KR20100036433A - Apparatus and method for estimation of spectrum occupation of receiver of digital radio mondiale - Google Patents

Abstract

PURPOSE: An apparatus and a method for estimating the spectrum occupation of a DRM receiver are provided to simplify the synchronization and the channel estimation by estimating the occupied bandwidth through the calculation of average power. CONSTITUTION: A share bandwidth estimation apparatus(10) of DRM(Digital Radio Mondiale) receiver includes a mode detector(100), an operator(200) and a parameter estimator(300). The mode detector detects a transmission mode of a received signal, and the operator calculates the average power of a sub carrier for the received signal in a detection bandwidth. Plural detection bandwidths are set up according to the transmission mode, and the parameter estimator estimates the share bandwidth parameter of the received signal through the average power.

Description

Apparatus and Method for Estimation of Spectrum Occupation of Receiver of Digital Radio Mondiale}

The present invention relates to occupied bandwidth estimation, and more particularly, to an apparatus and method for estimating occupied bandwidth of a digital radio mondiale (DRM) receiver capable of estimating occupied bandwidth parameters during synchronization.

In recent years, attempts have been made to convert analog AM radio broadcasts in the 30MHz or less band to digital. Accordingly, domestic introduction of the European digital radio standard DRM (Digital Radio Mondiale) is promising.

The DRM system can provide a variety of data services such as text and slide shows while providing stereo audio quality of FM radio level, and has a low transmission power consumption. In addition, the DRM + standard based on DRM, which can integrate analog AM radio and analog FM radio, is being enacted. Therefore, the introduction of the DRM system can lead to the integration of analog radio broadcasting.

The DRM system uses four transmission modes (A, B, C, and D) to receive robust signals under various radio conditions, and each mode uses six bandwidths (4.5, 5, 9, 10, 18, 20 [ kHz]).

Table 1 shows the frequency bandwidths according to the transmission mode (A, B, C, D) and occupied bandwidth parameters (0, 1, 2, 3, 4, 5) of the DRM system.

As shown in Table 1, the DRM system needs to estimate the occupied bandwidth prior to synchronization because the position (K _min to K _max ) of the carrier differs depending on the transmission mode and the bandwidth occupancy. .

The conventional occupied bandwidth estimation is performed through decoding of a fast access cannel (FAC) frame with channel information, which should not cause an error when decoding the FAC frame, and if the occupied bandwidth is not 4.5 kHz There is a problem that needs to be estimated.

An object of the present invention is to provide an apparatus and method for estimating occupied bandwidth of a digital radio mondiale (DRM) receiver that can estimate occupied bandwidth parameters using average power, thereby simplifying synchronization and channel estimation.

Another object of the present invention is to provide an apparatus and method for estimating occupied bandwidth of a DRM receiver which can reduce synchronization time since the synchronization and occupied bandwidth parameters are performed almost simultaneously.

In order to solve the above-mentioned problem, the apparatus for estimating occupied bandwidth of a digital radio mondiale (DRM) receiver according to an aspect of the present invention includes a mode detector for detecting a transmission mode of a received signal; A calculating unit calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to the transmission mode; And a parameter estimator for estimating an occupied bandwidth parameter of the received signal using the average power of the detection band.

According to another aspect of the present invention, an apparatus for estimating occupied bandwidth of a DRM receiver includes: a mode detector configured to detect a transmission mode of a received signal; A calculating unit calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to the transmission mode; A parameter estimator for estimating an occupied bandwidth parameter of the received signal using the average power of the detection band; And a channel estimator for estimating a channel at a position of the subcarrier of the transmission mode and the occupied bandwidth parameter.

According to another aspect of the present invention, there is provided a method for estimating occupied bandwidth of a digital radio mondiale (DRM) receiver, comprising: calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to a transmission mode of the received signal; And estimating the occupied bandwidth parameter of the received signal using the average power of the detection band.

According to another aspect of the present invention, there is provided a method for estimating occupied bandwidth of a digital radio mondiale (DRM) receiver, comprising: calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to a transmission mode of the received signal; Estimating the occupied bandwidth parameter of the received signal using the average power of the detection band; And estimating a channel at the location of the subcarrier of the transmission mode and the occupied bandwidth parameter.

According to the present invention, the occupied bandwidth can be estimated through the calculation of the average power, thereby simplifying synchronization and channel estimation, and the occupied bandwidth estimation and channel estimation can be performed almost simultaneously, thereby reducing the synchronization time. .

