KR100920734B1 - Multi-carrier transmission system capable of improving receiving efficiency of multi-carrier receiving system and a method thereof - Google Patents

Abstract

Disclosed is a multicarrier transmission system capable of improving reception performance of a multicarrier reception system. The multi-carrier transmission system according to the present invention is a multi-carrier transmission system for inserting and transmitting pseudo-noise string information for synchronization between a transmitting side and a receiving side into an OFDM signal, and to suppress interference between symbols of the OFDM signal. A GI insertion unit for inserting a protection interval into the PN generator, a PN generator for generating pseudo noise string information, a synchronization information forming unit for forming synchronization information by adding system information to the pseudo noise string information generated by the PN generator, and synchronization And a synchronization information insertion unit for inserting the synchronization information formed by the information forming unit before the protection section. As a result, the multi-carrier reception system can acquire the synchronization in the time domain before performing the DFT, thereby improving the signal processing speed.

Multicarrier, OFDM, DMB-T, PN, Frame

Description

Multi-carrier transmission system capable of improving the performance of a multi-carrier receiving system and its method {Multi-carrier transmission system capable of improving receiving efficiency of multi-carrier receiving system and a method}

1 is a schematic block diagram of a multicarrier transmission system according to the DMB-T standard;

2 is a view illustrating a frame structure of a transmission signal according to FIG. 1;

3 is a schematic block diagram of a multicarrier transmission system according to the present invention;

4 is a flowchart illustrating a multicarrier transmission method according to FIG. 3; and

FIG. 5 is a diagram illustrating a frame structure of a transmission signal according to FIG. 3.

Explanation of symbols on the main parts of the drawings

5, 100: System information insertion section 10, 110: IDFT section

20, 120: GI insertion part 30: PN insertion part

130: PN generating unit 140: synchronization information forming unit

141: additional information search unit 143: additional information copy unit

150: synchronization information insertion unit 40, 160: molding filtering unit

The present invention relates to a multi-carrier transmission system and a transmission method thereof, and more particularly, to a multi-carrier transmission system and a transmission method that can improve the signal processing speed of the multi-carrier reception system.

Orthogonal Frequency Division Multiplexing (OFDM), which is a type of multicarrier modulation, has excellent performance in multipath and mobile reception environments.

The OFDM method improves frequency utilization efficiency by using a plurality of carriers having mutual orthogonality, and is a method suitable for high-speed data transmission using a multi-carrier in a wired or wireless channel. In the case of a high-speed data transmission with a short symbol period in a wireless communication channel having multipath fading, when the single carrier method is used, the inter-symbol interference becomes more severe, whereas the complexity of the receiver is greatly increased. Since the symbol period in each subcarrier can be extended by the number of subcarriers while maintaining the data rate, a simple equalizer with one tap can cope with severe frequency selective fading channels by multipath.

In the OFDM method, the frequency utilization efficiency is increased by using a plurality of carriers having mutual orthogonality, and the process of modulating and demodulating the plurality of carriers at the transmitting and receiving end can be implemented at high speed by using the resultant IFFT and FFT. Can be. The OFDM method is adopted as a standard method of terrestrial digital audio broadcasting or terrestrial digital video broadcasting.                         

Terrestrial Digital Multimedia Television Broadcasting (DMB-T), one of the standards for digital terrestrial digital television (DTV) broadcasting, uses TDS-OFDM (Time Domain Synchronous-Orthogonal Frequency Division Multiplexing) transmission method. The TDS-OFDM transmission method is characterized by inserting a PN (Pseudo Noise) sequence, which is synchronization information for obtaining synchronization between a transmitter and a receiver in a time domain.

1 is a schematic block diagram of a multicarrier transmission system according to the DMB-T standard. Referring to the drawings, a multi-carrier transmission system includes a system information insertion unit 5, an IDFT (Inveres discrete fourier transform) unit 10, a GI (Guard Interval) insertion unit 20, PN (Pseudo Noise) pseudo Noise string) information insertion unit 30, and shaping filtering unit 40.

In order to transmit the multicarrier transmission system, the multicarrier transmission system performs encoding to correct an error of a transmission signal in a frequency domain, and maps the coded data in a QPSK, 16QAM, 64QAM scheme, and the like.

The system information insertion unit 5 inserts system information into the mapped transmission signal. The transmission signal in which the system information is inserted is transmitted to the IDFT unit 10, and the IDFT unit 10 modulates the received transmission signal into the time domain to form an OFDM signal in the time domain.

