KR100467630B1 - Method and apparatus for demodulating ground wave - Google Patents

Abstract

A method and apparatus for terrestrial signal demodulation are disclosed. The method includes receiving a terrestrial signal modulated by different digital modulation schemes according to at least one of a cable broadcaster and a channel to determine a digital modulation scheme for each channel, and storing the determined digital modulation scheme for each channel as modulation information and to a user. And demodulating the digital modulation scheme for the selected channel from the modulation information, and demodulating the modulated terrestrial signal for the selected channel into a digital demodulation scheme corresponding to the recognized digital modulation scheme. Therefore, even if the user is ignorant of the modulation scheme, the cable broadcaster can automatically find the modulation scheme of the terrestrial signal transmitted and have the effect of accurately demodulating the terrestrial signal.

Description

Terrestrial signal demodulation method and apparatus {Method and apparatus for demodulating ground wave}

The present invention relates to a device such as digital television (DTV :: DigitalTeleVision) for demodulating a terrestrial signal, and more particularly, to a method and apparatus for demodulating a terrestrial signal using an automatically found channel-by-channel digital modulation scheme. .

A broadcasting station (not shown) modulates a terrestrial signal such as a digital television signal lamp using an 8-level residual sideband (VSB) modulation scheme, and transmits the modulated terrestrial signal to a cable broadcaster (not shown). do. Here, the cable broadcaster may perform quadrature amplitude modulation (QAM) according to its own situation before transmitting the modulated terrestrial signal transmitted to the broadcasting station to the user's television receiver through the cable. In the case of 8VSB modulation, the frequency band of each channel is 6MHz, which is very large, but the frequency band in which the channel can be used is limited. Therefore, the cable broadcaster modulates quadrature amplitude the modulated terrestrial signal transmitted from the broadcaster. Or, if the resources of the cable broadcaster itself is limited, for example, if the cable broadcaster has equipment for transmitting only the quadrature amplitude modulated signal, the cable broadcaster modulates the modulated terrestrial signal again in a QAM scheme.

In this way, the cable broadcaster may transmit the signal received from the broadcasting station as it is without modification to the home or the quadrature amplitude modulation by the 8VSB modulation method. Therefore, each user using a home television receiver must recognize the modulated form of the signal received from the cable broadcaster and set the appropriate demodulation method before demodulating the modulated terrestrial signal received from the cable broadcaster.

However, since most users are ignorant of the modulation method of the terrestrial signal, there is a problem that an appropriate demodulation method cannot be set. Because of this, the user cannot properly demodulate the terrestrial signal, for example, a digital television signal, transmitted from the cable broadcaster. Or, in order to properly demodulate a digital television signal, the user has to manually change the demodulation scheme each time in order to find an appropriate demodulation scheme.

An object of the present invention is to provide a method for demodulating a terrestrial signal which can be used to automatically find a digital modulation scheme of a channel selected by a user and to demodulate a modulated terrestrial signal.

Another object of the present invention is to provide a terrestrial signal demodulation device that can be used to automatically find a digital modulation scheme of a channel selected by a user and to demodulate a modulated terrestrial signal.

1 is a flowchart for explaining a terrestrial signal demodulation method according to the present invention.

FIG. 2 is a flowchart for explaining an exemplary embodiment of the present invention with respect to the tenth step shown in FIG. 1.

3 is a flowchart for explaining an embodiment of the present invention with respect to the twelfth step shown in FIG.

4 is a block diagram of a terrestrial signal demodulation device according to the present invention.

5 is a block diagram of a preferred embodiment of the present invention of the demodulation control unit shown in FIG.

6 is a block diagram of an embodiment according to the present invention of the modulation scheme recognition and demodulator shown in FIG.

