KR102116693B1 - Technology for removing interference and non-linearitu for signle satellite channel transmission based on dvb-s2 and dvb-rcs2 - Google Patents

Abstract

According to an exemplary embodiment of the present invention, an interference cancellation method performed by an interference cancellation apparatus, comprising: generating a DVB-S2 reference communication signal for DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel; A non-linear training step of performing non-linear training to synchronize DVB-S2 communication signals passing through the same satellite channel; Compensate for nonlinearity using the synchronized DVB-S2 communication signal, and compensate for nonlinearity by removing the nonlinearity effect generated by the DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel using the calculated nonlinearity coefficient. Nonlinear compensation step of performing; A DVB-S2 channel estimation step of performing DVB-S2 channel estimation to synchronize the DVB-S2 and DVB-RCS2 communication signals from which the nonlinear effect is removed; And outputting a DVB-RCS2 communication signal from which the DVB-S2 communication signal causing interference effect is removed from the DVB-S2 and DVB-RCS2 communication signals estimated by using the DVB-S2 reference communication signal. It may be a method for removing interference.

Description

Based on DVB-S2 and DVB-RCS2 communication signals, nonlinear compensation technology and interference cancellation method and interference cancellation device using the same satellite channel transmission. {TECHNOLOGY FOR REMOVING INTERFERENCE AND NON-LINEARITU FOR SIGNLE SATELLITE CHANNEL TRANSMISSION BASED ON DVB-S2 AND DVB-RCS2}

The present invention relates to a non-linear compensation technology and an interference cancellation method and an interference cancellation apparatus for a communication signal through the same satellite channel, and more specifically, based on DVB-S2 and DVB-RCS2 communication signals, The present invention relates to a nonlinear compensation technique, an interference cancellation method, and an interference cancellation apparatus.

Various studies have been conducted to efficiently use limited frequency resources. For example, research to increase the efficiency of frequency use has been performed using a high-efficiency transmission method such as high-order modulation and a method such as Small Roll-off, Faster Than Nyquist (FTN), and Adaptive Coding Modulation (ACM). However, the efficiency of using the frequency using the above method is limited.

Therefore, there is a need for a method of transmitting and receiving communication signals using the same satellite channel in order to fundamentally increase the frequency use efficiency in limited frequency resources.

The present invention provides a method of transmitting and receiving a communication signal using the same satellite channel in order to efficiently use a limited frequency.

The present invention provides a method for canceling interference of the same satellite channel by compensating for the nonlinear effect of a satellite repeater.

The present invention provides a method for canceling interference of the same satellite channel by synchronizing communication signals through channel estimation.

According to an embodiment of the present invention, an interference cancellation method performed by an interference cancellation apparatus, comprising: generating a DVB-S2 reference communication signal for DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel; A non-linear training step of performing non-linear training to synchronize DVB-S2 communication signals passing through the same satellite channel; Compensate for nonlinearity using the synchronized DVB-S2 communication signal, and compensate for nonlinearity by removing the nonlinearity effect generated by the DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel using the calculated nonlinearity coefficient. Nonlinear compensation step of performing; A DVB-S2 channel estimation step of performing DVB-S2 channel estimation to synchronize the DVB-S2 and DVB-RCS2 communication signals from which the nonlinear effect is removed; And outputting a DVB-RCS2 communication signal from which the DVB-S2 communication signal causing interference effect is removed from the DVB-S2 and DVB-RCS2 communication signals estimated by using the DVB-S2 reference communication signal. It may be a method for removing interference.

The non-linear training step may be an interference cancellation method that synchronizes through a matching filter, symbol timing synchronization, frame synchronization, and frequency estimation using the DVB-S2 communication signal that generates an interference effect on the DVB-RCS2 communication signal.

The calculation of the non-linear coefficient estimates the non-linear effect of the satellite repeater according to the characteristics of the satellite repeater using the synchronized DVB-S2 communication signal that generates an interference effect on the DVB-RCS2 communication signal, and the estimated non-linear effect It may be an interference cancellation method for calculating a nonlinear coefficient.