The GI insertion unit 20 inserts a guard interval into an OFDM signal formed in the time domain to prevent ISI (Inter-Symbol Interference) in a multipath environment. At this time, the guard interval (GI) is a copy of the rear part of the OFDM signal, the GI insertion unit 20 inserts the copied guard interval in front of the OFDM signal.

The above system information includes length mode information of the transmission signal modulated by the IDFT unit 10, length mode information for the protection interval, information on the mapping mode of the transmission signal, information on the frame order of the transmission signal, and TPS information. Refers to information including at least one. Here, the TPS information includes QAM constellation information, hierarchy information, and information about an inner code rate.

The PN information insertion unit 30 inserts pseudo noise sequence information generated by the PN information generation unit (not shown) in front of the guard interval inserted into the OFDM signal. Here, the pseudo noise string information is synchronization information for synchronization of the multicarrier reception system with respect to the multicarrier transmission system, and is composed of a symbol train in which a predetermined number of symbols are continuously arranged. At this time, one symbol is implemented to have a size corresponding to 2 bits. However, the size of the symbol is not limited thereto and may be implemented to have a size corresponding to 4 bits or 8 bits. The chair noise string information is not random noise but a continuous sequence of 1's and 0's that look random but have regularity. In addition, the pseudo noise string information is composed of 2 ^M -1 symbols, and is repeated periodically. At this time, M is a natural number and represents the number of registers of the PN information generator.

The shaping filter 40 performs filtering for pulse shaping the guard interval and the pseudo noise string information inserted into the OFDM signal. The OFDM signal from which the guard period and the pseudo noise string information are filtered by the gender filtering unit 40 is transmitted through the antenna 50.

FIG. 2 is a diagram illustrating a frame structure of a transmission signal according to FIG. 1. Referring to the drawings, a transmission signal transmitted to a multi-carrier reception system is composed of an OFDM signal, a protection interval, and a synchronization signal (frame sync) in the time domain. Here, the OFDM signal is shown to include system information inserted between symbols of the transmission signal in the frequency domain, that is, frame group number (FGN) and transmission parameter signal (TPS).

In addition, the synchronization signal includes pseudo noise string information, a preamble, and a postamble. Here, the pseudo noise column information is illustrated as being composed of 255 symbols. The preamble and postamble are added to improve the channel estimation and equalization performance of the multicarrier reception system. The preamble is a pseudo noise sequence by copying a part of the rear part of the symbol train of the pseudo noise sequence information generated by the PN generator. It is added to the front of the information, and the postamble is a copy of the front part of the symbol train of the pseudo noise string information and added to the back of the pseudo noise string.

However, since the preamble and postamble inserted into the synchronization signal in the conventional multicarrier transmission system are shorter than the ghost range under consideration, the performance improvement of the multicarrier reception system is not large. In particular, the multi-carrier reception system needs to obtain additional information through system information inserted in the frequency domain after performing signal processing or IDFT in a time domain for a predetermined time, so that the overall signal processing speed is reduced. .

The present invention has been made to solve the above problems, and an object thereof is to provide a multi-carrier transmission system and a method for transmitting the same, which can improve the signal processing speed of a multi-carrier reception system.

In the multi-carrier transmission system according to the present invention for achieving the above object, in the multi-carrier transmission system for inserting and transmitting pseudo-noise string information for synchronization of the transmitting side and the receiving side into the OFDM signal, the symbol of the OFDM signal In order to suppress the interference between the GI insertion unit for inserting the guard interval in the OFDM signal, the PN generator for generating the pseudo noise string information, the system information is added to the pseudo noise string information generated by the PN generator And a synchronization information insertion unit for forming synchronization information, and a synchronization information insertion unit for inserting the synchronization information formed by the synchronization information formation unit in front of the protection section.

Preferably, the multicarrier transmission system includes a system information insertion unit for inserting the system information into a transmission signal, and a time domain by modulating the transmission signal into which the system information is inserted by the system information insertion unit into a time domain. And an IDFT unit for forming the OFDM signal.

Here, the system information includes length mode information on the transmission signal modulated by the IDFT unit, length mode information on the protection interval, information on the mapping mode of the transmission signal, and information on the frame order of the transmission signal. And at least one of TPS information.

The synchronization information forming unit may include an additional information searching unit for searching the system information in the OFDM signal, and an additional information copying unit for copying the found system information, and the system information copied by the additional information copying unit. Is added to the pseudo noise string information to form the synchronization information. In this case, the synchronization information forming unit adds the copied system information to at least one of the front of the pseudo noise string information and the back of the pseudo noise string information to form the synchronization information.