According to the present invention, a method for demodulating a terrestrial signal according to the present invention includes receiving a terrestrial signal modulated by another digital modulation scheme by at least one of a cable broadcaster and a channel, and determining a digital modulation scheme for each channel, and determining the determined digital per channel. Storing a modulation scheme as modulation information and recognizing and recognizing a digital modulation scheme for the channel selected by the user from the modulation information, and digitally demodulating the modulated terrestrial signal for the selected channel corresponding to the recognized digital modulation scheme. Demodulating in a fashion.

In accordance with another aspect of the present invention, a terrestrial signal demodulation device for receiving a terrestrial signal modulated by another digital modulation scheme according to at least one of a cable broadcaster and a channel determines a digital modulation scheme for each channel, and determines the determined channel for each channel. A demodulation control unit for storing the digital modulation scheme as modulation information and a digital modulation scheme for the channel selected by the user from the modulation information read out from the demodulation control unit, and recognizing the modulated terrestrial signal for the selected channel. It is preferable that a modulation scheme recognition and demodulation unit demodulate with a digital demodulation scheme corresponding to the digital modulation scheme.

Hereinafter, a terrestrial signal demodulation method according to the present invention will be described with reference to the accompanying drawings.

1 is a flowchart illustrating a method of demodulating a terrestrial signal according to the present invention, and includes demodulating a signal of a channel selected by a user (10th and 12th steps) using a digital modulation method obtained for each channel.

Referring to FIG. 1, in the method for demodulating a terrestrial signal according to the present invention, first, a digital modulation scheme for each channel is determined by receiving a terrestrial signal modulated by another digital modulation scheme by at least one of a cable broadcaster and a channel. The determined digital modulation scheme for each channel is stored as modulation information (step 10). For example, the terrestrial signal may be modulated by a different digital modulation scheme for each cable broadcaster, may be modulated with a different digital modulation scheme for each channel, or may be modulated with a different digital modulation scheme for each cable broadcaster and channel. For example, cable broadcasters scattered by region may modulate a signal in different ways and transmit it to each user.

Here, the digital modulation method is i (where i = 2 ⁿ and n is a positive integer including 0.) Level residual sideband (VSB) (i-VSB) modulation method or j (where j is 8 Or 16) level quadrature amplitude modulation (QAM) (i-QAM). In addition, the cable broadcaster means a broadcaster that receives a terrestrial signal modulated by an i-VSB modulation method from a broadcasting station (not shown) and transmits the signal to a user through a cable.

FIG. 2 is a flowchart illustrating an embodiment of the present invention with respect to the tenth step shown in FIG. 1, in which a modulated terrestrial signal of a corresponding channel is received (20th and 22nd steps) and terrestrial wave. Obtaining and storing the digital modulation scheme of the channel receiving the signal (24th to 28th steps).

First, it is determined whether automatic search of a digital modulation method is required (step 20). That is, it is determined whether the user requests to search for a digital modulation scheme for each channel. For example, if the digital modulation scheme is automatically set to be performed when the user requests the automatic setting of the channel, it is determined whether the automatic setting of the channel is required by the user to perform the twentieth step.

If it is determined that automatic search of the digital modulation scheme is not required, the flow proceeds to step 20. However, if it is determined that automatic search of the digital modulation scheme is required, the modulated terrestrial signal for the kth channel (where k is a positive integer of 1 or more) is received (step 22). For example, if a cable broadcaster has K channels, it receives a modulated terrestrial signal for channel k, which is any one of the K channels.

After the twenty-second step, using the received modulated terrestrial signal, it is determined whether the digital modulation method for the k-th channel is an i-level residual sideband modulation method or a j-level quadrature amplitude modulation method (step 24). To this end, terrestrial signals are detected when demodulating the modulated terrestrial signals for the k-th channel using the i-VSB modulation scheme. Otherwise, the modulated terrestrial signals for the k-th channel are demodulated using the j-QAM scheme. When the terrestrial signal is detected can be determined.