Using the calculated nonlinear coefficient, it may be an interference cancellation method that updates a nonlinear coefficient that changes due to the passage of the same satellite channel using an RLS algorithm.

The step of synchronizing the DVB-S2 channel estimation step may be an interference cancellation method that synchronizes through a matching filter, symbol timing synchronization, and frequency estimation using the DVB-S2 and DVB-RCS2 communication signals.

The synchronized DVB-S2 and DVB-RCS2 communication signals may be interference cancellation methods in which time delay and frequency offset effects are removed.

The reference communication signal may be an interference cancellation method for synchronizing the DVB-S2 communication signal by performing satellite repeater filter, matching filter, and symbol timing synchronization.

According to an embodiment of the present invention, in the interference cancellation apparatus, the interference cancellation apparatus includes a processor, and the processor is a DVB-S2 reference to DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel. Generate a communication signal, perform non-linear training to synchronize the DVB-S2 communication signal passing through the same satellite channel, calculate a non-linear coefficient using the synchronized DVB-S2 communication signal, and calculate the calculated non-linear coefficient Non-linear compensation is performed by removing the non-linear effect generated from the DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel, and the DVB-S2 and DVB-RCS2 communication signals from which the non-linear effect is removed are synchronized. DVB-RCS2, which performs DVB-S2 channel estimation and removes the interference signal DVB-S2 communication signal from the DVB-S2 channel estimated DVB-S2 and DVB-RCS2 communication signals using the DVB-S2 reference communication signal. It may be an interference cancellation device that outputs a communication signal.

The non-linear training step may be an interference cancellation apparatus that synchronizes through a matching filter, symbol timing synchronization, frame synchronization, and frequency estimation using the DVB-S2 communication signal that generates an interference effect on the DVB-RCS2 communication signal.

The calculation of the non-linear coefficient estimates the non-linear effect of the satellite repeater according to the characteristics of the satellite repeater using the synchronized DVB-S2 communication signal that generates an interference effect on the DVB-RCS2 communication signal, and the estimated non-linear effect It may be an interference cancellation device for calculating a nonlinear coefficient.

Using the calculated nonlinear coefficient, it may be an interference cancellation apparatus that updates a nonlinear coefficient that changes due to the passage of the same satellite channel using an RLS algorithm.

The step of synchronizing the DVB-S2 channel estimation step may be an interference cancellation apparatus that synchronizes through a matching filter, symbol timing synchronization, and frequency estimation using the DVB-S2 and DVB-RCS2 communication signals.

The synchronized DVB-S2 and DVB-RCS2 communication signals may be interference cancellation devices in which time delay and frequency offset effects are removed.

The reference communication signal may be an interference cancellation device that synchronizes the DVB-S2 communication signal by performing a satellite repeater filter, a matching filter, and symbol timing synchronization.

According to an embodiment of the present invention, in order to efficiently use a limited frequency, a method of transmitting and receiving a communication signal using the same satellite channel can be provided.

According to an embodiment of the present invention, it is possible to provide a method for canceling interference of the same satellite channel by compensating for the nonlinear effect of the satellite repeater.

According to an embodiment of the present invention, it is possible to provide a method for canceling interference of the same satellite channel by synchronizing communication signals through channel estimation.

1 is a view showing a conceptual diagram of an interference cancellation apparatus according to an embodiment of the present invention.
2 is a view showing communication signal transmission using the same satellite channel according to an embodiment of the present invention.
3 is a view showing the configuration of an interference cancellation apparatus according to an embodiment of the present invention.

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

1 is a view showing a conceptual diagram of an interference cancellation apparatus according to an embodiment of the present invention.

The central station 101 can transmit and receive communication signals with the earth station (VSAT, Very Small Aperture System) 103 through the satellite 102. There are a plurality of methods for transmitting and receiving communication signals using satellites. For example, DVB-S (Digital Video Broadcasting-Satellite), DVB-S2 (Digital Video Broadcasting-Satellite Second Generation), DVB-RCS (Digital Video Broadcasting-Return Channel via Satellite), DVB-RCS2 (Digital Video Broadcasting-Return) Channel via Satellite Second Generation) can be used to transmit and receive communication signals.