On the other hand, in the multi-carrier transmission system according to the present invention, in the multi-carrier transmission method for inserting and transmitting pseudo-noise sequence information for synchronization between the transmitting side and the receiving side into the OFDM signal, to suppress the interference between symbols of the OFDM signal Inserting a guard interval into the OFDM signal, generating the pseudo noise string information, and synchronizing information to form synchronization information by adding system information to the pseudo noise string information generated by the pseudo noise string generation step. And a synchronization information insertion step of inserting the synchronization information formed by the synchronization information formation step in front of the protection section.

Hereinafter, with reference to the accompanying drawings will be described in detail the present invention.

3 is a schematic block diagram of a multicarrier transmission system according to the present invention. Referring to the drawings, a multicarrier transmission system includes a system information inserter 100, an IDFT unit 110, a GI inserter 120, a PN generator 130, a sync information forming unit 140, and a sync information inserter. 150, and a shaping filtering unit 160. Here, the synchronization information forming unit 140 includes an additional information searching unit 141 and an additional information copying unit 143.

4 is a flowchart illustrating a multicarrier transmission method according to FIG. 3. Referring to the drawings will be described in more detail the operation of the multi-carrier transmission system according to the present invention.                     

In order to transmit the multicarrier transmission system, the multicarrier transmission system performs encoding to correct an error of a transmission signal in a frequency domain, and maps the coded data in a QPSK, 16QAM, 64QAM scheme, and the like.

The system information insertion unit 100 inserts system information into the mapped transmission signal of the frequency domain (S401). The transmission signal in which the system information is inserted is transmitted to the IDFT unit 110, and the IDFT unit 110 modulates the received transmission signal in the frequency domain to form an OFDM signal in the time domain (S403).

The GI insertion unit 120 inserts a guard interval in the OFDM signal formed in the time domain to prevent ISI (Inter-Symbol Interference) in a multipath environment (S405). At this time, the guard interval (GI) is a copy of the rear part of the OFDM signal, the GI insertion unit 20 inserts the copied guard interval in front of the OFDM signal.

The system information includes length mode information of a transmission signal modulated by the IDFT unit 110, length mode information of a protection interval, information on a mapping mode of a transmission signal, information on a frame order of the transmission signal, and TPS information. Refers to information including at least one. Here, the TPS information includes QAM constellation information, hierarchy information, and information about an inner code rate.

On the other hand, the PN generation unit 130 generates pseudo noise string information (S407). Pseudo-noise sequence information is synchronization information for synchronization of a multi-carrier reception system with respect to a multi-carrier transmission system, and consists of a symbol train in which a predetermined number of symbols are continuously arranged. At this time, one symbol is implemented to have a size corresponding to 2 bits. However, the size of the symbol is not limited thereto and may be implemented to have a size corresponding to 4 bits or 8 bits. The chair noise string information is not random noise but a continuous sequence of 1's and 0's that look random but have regularity. In addition, the pseudo noise string information is composed of 2 ^M -1 symbols, and is repeated periodically. At this time, M is a natural number and represents the number of registers of the PN information generator.

The additional information search unit 141 included in the synchronization information forming unit 140 searches for system information in the OFDM signal (S409). At this time, the additional information search unit 141 searches for system information to be added to the pseudo noise string information among the system information inserted into the transmission signal in the frequency domain, and the additional information added to the pseudo noise string is inserted into the transmission signal in the frequency domain. System information including at least one of the system information.

The additional information copying unit 143 copies the system information searched by the additional information searching unit 141 (S411). The synchronization information forming unit 140 forms the synchronization information by adding the system information copied by the additional information copying unit 143 to the pseudo noise string information generated by the PN generation unit 130 (S413). In this case, the synchronization information forming unit 140 may add the system information copied by the additional information copying unit 143 before or after the pseudo noise string information, and may add both before and after the pseudo noise string information. have.

FIG. 5 is a diagram illustrating a frame structure of a transmission signal according to FIG. 3. Referring to the drawings, a transmission signal transmitted to a multi-carrier reception system is composed of an OFDM signal, a guard interval, and a synchronization signal in a time domain. Here, the OFDM signal is shown to include system information inserted between symbols of the transmission signal in the frequency domain, that is, the FGN information and the TPS information, and the additional information is shown as being added both before and after the pseudo noise string information. .

