a signal strength greater than or equal to a set value may be searched for as the second satellite repeater 400 . At this time, if the distance range with the receiver 300 is within the set range or there are a plurality of satellite repeaters whose signal strength is greater than or equal to the set value, the repeater search unit 104 determines that the signal strength with the receiver 300 is the strongest among the corresponding satellite repeaters. It is preferable to search for the satellite repeater as the second satellite repeater 400 . To this end, the transmitter 100 may measure the signal strength by transmitting a signal at a set period with respect to a satellite repeater or a registered satellite repeater within a set distance range. In addition, the transmitter 100 may request a satellite repeater or a registered satellite repeater within a set distance range to measure the signal strength of the receiver 300 , and receive a correspondingly measured value.

The return information setting unit 106 sets return information corresponding to the second satellite repeater 400 searched for by the repeater search unit 104 . At this time, the return information setting unit 106 may set the ID, access password, etc. of the searched second satellite repeater 400 as return information so that the receiver 300 can access the corresponding second satellite repeater 400 . .

The return information insertion unit 108 inserts the return information set by the return information setting unit 106 into the transmitted digital satellite broadcast.

The return information transmission unit 110 transmits the digital satellite broadcast into which the return information is inserted by the return information insertion unit 108 to the receiver 300 through the first satellite repeater 200 . Here, the first satellite repeater 200 is a satellite repeater preset to retransmit the digital satellite broadcast transmitted by the transmitter 100 to the receiver 300 .

The repeater registration unit 112 registers a plurality of satellite repeaters. In this case, the repeater registration unit 112 may register a circuit route, a circuit time, an ID, an access password, and the like of each satellite repeater with respect to the earth.

The first repeater setting unit 114 sets the first satellite repeater 200 based on the distance to the transmitter 100 and the strength of the transmission/reception signal for each satellite repeater registered in the repeater registration unit 112 . At this time, the first repeater setting unit 114 is a satellite repeater in which the distance to the transmitter 100 for each satellite repeater registered in the repeater registration unit 112 is less than or equal to the set value and the strength of the transmit/receive signal is greater than or equal to the set value. The first satellite repeater 200 may be set as the first satellite repeater having the shortest distance from the receiver 300 or the strongest transmission/reception signal strength among the primarily set satellite repeaters.

The second repeater setting unit 116 sets the second satellite repeater 400 based on a distance between the receiver 300 and each registered satellite repeater and signal strength. At this time, the second repeater setting unit 116 sets the distance to the receiver 300 for each satellite repeater registered in the repeater registration unit 112 is less than or equal to the set value, and the transmit/receive signal strength is greater than or equal to the set value. In addition, a satellite repeater having the shortest distance from the transmitter 100 or the strongest transmission/reception signal strength among the firstly set satellite repeaters may be set as the second satellite repeater 400 .

The sending information collecting unit 118 collects digital satellite broadcasting sending information from the first server 20 through the first repeater 500 . That is, when a digital broadcasting signal is received through the first repeater 500 connected to the network 10, the sending information collecting unit 118 tracks the first server 20 that has sent the digital broadcasting signal, Inquires from the first server 20 to be tracked to the transmitting terminal 30 that has produced the corresponding digital broadcasting signal, and collects the sending information including the corresponding IP (Internet Protocol) address and the sending path of the digital broadcasting signal. .

The target information collection unit 120 collects target information of digital satellite broadcasting from the first server 20 through the first repeater 500 . That is, when a digital broadcast signal is received through the first repeater 500 connected to the network 10 , the target information collecting unit 120 inquires whether a target of the corresponding digital broadcast signal is set, and the IP of the set target is set. Target information including addresses and transmission paths of digital broadcast signals is collected.

Through this, the transmitter of the digital satellite broadcasting system according to the embodiment of the present invention enables the receiver to transmit a response signal through the second satellite repeater in response to the digital satellite broadcasting being transmitted, and thus, mutually between the transmitter and the receiver. conversation becomes possible.

In addition, the digital satellite broadcasting system according to an embodiment of the present invention can transmit digital satellite broadcasting through an optimal satellite repeater in response to the geographical location of the transmitter, an address on the network, and the like.

In addition, the digital satellite broadcasting system according to an embodiment of the present invention can transmit digital satellite broadcasting to a receiver or a receiving terminal connected to the receiver through a network through a satellite repeater even when the transmitter is located in an area where network communication is impossible.