The central station 101 can transmit a DVB-S2 communication signal to the earth station 103 through the satellite 102. The earth station 103 can transmit the DVB-RCS2 communication signal to the central station 101 using the same satellite channel.

The interference cancellation apparatus 104 may be located in the central station 101. The interference cancellation apparatus 104 may eliminate the self-interference effect caused by passing through the same satellite channel. For example, the interference cancellation apparatus 104 may use the DVB-S2 communication signal transmitted from the central station 101 as a reference communication signal, and separate the DVB-S2 communication signal causing the self-interference effect from the DVB-RCS2 signal. . Therefore, the interference cancellation apparatus 104 may output the DVB-RCS2 communication signal by removing the DVB-S2 communication signal from the DVB-RCS2 and DVB-S2 communication signals received using the same satellite channel. This is because the DVB-S2 communication signal transmitted from the removed central station causes an interference effect on the DVB-RCS2 communication signal received from the earth station.

That is, when the central station 101 receives a communication signal from the satellite 102, the central station 101 has a self-interference effect due to the DVB-S2 communication signal having a large signal power transmitted from the central station 101 to the satellite 102. May occur and it may be difficult to detect the DVB-RCS2 communication signal. Thus, the central station 101 uses the transmitted DVB-S2 communication signal as a reference communication signal, and the central station 101 removes the interference effect due to the DVB-S2 communication signal to receive DVB received from the earth station 103 via satellite. -RCS2 communication signal can be detected.

2 is a view showing communication signal transmission using the same satellite channel according to an embodiment of the present invention.

The general transmission system bandwidth 210 does not use the same satellite channel, and can transmit and receive communication signals by distinguishing the forward channel bandwidth 211 and the reverse channel bandwidth 212. At this time, if the forward channel bandwidth 211 refers to the bandwidth of the frequency band transmitting the communication signal, the reverse channel bandwidth 212 may mean the bandwidth of the frequency band receiving the communication signal. Conversely, if the forward channel bandwidth 211 refers to the bandwidth of the frequency band receiving the communication signal, the reverse channel bandwidth 212 may refer to the bandwidth of the frequency band transmitting the communication signal.

Since the general transmission system bandwidth 210 transmits / receives the frequency bands of the forward channel bandwidth 211 and the reverse channel bandwidth 212 differently, an interference effect may not occur or an effect of the interference effect may be relatively weak. However, the general transmission system bandwidth 210 may use a frequency bandwidth twice as large as the bandwidth of the same channel transmission system 220.

The same channel transmission system bandwidth 220 may use the same satellite channel. That is, the frequency bands of the forward channel bandwidth 221 and the reverse channel bandwidth 222 are the same frequency band. Thus, the co-channel transmission system bandwidth 220 can improve the frequency efficiency by 50% by overlapping the frequency bands.

3 is a view showing the configuration of an interference cancellation apparatus according to an embodiment of the present invention.

The reference communication signal generator 310 may generate a reference communication signal to remove the DVB-S2 communication signal that generates a self-interference effect in the central station. At this time, the reference communication signal is the same communication signal as the DVB-S2 communication signal transmitted from the DVB-S2 transmitter 311 at the central station. That is, the reference communication signal is a DVB-S2 communication signal generated from a DVB-S2 transmitter. The signal power of the DVB-S2 communication signal is relatively large compared to the signal power of the DVB-RCS2 communication signal. Thus, the DVB-S2 communication signal may cause an interference effect on the DVB-RCS2 communication signal received using the same satellite channel. The reference communication signal may be a communication signal for removing a DVB-S2 communication signal causing an interference effect from the DVB-RCS2 communication signal.

The reference communication signal may be synchronized through the matching filter 312. That is, since the DVB-S2 communication signal received from the nonlinear training unit 320 passes through the matching filter 321, the reference communication signal also needs to pass through the matching filter 312 and be transmitted to the interference removing unit 350. . Thus, the same synchronization process as the DVB-S2 communication signal passing through the satellite channel can be performed.