If it is determined that the digital modulation scheme for the kth channel is one of an i-level residual sideband modulation scheme and a j-level quadrature amplitude modulation scheme, the digital modulation scheme determined for the k-th channel is stored as modulation information (the Step 26). That is, when it is determined that the digital modulation scheme for the kth channel is an i-VSB modulation scheme, the digital modulation scheme for the kth channel stores modulation information indicating that the digital modulation scheme for the kth channel is i-VSB modulation scheme. Or, if it is determined that the digital modulation scheme for the k-th channel is a j-QAM modulation scheme, the digital modulation scheme for the k-th channel stores modulation information indicating that it is a j-QAM modulation scheme.

However, it is determined that the digital modulation scheme for the k-th channel is neither the i-level residual sideband modulation scheme nor the j-level quadrature amplitude modulation scheme, or after step 26, it is determined whether there are any channels for which the digital modulation scheme is not determined. (Step 28).

If it is determined that there is a channel for which the digital modulation scheme is not determined, the modulated terrestrial signal for the next channel for which the digital modulation scheme is not determined is received (step 22). However, if it is determined that no channel for which the digital modulation scheme is determined does not exist, the tenth step shown in FIG. 2 is terminated and the process proceeds to the twelfth step.

After the tenth step, the digital modulation scheme for the channel selected by the user is found and recognized from the stored modulation information, and the modulated terrestrial signal for the selected channel is demodulated by the digital demodulation scheme corresponding to the recognized digital modulation scheme (Twelfth). step). At this time, the demodulated terrestrial signal may be a digital television (DTV) signal.

FIG. 3 is a flowchart illustrating an embodiment of the present invention with respect to the twelfth step shown in FIG. 1, wherein when a user selects a channel, finding a digital modulation scheme for the selected channel (40th and 42nd). And demodulating the modulated terrestrial signal using a digital demodulation scheme corresponding to the found digital modulation scheme (step 44).

After the tenth step, it is determined whether the user selects a channel (step 40). When a user wants to see a desired program in a broadcast transmitted from a cable broadcaster, the user may select a channel corresponding to the program.

If it is determined that the user has not selected a channel, the process proceeds to step 40. However, if it is determined that the user has selected the channel, the digital modulation scheme for the selected channel is found and recognized from the stored modulation information (step 42). For example, when the user selects the k-th channel described above, the modulation information is searched and recognized to determine what the digital modulation scheme is for the k-th channel.

After step 42, the modulated terrestrial signal for the selected channel is demodulated in a digital demodulation method corresponding to the recognized digital modulation method (step 44). For example, if it is recognized that the digital modulation scheme for the selected k-th channel is the i-VSB modulation scheme, the modulated terrestrial signal is demodulated by the i-VSB demodulation scheme.

Hereinafter, with reference to the accompanying drawings the configuration and operation of the terrestrial signal demodulation device according to the present invention will be described as follows.

4 is a block diagram of a terrestrial signal demodulation device according to the present invention, and includes a demodulation control unit 60 and a modulation scheme recognition and demodulation unit 62.

It serves to perform the method shown in FIG. 1 shown in FIG.

In order to perform the tenth step, the demodulation control unit 60 receives a terrestrial signal modulated by another digital modulation scheme for each of at least one of a cable broadcaster and a channel through an input terminal IN1 to determine a digital modulation scheme for each channel, and is determined. The digital modulation scheme for each channel is stored as modulation information, and the stored modulation information is output to the modulation scheme recognition and demodulator 62 in response to the request of the modulation scheme recognition and demodulator 62.

5 is a block diagram of a preferred embodiment of the present invention of the demodulation control unit 60 shown in FIG. 4, which includes a signal receiver 80, a modulation scheme determination unit 82, a storage unit 84, and a channel presence checker 86 ) And a user request inspection unit 88.

The demodulation control unit 60 illustrated in FIG. 5 performs the tenth step illustrated in FIG. 2.