In addition, the transmitter of the digital satellite broadcasting system according to the embodiment of the present invention receives a digital broadcasting signal from a transmitting terminal connected through a network, and transmits the received digital broadcasting signal through a satellite repeater, so that the public can freely broadcast digital satellite broadcasting. , and make it available for transmission.

FIG. 5 is a diagram schematically illustrating a configuration of a receiver used in the digital satellite broadcasting system shown in FIG. 1, FIG. 2 or FIG. 3. Referring to FIG.

Referring to FIG. 5 , the receiver 300 may include a response signal generating unit 302 , a response signal transmitting unit 304 , and a sending information collecting unit 306 .

The response signal generator 302 generates a response signal for the digital satellite broadcast received through the first satellite repeater 200 . For example, the response signal generating unit 302 may generate a purchase request signal as a response signal for digital satellite broadcasting for advertisement of a specific product.

The response signal transmitter 304 transmits the response signal generated by the response signal generator 302 to the transmitter 100 through the second satellite repeater 400 . That is, the response signal transmission unit 304 transmits the response signal generated by the response signal generation unit 302 to the second satellite repeater 400 based on the return information inserted into the digital satellite broadcasting, and the corresponding response signal requests to be transmitted to the transmitter 100 .

The transmission information collection unit 306 collects transmission information of a response signal for digital satellite broadcasting from the second server 40 through the second repeater 600 . That is, when a response signal is received from the receiving terminal 50 connected through the network 10 in response to the digital satellite broadcast transmitted by the transmitter 100 , the sending information collecting unit 306 sends the corresponding response signal. It is possible to collect transmission information including an IP address for one receiving terminal 50, a transmission path of a response signal, and the like.

6 is a flowchart illustrating a digital satellite broadcast transmission/reception method according to an embodiment of the present invention. The digital satellite broadcasting transmission/reception method according to an embodiment of the present invention may be performed by the digital satellite broadcasting system shown in FIGS. 1, 2 or 3 .

Referring to FIG. 6 , the transmitter 100 registers a plurality of satellite repeaters ( S102 ). In this case, the transmitter 100 may register the traversal route, traversal time, ID, access password, etc. of each satellite repeater with respect to the earth.

The transmitter 100 sets the first satellite repeater 200 based on the distance from the transmitter 100 for each registered satellite repeater and the strength of the transmission/reception signal (S104). At this time, the transmitter 100 primarily sets a satellite repeater in which the distance to the transmitter 100 for each registered satellite repeater is less than or equal to a set value and the strength of a transmission/reception signal is greater than or equal to a set value, among the firstly set satellite repeaters. A satellite repeater having the shortest distance from the receiver 300 or the strongest transmission/reception signal strength may be set as the first satellite repeater 200 .

The transmitter 100 sets information on the receiver 300 (S106). In this case, the transmitter 100 includes geographic location information on the receiver 300 of a member who has subscribed to the digital satellite broadcasting transmission/reception service according to an embodiment of the present invention, address information on the network 10, terminal type information, model information, etc. can be set.

The transmitter 100 searches for the second satellite repeater 400 corresponding to the set receiver 300 (S108). In this case, the transmitter 100 may search for a satellite repeater located within a range set from the receiver 300 as the second satellite repeater 400 in response to the geographic location of the receiver 300 . Also, the transmitter 100 may search for a satellite repeater in which the strength of the signal transmitted and received with the transmitter 100 and the strength of the signal transmitted and received with the receiver 300 are equal to or greater than a set value as the second repeater 400 . In addition, the transmitter 100 primarily searches for a satellite repeater that is greater than or equal to a set distance range or a set signal strength from the transmitter 100, and the distance range with the receiver 300 is within a set range or a signal among the primarily searched satellite repeaters. A satellite repeater in which the intensity of is greater than or equal to a set value may be searched for as the second satellite repeater 400 . At this time, when the distance range with the receiver 300 is within the set range or there are a plurality of satellite repeaters having signal strength equal to or greater than the set value, the transmitter 100 is a satellite repeater having the strongest signal strength with the receiver 300 among the corresponding satellite repeaters. It is preferable to search for as the second satellite repeater 400 . To this end, the transmitter 100 may measure the signal strength by transmitting a signal at a set period with respect to a satellite repeater or a registered satellite repeater within a set distance range. In addition, the transmitter 100 may request a satellite repeater or a registered satellite repeater within a set distance range to measure the signal strength of the receiver 300 , and receive a correspondingly measured value.