The synchronized reference communication signal may be transmitted to the interference cancellation unit 350. The reference communication signal transmitted to the interference cancellation unit 350 may remove the DVB-S2 communication signal causing the interference effect from the communication signal in which the DVB-RCS2 and DVB-S2 communication signals are mixed. Therefore, the interference cancellation unit 350 may output a DVB-RCS2 communication signal.

The non-linear training unit 320 may perform non-linear training to synchronize communication signals in order to compensate for the non-linear effect generated in the communication signal through the satellite repeater and the non-linear compensation unit 330. That is, the non-linear training unit 320 may perform non-linear training that performs synchronization processes such as the matching filter 321, symbol timing synchronization 322, frame synchronization 323, and frequency measurement 324. The DVBS2 communication signal synchronized by the nonlinear training unit 320 is transmitted to the nonlinear compensation unit 330, and the nonlinear compensation unit 330 estimates and compensates for the nonlinear effect.

The frame synchronization 323 may check whether the received DVB-S2 communication signal is the same as the reference communication signal. In addition, the frame sync 323 may detect the frame data start point of the received DVB-S2 communication signal. The frame synchronizer 323 may transmit information regarding the detected frame data start point to the DVB-S2 communication signal and the DVB-RCS2 communication signal received from the second time onwards. Then, the start of the frame can be known without a frame synchronization process every time.

The frequency estimation 324 may estimate the frequency offset of the communication signal generated while passing through the satellite repeater of the same satellite channel. The frequency estimation 324 represents a process of compensating for it through the estimated frequency offset.

The non-linear training unit 320 may perform non-linear training by receiving only the DVB-S2 communication signal, not a situation in which the DVB-S2 communication signal and the DVB-RCS2 communication signal are mixed. This is because precise nonlinear compensation is impossible for a communication signal in which the DVB-S2 communication signal and the DVB-RCS2 communication signal are mixed due to the interference effect.

Therefore, the interference cancellation device located in the central station can control the DVB-S2 communication signal to be the first signal received by the nonlinear training unit 320. That is, the non-linear training unit may perform non-linear training using the DVB-S2 communication signal received first.

The non-linear compensation unit 330 may be divided into two stages to estimate the non-linear effect of the satellite repeater and apply it inversely to attenuate the non-linear effect.

In the first step, the nonlinear compensation unit 330 can receive only the DVB-S2 communication signal received through the nonlinear training unit 320 and estimate the nonlinear effect of the satellite repeater using the received DVB-S2 communication signal. .

At this time, the DVB-S2 communication signal passing through the satellite repeater causing the nonlinear effect can be expressed as in Equation 1 below using the Volterra model considering the nonlinear order and the memory order. For example, in Equation 1 below, 5 and 3 are selected for the nonlinear order k and the memory order q. However, the nonlinear order k and the memory order q are not fixed values, and may have various values depending on the characteristics of the satellite repeater.

Here, x (n) may mean an input communication signal, w (n) a nonlinear coefficient of a satellite repeater, and y (n) may mean an output communication signal. When the central station receives the communication signal from the satellite, it can know the output communication signal and the input communication signal. At this time, the input communication signal may be a reference communication signal. Accordingly, the central station can perform signal processing to obtain a nonlinear coefficient as in Equation 2 below.

Through the above process, the non-linear compensation unit 330 may obtain a non-linear coefficient when receiving only the DVB-S2 communication signal. Thereafter, the nonlinear coefficient may change due to an effect occurring while passing through the same satellite channel.

The reason for the nonlinear coefficient change is that the effect of passing through the same satellite channel may be slightly changed due to causes such as movement of the satellite and instability of the clock. Due to this, the nonlinear effect also changes little by little over time, and the changed nonlinear effect is calculated and applied. Thus, the nonlinear coefficient estimated by the nonlinear compensation unit may be periodically updated.

The changing nonlinear coefficient can be updated by using a Recursive Least Square (RLS) algorithm or Least Mean Square (LMS). At this time, the RLS algorithm has a shorter estimation time than the LMS, but the implementation complexity may be high.