The synchronization information inserting unit 150 inserts the synchronization information formed by the synchronization information forming unit 140 before the protection period inserted into the OFDM signal (S415).

The shaping filter 160 shaping and filtering the OFDM signal for pulse shaping the guard interval and the synchronization information inserted in the OFDM signal (S417). The OFDM signal shaping-filtered by the gender filtering unit 160 is transmitted to the OFDM receiving system through the antenna 170 (S419). As a result, the multicarrier transmission of the multicarrier transmission system according to the present invention is terminated.

Since the multi-carrier transmission system according to the present invention transmits system information to the multi-carrier reception system in addition to pseudo-noise string information, the multi-carrier reception system includes a length mode for a DFT, a length mode for a guard interval, and a constellation mode. It is possible to reduce the cumulative time or additional signal processing of the received signal to know the information. Therefore, the synchronization can be acquired in the time domain before performing the DFT, so that fast signal processing can be performed.

The multi-carrier transmission system according to the present invention enables the multi-carrier reception system to acquire the synchronization in the time domain before performing the DFT, thereby improving the reception performance of the multi-carrier reception system.

Although the preferred embodiments of the present invention have been illustrated and described above, the present invention is not limited to the specific embodiments described above, and the present invention is not limited to the specific embodiments of the present invention without departing from the spirit of the present invention as claimed in the claims. Anyone skilled in the art can make various modifications, as well as such modifications are within the scope of the claims.

Claims (10)

In a multi-carrier transmission system for inserting and transmitting pseudo-noise string information for synchronization between a transmitter and a receiver in an OFDM signal, A GI insertion unit for inserting a guard interval into the OFDM signal to suppress interference between symbols of the OFDM signal; A PN generator for generating the pseudo noise string information; A synchronization information forming unit for forming synchronization information by adding system information to the pseudo noise string information generated by the PN generation unit; And And a synchronization information insertion unit for inserting the synchronization information formed by the synchronization information forming unit before the protection section. The system information is a multi-carrier transmission system, characterized in that the information on the characteristics of the transmission signal processed in the multi-carrier transmission system. The method of claim 1, A system information insertion unit inserting the system information into a transmission signal; And And an IDFT unit which modulates the transmission signal into which the system information is inserted by the system information insertion unit into a time domain to form the OFDM signal in a time domain. The method of claim 2, The system information includes length mode information on the transmission signal modulated by the IDFT unit, length mode information on the protection interval, information on a mapping mode of the transmission signal, information on a frame order of the transmission signal, and A multi-carrier transmission system comprising at least one of the TPS information. The method of claim 3, wherein the synchronization information forming unit, An additional information search unit for searching the system information in the OFDM signal; And Includes; additional information copying unit for copying the retrieved system information, And the system information copied by the additional information copying unit to the pseudo noise string information to form the synchronization information. The method of claim 4, wherein And the synchronization information forming unit adds the copied system information to at least one of the front of the pseudo noise string information and the back of the pseudo noise string information to form the synchronization information. In a multicarrier transmission method of a multicarrier processing system for inserting and transmitting pseudo-noise string information for synchronization between a transmitter and a receiver in an OFDM signal, Inserting a guard interval into the OFDM signal to suppress interference between symbols of the OFDM signal; A pseudo noise heat generation step of generating the pseudo noise heat information; A synchronization information forming step of forming synchronization information by adding system information to the pseudo noise string information generated by the pseudo noise string generation step; And And a synchronization information insertion step of inserting the synchronization information formed by the synchronization information forming step in front of the protection section. The system information is a multi-carrier transmission method characterized in that the information on the characteristics of the transmission signal processed in the multi-carrier transmission system. The method of claim 6, A system information insertion step of inserting the system information into a transmission signal; And And modulating the transmission signal into which the system information is inserted by the system information insertion step into a time domain to form the OFDM signal in a time domain. The method of claim 7, wherein The system information includes length mode information on the transmission signal modulated into the time domain, length mode information on the protection interval, information on a mapping mode of the transmission signal, information on a frame order of the transmission signal, and a TPS. A multicarrier transmission method comprising at least one of the information. The method of claim 8, wherein the forming of the synchronization information comprises: Retrieving the system information from the OFDM signal; And And copying the retrieved system information. And the synchronization information is formed by adding the system information copied by the copying step to the pseudo noise string information. The method of claim 9, The synchronizing information forming step may include adding the copied system information to at least one of the front of the pseudo noise string information and the back of the pseudo noise string information to form the synchronization information.

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