The transmitter 100 is a second satellite repeater 400 for receiving a response signal from the receiver 300 to a satellite repeater searched based on the distance and signal strength for each registered satellite repeater with the receiver 300 . set (S110). At this time, the transmitter 100 primarily sets a satellite repeater in which the distance to the receiver 300 for each registered satellite repeater is less than or equal to a set value and the strength of a transmission/reception signal is greater than or equal to a set value, among the firstly set satellite repeaters. A satellite repeater having the shortest distance from the transmitter 100 or the strongest transmission/reception signal strength may be set as the second satellite repeater 400 .

The transmitter 100 sets return information corresponding to the searched second satellite repeater 400 (S112). In this case, the transmitter 100 may set the ID and access password of the searched second satellite repeater 400 as return information so that the receiver 300 can access the corresponding second satellite repeater 400 .

The transmitter 100 inserts the set return information into the transmitted digital satellite broadcast, and transmits the digital satellite broadcast with the return information inserted thereto to the receiver 300 through the first satellite repeater 200 (S114).

The receiver 300 generates a response signal to the digital satellite broadcast received through the first satellite repeater 200 (S116). For example, the receiver 300 may generate a purchase request signal as a response signal for digital satellite broadcasting for advertisement of a specific product.

The receiver 300 transmits the generated response signal to the transmitter 100 through the second satellite repeater 400 (S118). That is, the receiver 300 transmits the generated response signal to the second satellite repeater 400 based on the return information inserted into the digital satellite broadcasting, and requests that the corresponding response signal be transmitted to the transmitter 100 .

7 is a flowchart illustrating a digital satellite broadcast transmission/reception method according to another embodiment of the present invention. The digital satellite broadcasting transmission/reception method according to an embodiment of the present invention may be performed by the digital satellite broadcasting system shown in FIGS. 1, 2 or 3 .

Referring to FIG. 7 , the transmitter 100 provides a second satellite repeater 400 separately from the preset first satellite repeater 200 ( S202 ). In this case, the second satellite repeater 400 may be a satellite repeater independent of the first satellite repeater 200 , or may be the same satellite repeater as the first satellite repeater 200 .

The transmitter 100 prepares the first repeater 500 connected through the network 10 (S204). In this case, the first repeater 500 may be connected to the first server 20 through the network 10 , and the first server 20 may be connected to at least one transmitting terminal 30 .

In addition, the receiver 300 provides a second repeater 600 connected through the network 10 . In this case, the second repeater 600 may be connected to the second server 20 through the network 10 , and the second server 40 may be connected to at least one receiving terminal 50 .

The transmitter 100 sets information about the receiver 300 . In this case, the transmitter 100 includes geographic location information on the receiver 300 of a member who has subscribed to the digital satellite broadcasting transmission/reception service according to an embodiment of the present invention, address information on the network 10, terminal type information, model information, etc. can be set.

The transmitter 100 sets return information corresponding to the prepared second satellite repeater 400 . In this case, the transmitter 100 may set the ID and access password of the second satellite repeater 400 as return information so that the receiver 300 can access the corresponding second satellite repeater 400 .

The transmitter 100 inserts set return information into the transmitted digital satellite broadcast, and transmits the digital satellite broadcast with the return information inserted thereto to the receiver 300 through the first satellite repeater 200 (S206).

On the other hand, the first repeater 500 relays the first server 20 and the transmitter 100 , and receives a digital broadcast signal from the transmitting terminal 30 connected to the first server 200 and transmits it to the transmitter 100 . It can be (S208). In this case, the transmitter 100 collects transmission information and target information of the digital broadcasting signal from the first server 20 (S210). In addition, the transmitter 100 inserts return information into the digital broadcast signal received from the transmitting terminal 30 and transmits it to the receiver 300 through the first satellite repeater 200 .