That is, the non-linear compensation unit 330 may calculate the non-linear coefficient using only the DVB-S2 communication signal and update the non-linear coefficient using an RLS algorithm or LMS. The nonlinear effect can be eliminated through a nonlinear coefficient calculated using the DVB-S2 communication signal.

In the second step, the nonlinear compensation unit 330 may receive a communication signal in which the DVB-S2 communication signal and the DVB-RCS2 communication signal are mixed after the first step in which only the DVB-S2 communication signal is received. Nevertheless, the nonlinear effect can be eliminated by using the nonlinear coefficients calculated in the first step. This is because the accuracy of the nonlinear coefficient calculated using only the DVB-S2 communication signal received through the nonlinear training unit 320 is good.

The DVB-S2 channel estimator 340 may synchronize the DVB-S2 communication signal and the DVB-RCS2 communication signal received through the nonlinear compensation unit 330 with respect to the DVB-S2 communication signal. At this time, since the influence of the DVB-S2 communication signal is very large compared to the DVB-RCS2 communication signal, the DVB-S2 channel estimator 340 synchronizes the DVB- (S2 + RCS2) communication signal with the DVB-S2 communication signal. The process can be performed.

The channel estimation may include a matching filter 341, symbol timing synchronization 342, and frequency estimation 343. The channel estimation DVB-S2 communication signal and the DVB-RCS2 communication signal may be transmitted to the interference cancellation unit 350.

The frequency estimation 343 may be a process of estimating a frequency offset generated while passing through the same satellite channel and compensating it. The frequency estimation 343 of the DVB-S2 channel estimator 340 may be more accurate than the frequency estimation 324 of the nonlinear training unit 320. Therefore, the frequency offset in the DVB- (S2 + RCS2) communication signal can be accurately compensated. Therefore, even when the DVB-S2 communication signal causing the interference effect performed by the interference canceling unit 350 is removed, the performance of the interference canceling device does not decrease.

The DVB-S2 channel estimator 340 synchronizes through a matching filter, symbol timing synchronization, and frequency estimation, and provides time delay / symbol timing offset / frequency offset effects of the DVB-S2 communication signal and DVB-RCS2 communication signal. Can be removed.

The interference removal unit 350 may receive a DVB-S2 communication signal from the reference communication signal 310. At this time, the received DVB-S2 communication signal may be the same as the communication signal having the same satellite channel effect as passing through the satellite repeater and the synchronized state through the DVB-S2 channel estimator.

The interference removal unit 350 passes through the nonlinear compensation unit 330 and the DVB-S2 channel estimator 340, and DVB-S2 communication signals and DVB-RCS2 communication in which the nonlinear effect / time delay / frequency offset effect and the like are removed You can receive a signal.

The interference removal unit 350 may remove the DVB-S2 communication signal, which is the reference communication signal 310, and output a DVB-RCS2 communication signal. That is, the DVB-S2 communication signal that generates an interference effect may be removed by the interference removal unit 350.

On the other hand, the method according to the present invention is written in a program that can be executed on a computer and can also be embodied in various recording media such as a magnetic storage medium, an optical reading medium, and a digital storage medium.

Implementations of the various techniques described herein may be implemented in digital electronic circuitry, or in computer hardware, firmware, software, or combinations thereof. Implementations are computer program products, i.e. information carriers, e.g. machine readable storage, for processing by, or controlling, the operation of a data processing apparatus, e.g., a programmable processor, a computer, or multiple computers. It may be embodied as a computer program embodied tangibly in a device (computer readable medium) or a radio wave signal. Computer programs, such as the computer program (s) described above, can be written in any form of programming language, including compiled or interpreted languages, and as a standalone program or in a module, component, subroutine, or computing environment. It can be deployed in any form including as other units suitable for use. The computer program can be deployed to be processed on one computer or multiple computers at one site or distributed across multiple sites and interconnected by a communication network.