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

1 is a block diagram illustrating an occupied bandwidth estimation apparatus 10 of a DRM receiver according to an embodiment of the present invention, and FIG. 2 is a occupied bandwidth spectrum of a DRM receiver according to an embodiment of the present invention. Figure is a diagram.

As shown in FIG. 1, the occupied bandwidth estimation apparatus 10 of the DRM receiver according to an embodiment of the present invention includes a mode detector 100, a calculator 200, and a parameter estimator 300.

The mode detector 100 analyzes the received signal and detects a transmission mode (any one of A, B, C, and D of Table 1). For example, the mode detector 100 may detect a transmission mode (any one of A, B, C, and D) of the received signal by performing a correlation operation on a predetermined correlation signal according to the received signal and the transmission mode.

As described above in Table 1, since the DRM receiver uses the subcarrier position (K _min ~ K _max ), that is, the frequency band of the subcarrier according to the transmission mode and the occupied bandwidth parameter, the mode detection unit 100 depends on the transmission mode. Correlation between the set correlation signal and the received signal is performed to detect the highest correlation coefficient in the transmission mode.

As such, the mode detector 100 detects the transmission mode of the received signal, thereby allowing the calculation unit 200 to calculate the average power in the detection bands D0 to D6 classified according to the transmission mode and the occupied bandwidth parameter.

Meanwhile, in the DRM standard, subcarrier positions K _min to K _max according to transmission mode and occupied bandwidth parameters are shown in Table 1 above. As shown in FIG. 2, the positions of the subcarriers when the transmission mode is A exist at 2 to 102 when the occupied bandwidth parameter is 0 (So 0), and are 2 to 114 when the occupied bandwidth parameter is 1 (So 1). Present at -102 to 102 when the occupied bandwidth parameter is 2 (So 2), present at -114 to 114 when the occupied bandwidth parameter is 3 (So 3), and when the occupied bandwidth parameter is 4 (So 4) Present at -98 to 314, and at -110 to 350 when the occupied bandwidth parameter is 5 (So 5).

The calculating unit 200 calculates the average power in the detection bands D0 to D6 close to K _min to K _max among the positions of the subcarriers. That is, the calculation unit 200 calculates the average power γ _im of the subcarriers of the received signal in the plurality of detection bands D1 to D6 set according to the detected transmission mode by Equation 1 below.

Where L is the number of OFDM symbols of the received signal, Y _l (k) is the k-th subcarrier signal of the l-th received OFDM symbol, ε _l is an integer multiple subcarrier offset, S _im is the index of the subcarrier, and V is the subcarrier within the detection band. Is the number of.

In this case, the detection bands D0 to D6 include at least one equal number of subcarriers, and may be set by the mode detector 100 or the calculator 200. For example, the detection bands D0 to D6 can be set in the following two ways, and the first method is to set the detection bands D0 to D6 so as not to overlap each occupying bandwidth parameter in each transmission mode. to be. The second method is to set the detection bands D0 to D6 such that binary numbers formed as a result of comparing the average power of the subcarriers calculated for each occupied bandwidth parameter and threshold in each transmission mode do not overlap.

In the following description, the mode detector 100 or the calculation unit 200 sets the detection band 4 (So 4), the detection band 5 (So 5), and the detection band 6 (So 6) in the first manner, and the detection band 0 ( So 0), detection band 1 (So 1), detection band 2 (So 2), and detection band 3 (So 3) will be described based on the case of estimating the occupied bandwidth parameter by setting in a second manner.

2, in transmission mode A, detection band 0 (So 0) set in the first manner exists between -102 and -2, and detection band 1 (So 1) exists below -114, and detection band 2 ( So 2) is between 102 and 114, and detection band 3 (So 3) is above 114. In the transmission mode A, the detection band 4 (So 4) set in the second manner exists between 2 and 314, the detection band 5 (So 5) exists between 314 and 350, and the detection band 6 (So 6) It can be seen that there is more than 350.

The parameter estimator 300 estimates the occupied bandwidth parameter of the received signal using the average power of the detection bands D0 to D6.

The parameter estimator 300 includes a first estimator (not shown) for estimating whether the occupied bandwidth parameter is 4 or 5, and a second estimator (not shown) for estimating whether the occupied bandwidth parameter is 0 to 3. do.

The first estimator (not shown) calculates the average powers γ ₄ to γ ₆ calculated in the detection band 4 (So 4) to the detection band 6 (So 6) set in the first manner in Equation 2 or 3 below. Substitute the estimated bandwidth parameters.