In order to perform the twenty-second step, the signal receiver 80 of the demodulation controller 60 shown in FIG. 5 receives a modulated terrestrial signal for the k-th channel through the input terminal IN3 and receives the received modulated terrestrial signal. It outputs to the modulation scheme recognition and demodulation section 62 through the output terminal OUT2, and also to the modulation scheme determination section 82.

In order to perform the twenty-fourth step, the modulation scheme determination unit 82 uses the received modulated terrestrial signal input from the signal receiving unit 80 so that the digital modulation scheme for the k-th channel is an i-level residual sideband modulation scheme. Otherwise, it is determined whether or not the j-level quadrature amplitude modulation method is used, and the determined result is output to the storage unit 84. For example, the modulation scheme determination unit 82 detects a terrestrial signal when demodulating the modulated terrestrial signal for the k-th channel input from the signal receiver 80 using the i-VSB modulation scheme. When demodulating the modulated terrestrial signal using the j-QAM scheme, it is possible to determine whether the terrestrial signal is detected or whether the terrestrial signal is not detected when the demodulation is performed using the i-VSB modulation scheme and the j-QAM scheme. At this time, if it is determined that no terrestrial signal is detected when demodulating using the i-VSB modulation method and the j-QAM method, the modulation method determination unit 82 outputs the determined result to the channel presence checker 86. do. However, the modulation method determination unit 82 determines that the terrestrial signal is detected when demodulating the modulated terrestrial signal for the k-th channel input from the signal receiving unit 80 using the i-VSB modulation method, or k-th. When it is determined that the terrestrial signal is detected when demodulating the modulated terrestrial signal for the channel using the j-QAM method, the determined result is output to the storage unit 84.

In order to perform the twenty-sixth step, the storage unit 84 stores the determined digital modulation scheme for the k-th channel, which is the determined result input from the modulation scheme determination unit 82, as modulation information, and recognizes and decodes the modulation scheme. When a signal requesting reading of the modulation information from the grandfather 62 is input through the input terminal IN5, the stored modulation information is output to the modulation scheme recognition and demodulator 62 through the output terminal OUT3. For example, the storage unit 84 may be implemented in the form of a lookup table (not shown) having the channel number k as an address and a digital modulation scheme for the kth channel as data. In this case, the look-up table implementing the storage unit 84 outputs the modulation scheme recognition through the input terminal IN5 and the corresponding data stored in the address input from the demodulator 62, that is, the channel number, that is, the digital modulation scheme. Through the terminal OUT3, the modulation scheme recognition and demodulation section 62 is output.

In order to perform the twenty-eighth step, the channel presence checker 86 checks whether there is a channel whose digital modulation method is not determined in response to the determined result input from the modulation method determination unit 86, and checks the result. Is output to the signal receiving unit 80 as the first control signal C1. For example, when the channel presence checker 86 recognizes that the digital modulation method for the k-th channel is neither the i-VSB modulation method nor the j-QAM method through the determined result inputted from the modulation method determination unit 82, In addition, it checks whether there is a channel whose digital modulation scheme is not determined.

At this time, the signal receiver 80 receives the modulated terrestrial signal for the next channel for which the digital modulation method is not determined through the input terminal IN3 in response to the first control signal C1 input from the channel presence checker 86. Receive. For example, if it is recognized through the first control signal C1 that a channel for which the digital modulation scheme is not determined exists, the signal receiver 80 receives a modulated terrestrial signal for the next channel.

According to the present invention, the demodulation control unit 60 shown in FIG. 5 may further provide a user request inspection unit 88 to perform the twentieth step. Here, the user request check unit 88 checks whether the automatic search of the digital modulation method is required by the user, and outputs the checked result to the signal receiving unit 80 as the second control signal C2. To this end, the user request inspection unit 88 is operated by a user who requests automatic search of a digital modulation method, and is generated from a key operation unit (not shown) and controls the second in response to a user request signal input through the input terminal IN4. Signal C2 may be generated.