Processors suitable for processing a computer program include, by way of example, both general purpose and special purpose microprocessors, and any one or more processors of any kind of digital computer. Generally, the processor will receive instructions and data from read-only memory or random access memory or both. Elements of a computer may include at least one processor executing instructions and one or more memory devices storing instructions and data. Generally, a computer may include one or more mass storage devices that store data, such as magnetic, magneto-optical disks, or optical disks, or receive data from or transmit data to them, or both. It may be combined as possible. Information carriers suitable for embodying computer program instructions and data include, for example, semiconductor memory devices, for example, magnetic media such as hard disks, floppy disks, and magnetic tapes, CD-ROM (Compact Disk Read Only Memory). ), Optical Media such as DVD (Digital Video Disk), Magnetic-Optical Media such as Floptical Disk (Magneto-Optical Media), ROM (ROM, Read Only Memory), RAM (RAM) , Random Access Memory), Flash memory, EPROM (Erasable Programmable ROM), EEPROM (Electrically Erasable Programmable ROM), and the like. The processor and memory may be supplemented by, or incorporated in, special purpose logic circuitry.

Also, the computer-readable medium may be any available medium that can be accessed by a computer, and may include both computer storage media and transmission media.

This specification includes details of many specific implementations, but these should not be understood as limiting on the scope of any invention or claim, but rather as a description of features that may be specific to a particular embodiment of the particular invention. It should be understood. Certain features that are described in this specification in the context of separate embodiments may be implemented in combination in a single embodiment. Conversely, various features described in the context of a single embodiment can also be implemented in multiple embodiments individually or in any suitable subcombination. Further, although features may operate in a particular combination and may be initially depicted as so claimed, one or more features from the claimed combination may in some cases be excluded from the combination, and the claimed combination subcombined. Or sub-combinations.

Likewise, although the operations are depicted in the drawings in a particular order, it should not be understood that such operations should be performed in the particular order shown or in sequential order, or that all shown actions should be performed in order to obtain desirable results. In certain cases, multitasking and parallel processing may be advantageous. In addition, the separation of various device components of the above-described embodiments should not be understood as requiring such separation in all embodiments, and the described program components and devices will generally be integrated together into a single software product or packaged in multiple software products. You should understand that you can.

On the other hand, the embodiments of the present invention disclosed in the specification and drawings are merely presented as specific examples for ease of understanding, and are not intended to limit the scope of the present invention. It is apparent to those skilled in the art to which the present invention pertains that other modified examples based on the technical idea of the present invention can be implemented in addition to the embodiments disclosed herein.

101: central station
102: satellite
103: earth station
104: interference cancellation device

Claims (12)