Specifically, the first estimating unit (not shown) substitutes γ ₄ to γ ₆ into Equations 2 and 3, respectively, and estimates that the occupied bandwidth parameter is 5 when the condition of Equation 2 is true. If the condition of Equation 2 is false and the condition of Equation 3 is true, it is assumed that the occupied bandwidth parameter is four. In this case, since γ ₆ is an average power calculated in a region where no subcarriers exist, the first estimator (not shown) finally estimates the occupied bandwidth parameter by comparing γ ₄ or γ ₅ with a threshold value Γ.

The second estimator (not shown) occupies the bandwidth according to the result of comparing the threshold value with the average power γ ₁ to γ ₃ calculated in the detection band 0 (So 0) to the detection band 3 (So 3) in the second manner. Estimate the parameter. Here, γ ₁ to γ ₃ is represented by binary 0 when less than the predetermined threshold value, and represented by binary 1 when it is above a predetermined threshold for convenience of explanation.

In detail, the second estimator (not shown) estimates that the occupied bandwidth parameter is 0 (So 0) when a binary composed of a combination of γ ₁ γ ₀ γ ₂ γ ₃ is 0 0 0 0 as shown in FIG. 2. If 0 0 1 0, the occupied bandwidth parameter is assumed to be 1 (So 1). If 0 1 0 0, the occupied bandwidth parameter is assumed to be 2 (So 2). If 1 1 1 0, the occupied bandwidth parameter is 3 It is assumed to be (So 3). In this case, the second estimator (not shown) may estimate the occupied bandwidth parameter by using the sum of γ ₁ γ ₀ γ ₂ γ ₃ .

Alternatively, the second estimator (not shown) may estimate any one of the occupied bandwidth parameters 0, 1, 2, and 3 according to the calculation results of Equations 4 and 5 below.

Here, γ ₀₀ (= γ ₀ ), γ ₀₁ (= γ ₁ ), γ ₁₀ (= γ ₂ ), γ ₁₁ (= γ ₃ ) may be calculated by Equation 1 above.

Meanwhile, in the case of the transmission mode C and the transmission mode D, only the occupied bandwidth parameters 3 and 5 exist, so that the occupied bandwidth parameters can be estimated using only Equation 2. That is, in case of transmission mode C and transmission mode D, the parameter estimator 300 estimates that the occupied bandwidth parameter is 5 when the condition of Equation 2 is satisfied and does not satisfy the condition of Equation 2; It can be assumed that the occupied bandwidth parameter is three.

As such, the present invention has an advantage in that the occupied bandwidth parameter can be estimated using average power, thereby simplifying synchronization.

Hereinafter, an apparatus 11 for occupying bandwidth of a DRM receiver according to another embodiment of the present invention will be described with reference to FIG. 3.

3 is a block diagram illustrating an apparatus 11 for occupying bandwidth of a DRM receiver according to another embodiment of the present invention. Hereinafter, for convenience of description, a detailed description of the components having the same function as the components of FIG. 2 will be omitted.

As shown in FIG. 3, the occupied bandwidth estimation apparatus 11 of the DRM receiver according to another embodiment of the present invention includes a Fourier transform unit (not shown), a mode detector 101, an operation unit 201, and a parameter estimator ( 301, a channel estimator 401, and a decoder 501.

The Fourier transform unit (not shown) performs a Fourier transform on the OFDM symbols in the time domain to convert them to the frequency domain.

The channel estimator 401 estimates a channel at the position of the subcarrier according to the transmission mode and the occupied bandwidth parameter. Alternatively, the channel estimator 401 may restore the DRM packet in the estimated channel.

The decoder 501 receives a DRM packet and decodes a fast access channel (FAC), a service description channel (SDC), and a main service channel (MSC) data section, respectively, to support a digital radio broadcast service.

As described above, according to the present invention, the occupied bandwidth parameter can be estimated at almost the same time as synchronization, thereby shortening the synchronization time, and the occupied bandwidth parameter can be estimated even when an error occurs in the FAC data section.

Hereinafter, a method for estimating occupied bandwidth of a DRM receiver according to an embodiment of the present invention will be described with reference to FIGS. 1 and 4.

4 is a flowchart illustrating a method for estimating occupied bandwidth of a DRM receiver according to an embodiment of the present invention.

First, the occupied bandwidth estimation apparatus 10 of the DRM receiver calculates an average power of subcarriers of the received signal in a plurality of detection bands D0 to D6 set according to a transmission mode of the received signal (S410).

In this case, since the position of the subcarriers used is different according to the transmission mode and the occupied bandwidth parameter, a process of estimating the transmission mode is necessary before estimating the occupied bandwidth parameter.

Therefore, the occupied bandwidth estimating apparatus 10 of the DRM receiver correlates a predetermined correlation signal and a received signal according to a transmission mode to detect a transmission mode of the received signal, It is to calculate the average power of subcarriers.