At this time, the signal receiver 80 receives the modulated terrestrial signal for the k-th channel through the input terminal IN3 in response to the second control signal C2 input from the user request check unit 88. For example, when the signal receiver 80 recognizes that the user requires the automatic search of the digital modulation scheme through the second control signal C2, the signal receiver 80 receives the modulated terrestrial signal for the k-th channel through the input terminal IN3.

On the other hand, in order to perform the twelfth step, the modulation scheme recognition and demodulation unit 62 requests the demodulation controller 60 for the digital modulation scheme for the channel selected by the user from the modulation information read out from the demodulation controller 60. Find and recognize, input the modulated terrestrial signal for the selected channel through the input terminal IN2, demodulate the input modulated terrestrial signal with a digital demodulation method corresponding to the recognized digital modulation method, and output the demodulated result to the output terminal OUT1. Output through

FIG. 6 is a block diagram of an embodiment of the present invention of the modulation scheme recognition and demodulator 62 shown in FIG. 4, which is composed of a channel selection checker 100, a scheme recognizer 102, and a demodulator 104. As shown in FIG. .

The modulation scheme recognition and demodulation unit 62 shown in FIG. 6 performs a twelfth step shown in FIG.

In order to perform the 40th step shown in FIG. 3, the channel selection checker 100 checks whether the user selects a channel, and outputs the checked result to the method recognition unit 102 as a third control signal C3. do. To this end, the channel selection check unit 100 may be generated from a key operation unit operated when the user selects a channel, and may generate the third control signal C3 in response to the channel selection signal input through the input terminal IN6. .

In order to perform the 42nd step, the method recognizer 102 demodulates the modulation information in order to find a digital modulation method for the selected channel, in response to the third control signal C3 input from the channel selection checker 100. Outputs the signal required to the control unit 60 through the output terminal OUT4, reads out the digital modulation scheme for the selected channel from the demodulation control unit 60, finds and recognizes from the modulation information input through the input terminal IN7, and recognizes the digital The modulation scheme is output to the demodulator 104. For example, if it is recognized that the user selects a channel through the third control signal C3, the method recognition unit 102 finds and recognizes a digital modulation method for the selected channel.

In order to perform the 44th step, the demodulator 104 performs a digital demodulation scheme corresponding to the recognized digital modulation scheme inputted from the scheme recognition unit 102 to the modulated terrestrial signal for the selected channel input through the input terminal IN8. The demodulated result is output through the output terminal OUT5. In this case, the modulated terrestrial signal input to the demodulator 104 through the input terminal IN8 may be input from the signal receiver 80 of FIG. 5 of the demodulation controller 60.

As described above, the terrestrial signal demodulation method and apparatus according to the present invention determine a digital modulation scheme for each channel in advance before selecting a channel and store the digital modulation scheme for each channel, and then store the modulation scheme corresponding to the channel selected by the user. Since the modulation information can be automatically recognized from the stored modulation information, even if the user is ignorant of the modulation method, the cable broadcaster can automatically find the modulation method of the terrestrial signal transmitted from the cable broadcaster and accurately demodulate the terrestrial signal.

Claims (11)