In the interference cancellation method performed by the interference cancellation apparatus,
Generating reference communication signals for DVB-S2 and DVB-RCS2 communication signals that have passed through the same satellite channel;
Performing non-linear training to synchronize the DVB-S2 communication signal passing through the same satellite channel with the reference communication signal;
Nonlinear compensation is calculated by calculating the nonlinear coefficient using the synchronized DVB-S2 communication signal, and removing the nonlinear effect generated in the DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel using the calculated nonlinear coefficient. Performing;
Performing channel estimation to synchronize the DVB-S2 and DVB-RCS2 communication signals from which the nonlinear effect is removed; And
Outputting a DVB-RCS2 communication signal from which the DVB-S2 communication signal causing an interference effect is removed from the channel-estimated DVB-S2 and DVB-RCS2 communication signal using the reference communication signal
Interference cancellation method comprising a.
According to claim 1,
The step of performing the non-linear training,
The interference cancellation method for synchronizing through a matched filter, symbol timing synchronization, frame synchronization, and frequency estimation using the DVB-S2 communication signal that generates an interference effect on the DVB-RCS2 communication signal.
According to claim 1,
Step of performing the channel estimation,
The interference cancellation method for synchronizing through a matching filter, symbol timing synchronization, and frequency estimation using the DVB-S2 and DVB-RCS2 communication signals.
In the interference cancellation apparatus,
The interference cancellation device includes a processor,
The processor,
Generate a reference communication signal for DVB-S2 and DVB-RCS2 communication signals that have passed through the same satellite channel,
Non-linear training is performed to synchronize the DVB-S2 communication signal passing through the same satellite channel,
Nonlinear compensation is calculated by calculating the nonlinear coefficient using the synchronized DVB-S2 communication signal, and removing the nonlinear effect generated in the DVB-S2 and DVB-RCS2 communication signals passing through the same satellite channel using the calculated nonlinear coefficient. And
Channel estimation is performed to synchronize the DVB-S2 and DVB-RCS2 communication signals from which the nonlinear effect is removed,
An interference cancellation apparatus for outputting a DVB-RCS2 communication signal from which the DVB-S2 communication signal causing an interference effect is removed from the channel-estimated DVB-S2 and DVB-RCS2 communication signals using the reference communication signal.
The method of claim 4,
The processor,
When performing the non-linear training, the interference cancellation apparatus for synchronizing through a matching filter, symbol timing synchronization, frame synchronization, and frequency estimation using the DVB-S2 communication signal that generates an interference effect on the DVB-RCS2 communication signal.
The method of claim 4,
The processor,
When performing the channel estimation, the interference cancellation apparatus that synchronizes through a matching filter, symbol timing synchronization, and frequency estimation using the DVB-S2 and DVB-RCS2 communication signals.
In the interference cancellation method performed by the interference cancellation apparatus of the central station,
Receiving a DVB- (S2 + RCS2) communication signal in which the DVB-S2 communication signal and the DVB-S2 communication signal and the DVB-RCS2 communication signal are mixed;
Synchronizing using the received DVB-S2 communication signal to remove nonlinear effects caused by a satellite repeater when passing through the same satellite channel;
Estimating a nonlinear coefficient reflecting the characteristics of the satellite repeater using a DVB-S2 communication signal on which nonlinear training has been performed;
Removing the nonlinear effect from the DVB- (S2 + RCS2) communication signal by applying the nonlinear coefficient to the received DVB- (S2 + RCS2) communication signal;
Performing channel estimation by synchronizing the DVB- (S2 + RCS2) communication signal from which the nonlinear effect is removed with a DVB-S2 communication signal transmitted from the central station to a satellite; And
Removing a DVB-S2 communication signal causing an interference effect from the channel-estimated DVB- (S2 + RCS2) communication signal
Interference cancellation method comprising a.
The method of claim 7,
Estimating the nonlinear coefficient,
Interference for estimating a nonlinear effect of a repeater according to characteristics of a satellite repeater using the synchronized DVB-S2 communication signal generating an interference effect on the DVB-RCS2 communication signal, and estimating a nonlinear coefficient through the estimated nonlinear effect How to remove.
The method of claim 7,
The nonlinear coefficient is changed by passing the same satellite channel, and the changed nonlinear coefficient is updated using an RLS algorithm.
In the interference cancellation apparatus of the central station,
The interference cancellation device includes a processor,
The processor,
A DVB-S2 communication signal and a DVB- (S2 + RCS2) communication signal in which the DVB-S2 communication signal and the DVB-RCS2 communication signal are mixed;
In order to remove the nonlinear effect caused by the satellite repeater when passing through the same satellite channel, synchronization is performed using the received DVB-S2 communication signal,
Estimating a nonlinear coefficient reflecting the characteristics of the satellite repeater using a DVB-S2 communication signal on which nonlinear training has been performed,
The non-linear effect is removed from the DVB- (S2 + RCS2) communication signal by applying the nonlinear coefficient to the received DVB- (S2 + RCS2) communication signal,
Channel estimation is performed by synchronizing the DVB- (S2 + RCS2) communication signal from which the nonlinear effect has been removed from the DVB-S2 communication signal transmitted from the central station to a satellite,
An interference cancellation apparatus for removing the DVB-S2 communication signal causing an interference effect from the channel-estimated DVB- (S2 + RCS2) communication signal.
The method of claim 10,
The processor,
When estimating the non-linear coefficient, the non-linear effect of the repeater is estimated according to the characteristics of the repeater using the synchronized DVB-S2 communication signal that generates an interference effect on the DVB-RCS2 communication signal, and the estimated non-linear effect is calculated. Interference cancellation device to estimate the nonlinear coefficient through.
The method of claim 10,
The processor,
An interference cancellation apparatus for updating a nonlinear coefficient that changes due to the passage of the same satellite channel using an RLS algorithm.

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