In this case, as described above, the occupied bandwidth estimation apparatus 10 of the DRM receiver may set the detection bands D0 to D6 so as not to overlap each occupied bandwidth parameter in each transmission mode, and in each transmission mode, each transmission mode The detection bands D0 to D6 may be set such that binary numbers formed as a result of comparing the average power of the subcarriers calculated for each occupied bandwidth parameter with a threshold are not overlapped with each other.

Next, the occupied bandwidth estimation apparatus 10 of the DRM receiver estimates the occupied bandwidth parameter of the received signal using the calculated average power of the detection bands D0 to D6 (S420).

Here, the occupied bandwidth estimating apparatus 10 of the DRM receiver may estimate the occupied bandwidth parameter by using the average power calculated in the detection bands D0 to D6 set in the first scheme or the second scheme.

Hereinafter, a method for estimating occupied bandwidth of a DRM receiver according to another embodiment of the present invention will be described with reference to FIGS. 3 and 5.

5 is a flowchart illustrating a method for estimating occupied bandwidth of a DRM receiver according to another embodiment of the present invention.

First, the occupied bandwidth estimation apparatus 11 of the DRM receiver moves the received signal to the frequency domain by performing Fast Fourier Transform (S510).

Subsequently, the occupied bandwidth estimating apparatus 11 of the DRM receiver may correlate the correlation signal and the reception signal preset according to each transmission mode to detect the transmission mode of the reception signal (S520).

Next, the occupied bandwidth estimation apparatus 11 of the DRM receiver calculates an average power of subcarriers of the received signal in the plurality of detection bands D0 to D6 set according to the transmission mode of the received signal (S530).

Next, the occupied bandwidth estimating apparatus 11 of the DRM receiver estimates the occupied bandwidth parameter by comparing the average power of the detection bands D0 to D6 with a predetermined threshold value (S540).

At this time, when the occupied bandwidth estimation apparatus 11 of the DRM receiver is set such that the detection bands D0 to D6 do not overlap for each occupied bandwidth parameter in each transmission mode, the average power of the detection bands D0 to D6 is determined. The occupied bandwidth parameter can be estimated by comparison with the threshold.

Alternatively, the occupied bandwidth estimating apparatus 11 of the DRM receiver may perform detection bands D0 to D6 in each transmission mode so that binary numbers formed as a result of comparing the average power of the subcarriers calculated for each occupied bandwidth parameter and a threshold are not overlapped. When this is set, it is possible to estimate the occupied bandwidth parameter by using the binary or the sum of the binary numbers composed of the respective binary combinations.

The occupied bandwidth estimation apparatus 11 of the DRM receiver estimates a channel to recover the DRM packet (S540).

Subsequently, the occupied bandwidth estimation apparatus 11 of the DRM receiver restores the DRM packet in the estimated channel and decodes the FAC, SDC, and MSC of the DRM packet to provide a digital radio broadcast service (S550).

In the above, the configuration of the present invention has been described in detail with reference to the accompanying drawings, which are merely examples, and those skilled in the art to which the present invention pertains various modifications and changes within the scope of the technical idea of the present invention. Of course this is possible. Therefore, the protection scope of the present invention should not be limited to the above-described embodiment, but should be defined by the following claims.

1 is a block diagram showing an occupied bandwidth estimation apparatus of a DRM receiver according to an embodiment of the present invention.

2 illustrates occupied bandwidth spectrum of a DRM receiver according to an embodiment of the present invention.

3 is a block diagram illustrating an apparatus for estimating occupied bandwidth of a DRM receiver according to another embodiment of the present invention.

4 is a flowchart illustrating a method for estimating occupied bandwidth of a DRM receiver according to an embodiment of the present invention.

5 is a flowchart illustrating a method for estimating occupied bandwidth of a DRM receiver according to another embodiment of the present invention.