(a) receiving a terrestrial signal modulated by another digital modulation scheme by at least one of a cable broadcaster and a channel to determine a digital modulation scheme for each channel, and storing the determined digital modulation scheme for each channel as modulation information; And (b) finding and recognizing a digital modulation scheme for the channel selected by the user from the modulation information, and demodulating the modulated terrestrial signal for the selected channel with a digital demodulation scheme corresponding to the recognized digital modulation scheme. Terrestrial signal demodulation method, characterized in that. 2. The method of claim 1, wherein the digital modulation scheme is i (where i = 2 ⁿ and n is a positive integer including 0) level residual sideband modulation scheme or j (where j is 8 or 16) level A terrestrial signal demodulation method characterized in that it is a quadrature amplitude modulation method. 2. The method of claim 1, wherein the demodulated terrestrial signal is a digital television signal. The method of claim 2, wherein step (a) (a1) receiving the modulated terrestrial signal for a kth channel, where k is a positive integer of at least 1; (a2) using the received modulated terrestrial signal to determine whether the digital modulation scheme for the k-th channel is one of the i-level residual sideband modulation scheme and the j-level quadrature amplitude modulation scheme; (a3) if it is determined that the digital modulation scheme for the k-th channel is one of the i-level residual sideband modulation scheme and the j-level quadrature amplitude modulation scheme, the determined digital modulation scheme for the k-th channel is determined. Storing as modulation information; And (a4) It is determined that the digital modulation scheme for the k-th channel is neither the i level residual sideband modulation scheme nor the j level quadrature amplitude modulation scheme, or after step (a3), the digital modulation scheme is not determined. Determining whether a channel exists, In step (a1), if it is determined that a channel for which the digital modulation scheme is not determined exists, receiving the modulated terrestrial signal for the next channel for which the digital modulation scheme is not determined. . The method of claim 4, wherein step (a) And determining whether the automatic modulation of the digital modulation scheme is required, and if the automatic detection of the digital modulation scheme is required, proceeding to the step (a1). The method of claim 1, wherein step (b) Determining whether the user has selected a channel; If it is determined that the user has selected the channel, finding and recognizing a digital modulation scheme for the selected channel from the modulation information; And And demodulating the modulated terrestrial signal for the selected channel in the digital demodulation scheme corresponding to the recognized digital modulation scheme. A demodulation control unit configured to receive a terrestrial signal modulated by another digital modulation scheme for at least one of a cable broadcaster and a channel, determine a digital modulation scheme for each channel, and store the determined digital modulation scheme for each channel as modulation information; And The digital modulation scheme for the channel selected by the user is found and recognized from the modulation information read from the demodulation controller, and the modulated terrestrial signal for the selected channel is demodulated in the digital demodulation scheme corresponding to the recognized digital modulation scheme. A terrestrial signal demodulation device comprising a modulation scheme recognition and demodulation unit. 8. The method of claim 7, wherein the digital modulation scheme is i (where i = 2 ⁿ and n is a positive integer including 0) level residual sideband modulation scheme or j (where j is 8 or 16) level A terrestrial signal demodulation device characterized in that it is a quadrature amplitude modulation method. The method of claim 8, wherein the demodulation control unit A signal receiver for receiving the modulated terrestrial signal for a kth channel, wherein k is a positive integer of 1 or more; Using the received modulated terrestrial signal input from the signal receiving unit, it is determined whether the digital modulation scheme for the k-th channel is the i-level residual sideband modulation scheme or the j-level quadrature amplitude modulation scheme, A modulation scheme determination unit for outputting the determined result; A storage unit which stores the determined digital modulation scheme for the k-th channel, which is the determined result input from the modulation scheme determination unit, as the modulation information; And In response to the determined result input from the modulation method determination unit, checking whether there is a channel for which the digital modulation method has not been determined, and including a channel presence checking unit for outputting the checked result as a first control signal, And the signal receiving unit receives the modulated terrestrial signal for the next channel for which the digital modulation scheme is not determined, in response to the first control signal. The method of claim 9, wherein the demodulation control unit And a user request check section for checking whether the digital modulation scheme automatic search is required by the user, and outputting the checked result as a second control signal, And the signal receiving unit receives the modulated terrestrial signal for the k-th channel in response to the second control signal. The method of claim 7, wherein the modulation scheme recognition and demodulation unit A channel selection checker which checks whether the user selects a channel and outputs the checked result as a third control signal; A method recognizing unit for recognizing and recognizing a digital modulation method for the selected channel from the modulation information read from the demodulation control unit in response to the third control signal; And And a demodulator for demodulating the modulated terrestrial signal for the selected channel by the digital demodulation method corresponding to the recognized digital modulation scheme inputted from the scheme recognition unit.