In addition, the second repeater 600 relays the receiver 300 and the second server 40 , and may receive digital satellite broadcasting from the receiver 300 and transmit it to the receiving terminal 50 ( S212 ). In this case, the receiving terminal 50 may reproduce the digital satellite broadcast and generate a response signal in response to the reproduced digital satellite broadcast. Also, the receiver 300 may receive a digital satellite broadcast through the first satellite repeater 200 and may generate a response signal in response to the received digital satellite broadcast (S214).

When a response signal is generated by the receiving terminal 50, the receiver 300 collects transmission information and target information of the generated response signal (S216). At this time, the receiver 300 may collect transmission information including the IP address of the receiving terminal 50 that has generated the response signal, and target information including the IP address of the target to which the response signal is to be transmitted.

The receiver 300 transmits the generated response signal to the transmitter 100 through the second satellite repeater 400 (S218). That is, the receiver 300 transmits the generated response signal to the second satellite repeater 400 based on the return information inserted into the digital satellite broadcasting, and requests that the corresponding response signal be transmitted to the transmitter 100 .

Although the embodiments according to the present invention have been described above, these are merely exemplary, and those of ordinary skill in the art will understand that various modifications and equivalent ranges of embodiments are possible therefrom. Accordingly, the protection scope of the present invention should be defined by the following claims as well as their equivalents.

Claims (5)

Digital comprising: a transmitter for transmitting digital satellite broadcasting; a first satellite repeater for receiving digital satellite broadcasting transmitted by the transmitter and retransmitting to the ground; and a receiver for receiving digital satellite broadcasting retransmitted by the first satellite repeater In the satellite broadcasting system,
The transmitter is
a repeater registration unit for registering a plurality of satellite repeaters;
a reception information setting unit configured to set information on the receiver;
a repeater search unit that searches for a second satellite repeater corresponding to the set receiver;
a return information setting unit configured to set return information corresponding to the searched second satellite repeater; and
a return information transmitter for transmitting the set return information to the receiver through the first satellite repeater;
includes,
The receiver is
a response signal generator for generating a response signal to the digital satellite broadcast signal received through the first satellite repeater; and
a response signal transmitter for transmitting the response signal generated by the response signal generator to the transmitter through the second satellite repeater;
including,
The repeater search unit searches for a satellite repeater in which the signal strength with the transmitter is equal to or greater than a set value among a plurality of satellite repeaters registered in the repeater registration unit, and the signal strength with the receiver is equal to or greater than the set value, as the second satellite repeater. A digital satellite broadcasting system capable of dialogue between a transmitter and a receiver, characterized in that. According to claim 1,
The transmitter is
a first repeater setting unit configured to set the first satellite repeater based on a distance to each of the satellite repeaters and signal strength;
A digital satellite broadcasting system capable of dialogue between the transmitter and the receiver, characterized in that it further comprises. 3. The method of claim 2,
The transmitter is
a second repeater setting unit configured to set the second satellite repeater based on a distance between the receiver and each of the satellite repeaters and signal strength;
A digital satellite broadcasting system capable of dialogue between the transmitter and the receiver, characterized in that it further comprises. Digital comprising: a transmitter for transmitting digital satellite broadcasting; a first satellite repeater for receiving digital satellite broadcasting transmitted by the transmitter and retransmitting to the ground; and a receiver for receiving digital satellite broadcasting retransmitted by the first satellite repeater A method for transmitting and receiving digital satellite broadcasting in a satellite broadcasting system,
the transmitter,
registering a plurality of satellite repeaters;
setting information about the receiver;
searching for a second satellite repeater corresponding to the configured receiver;
setting return information corresponding to the searched second satellite repeater; and
transmitting the set return information to the receiver through the first satellite repeater;
includes,
the receiver,
generating a response signal to the digital satellite broadcast signal received through the first satellite repeater; and
transmitting the generated response signal to the transmitter through the second satellite repeater;
including,
In the searching for the second satellite repeater, a satellite repeater having a signal strength with the transmitter greater than or equal to a set value among the plurality of registered satellite repeaters and having a signal strength with the receiver equal to or greater than a set value is selected as the second satellite repeater. Digital satellite broadcasting transmission and reception method, characterized in that search 5. The method of claim 4,
the transmitter,
setting the first satellite repeater based on the signal strength and the distance to each of the satellite repeaters; and
setting the second satellite repeater based on the distance to the receiver and each of the satellite repeaters and signal strength;
Digital satellite broadcast transmission/reception method further comprising a.

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