Claims (23)

A mode detector for detecting a transmission mode of the received signal; A calculating unit calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to the transmission mode; And A parameter estimator estimating an occupied bandwidth parameter of the received signal using the average power of the detection band Occupied bandwidth estimation device of the Digital Radio Mondiale (DRM) receiver comprising a. The method of claim 1, wherein the mode detection unit, And occupying a predetermined correlation signal according to the reception signal and the transmission mode to detect the transmission mode. The method of claim 1, wherein the band of the used subcarrier, Occupied bandwidth estimation apparatus of the DRM receiver is divided according to the transmission mode and the occupied bandwidth parameter. The method of claim 3, wherein the detection band, In each transmission mode, it is set not to overlap for each occupied bandwidth parameter, And the parameter estimating unit estimates the occupied bandwidth parameter by comparing the average power of the detection band with a threshold. The method of claim 3, wherein the detection band, In each transmission mode, a binary number consisting of a result of comparing the average power of a subcarrier calculated by each occupied bandwidth parameter with a threshold value is set so as not to overlap. And the parameter estimating unit estimates the occupied bandwidth parameter using the binary number. A mode detector for detecting a transmission mode of the received signal; A calculating unit calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to the transmission mode; A parameter estimator for estimating an occupied bandwidth parameter of the received signal using the average power of the detection band; And A channel estimator estimating a channel at the position of the subcarrier of the transmission mode and the occupied bandwidth parameter Occupied bandwidth estimation device of the Digital Radio Mondiale (DRM) receiver comprising a. The method of claim 6, wherein the mode detection unit, And occupying a predetermined correlation signal according to the reception signal and the transmission mode to detect the transmission mode. The method of claim 6, wherein the band of the used subcarrier, Occupied bandwidth estimation apparatus of the DRM receiver is divided according to the transmission mode and the occupied bandwidth parameter. The method of claim 8, wherein the detection band, In each transmission mode, it is set not to overlap for each occupied bandwidth parameter, And the parameter estimating unit estimates the occupied bandwidth parameter by comparing the average power of the detection band with a threshold. The method of claim 8, wherein the detection band, In each transmission mode, a binary number consisting of a result of comparing the average power of a subcarrier calculated by each occupied bandwidth parameter with a threshold value is set so as not to overlap. And the parameter estimating unit estimates the occupied bandwidth parameter using the binary number. The method of claim 6, A packet detector for detecting a DRM packet in the channel; And Decoder for decoding the fast access channel (FAC), service description channel (SDC) and main service channel (MSC) of the DRM packet Occupied bandwidth estimation device of the DRM receiver further comprising. Calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to a transmission mode of the received signal; And Estimating the occupied bandwidth parameter of the received signal using the average power of the detection band Occupied bandwidth estimation method of the Digital Radio Mondiale (DRM) receiver comprising a. The method of claim 12, Detecting the transmission mode by correlating the received signal with a predetermined correlation signal according to the transmission mode; Occupying bandwidth estimation method further comprising. The method of claim 12, wherein the band of the used subcarrier, The occupied bandwidth estimation method of the DRM receiver, which is classified according to the transmission mode and the occupied bandwidth parameter. The method of claim 12, wherein the calculating step, Setting a detection band for calculating an average power for each transmission mode; And Calculating average power of the set subcarrier group Occupying bandwidth estimation method of the DRM receiver comprising a. The method of claim 15, wherein the detection band, In each transmission mode, occupied bandwidth estimation method of the DRM receiver is set so as not to overlap for each occupied bandwidth parameter. The method of claim 16, wherein the detection band, A method of estimating occupied bandwidth of a DRM receiver in which a binary composed of a result of comparing an average power of a subcarrier calculated for each occupied bandwidth parameter and a threshold in each transmission mode is not overlapped. Calculating an average power of subcarriers of the received signal in a plurality of detection bands set according to a transmission mode of the received signal; Estimating the occupied bandwidth parameter of the received signal using the average power of the detection band; And Estimating a channel at the location of the subcarrier in the transmission mode and the occupied bandwidth parameter Occupied bandwidth estimation method of the Digital Radio Mondiale (DRM) receiver comprising a. The method of claim 18, Detecting the transmission mode by correlating the received signal with a predetermined correlation signal according to the transmission mode; Occupying bandwidth estimation method further comprising. The method of claim 18, wherein the band of the used subcarrier, The occupied bandwidth estimation method of the DRM receiver, which is classified according to the transmission mode and the occupied bandwidth parameter. 19. The apparatus of claim 18, wherein when the detection band is set so as not to overlap for each occupied bandwidth parameter in each transmission mode, And estimating the occupied bandwidth parameter by comparing the average power of the detection band with a threshold. 19. The method of claim 18, wherein when the detection band is set so that the binary numbers formed as a result of comparing the average power and the threshold of the subcarriers calculated for each occupied bandwidth parameter in the respective transmission modes, Wherein the estimating step estimates the occupied bandwidth parameter using the binary number. The method of claim 18, Recovering a DRM packet in the channel; And Providing a DRM service by decoding a fast access channel (FAC), a service description channel (SDC), and a main service channel (MSC) of the DRM packet, respectively; Occupying bandwidth estimation method of the DRM receiver further comprising.

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