KR0134294B1 - Method for removing noise of ghost cancel reference - Google Patents

Abstract

The present invention is to reduce the synchronous operation time by using a previous data replacement means having a memory map, for this purpose, by processing the input signal in a plurality of field units to perform a synchronous addition, and then sequentially stored in the memory means When the synchronization of the currently processed data falls below a predetermined field, for example, 16 fields, the synchronization is performed by using the previous data stored in the memory means. In this case, the time for synchronous addition is effectively reduced.

Description

Noise removal method of ghost removal reference signal

The present invention relates to a method for removing noise of a ghost cancellation reference signal (hereinafter, referred to as a GCR) inserted into a broadcast signal to remove ghosts appearing on a screen, and in particular, to remove noise of a GCR signal. The present invention relates to a noise removing method suitable for removing noise through a certain number of synchronization additions.

As is well known in the art, ghosts are reflected by terrain, such as buildings or mountains, or matched to impedance lines in the course of television signals being transmitted from broadcast stations and reaching the receiver through transmission media such as air or tracks. The multipath is formed by being reflected and not reflected, and this refers to a phenomenon in which the reflected signal of the original signal is overlapped to the right by a double triple or the like in addition to the original signal on the receiver.

Therefore, in order to prevent the above-mentioned ghost phenomenon, a broadcasting station inserts and transmits a GCR signal in a part of the television signal, i.e., the vertical retrace period, during transmission of the broadcast signal, and the receiver transmits the GCR signal based on the GCR signal. The distortion of the broadcast signal generated in the transmission path is corrected. That is, the receiver stores a reference signal identical to the transmitted GCR signal in advance, and the receiver identifies the distortion characteristics of the transmission path by comparing the transmitted GCR signal with the stored reference signal and then matches the comparison result with the filter. By correcting, the distortion of the signal generated in the transmission path is corrected.

At this time, the noise of the received GCR signal used for ghost removal as described above is synchronously added a certain number of times to remove the noise contained in the signal, and the present invention is substantially related thereto.

Conventionally, in removing noise of a GCR signal, only a line containing the GCR signal is stored in a first-in-first-out buffer (FIFO), and then synchronized for a specific number of times to remove noise mixed in the signal. The addition, i.e., synchronization better, cancels the noise of the GCR signal by canceling out the random noise in the received signal. Here, the synchronous addition is usually performed in units of 64 fields.

However, in the prior art, if the synchronization of a GCR signal of one field is broken during the synchronization addition as described above for removing the noise of the GCR signal, all the data used in the synchronization addition is discarded and the synchronization is added again from the beginning. Not only does time lag occur, but there is a problem that efficient noise removal of the GCR signal is difficult.

Here, synchronous collapse is referred to as synchronous collapse when it is difficult to separate synchronous from the input signal due to large distortion of the input signal itself (for example, excessive noise).

Accordingly, the present invention is to solve the above problems of the prior art, to provide a noise removal method of the ghost removal reference signal that can reduce the synchronization addition time by using a previous field data replacement means having a memory map. There is a purpose.

In order to achieve the above object, the present invention, by using a digital signal processor and a memory means to remove the noise mixed in the received ghost removal reference signal carried on the broadcast signal for ghost removal by adding a predetermined number of times the reference A method for removing noise mixed in a signal, wherein the input signal is processed in units of a plurality of fields to perform synchronization addition, and then sequentially stored in the memory means, and the synchronization of the currently processed field data is equal to or less than a predetermined field. When the signal is collapsed, the synchronous addition is performed using previous field data stored in the memory means.

In addition, the noise removing method according to the present invention is performed as a four-field sequence as an example, and performs synchronization addition using the previous data stored in the memory when synchronization is substantially lost in 16 fields or less of 64 fields.

1 is a block diagram of a typical noise reduction device suitable for applying a method for removing noise from a ghost removal reference signal according to a preferred embodiment of the present invention.

2 is a diagram illustrating a form in which field data carrying a ghost elimination reference signal is stored in a memory.

3 is a waveform diagram of each field when the field data is processed into four field sequences.

* Explanation of symbols for main parts of the drawings

10: digital signal processor 20: timing generator

30: FIFO 40: RAM

50: digital filter

The above and other objects and various advantages of the present invention will become more apparent from the preferred embodiments of the present invention described below with reference to the accompanying drawings by those skilled in the art.

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

Figure 1 shows a block diagram of a typical noise reduction device suitable for applying a method for removing noise from a ghost removal lift signal in accordance with a preferred embodiment of the present invention.

As shown in the figure, a typical noise canceling apparatus includes a digital signal processor (hereinafter referred to as DSP) 10, a timing generator 20, a FIFO 30, and a random access memory. 40), the digital filter 50, the A / D converter 60 and the D / A converter 70.

In FIG. 1, the DSP 10 temporarily stores only the line on which the GCR signal is carried in the FIFO 30 to calculate a filter coefficient for compensating for distortion in the input video signal, and then adds a synchronous number a certain number of times. This removes the noise mixed in the GCR signal.

Also, as shown in FIG. 3 as an example, the DSP 10 performs a synchronous addition as shown in the table below in the case of a four-field sequence and outputs the result as shown in FIG. Save sequentially. In this case, since 16 fields of data are stored in each block, that is, each of blocks S1 through S4, a total of 64 fields of data required for synchronous addition are stored as a whole.

That is, according to the present invention, only the GCR signal from which color burst and horizontal synchronization are removed is obtained by performing synchronization addition by the following equation (1).

In addition, according to the present invention, each of the total field data (Sum S1 to Sum S4) in which the synchronous addition is performed with four field sequences is stored in the RAM 40, and this four field operation is repeated for every four fields of the GCR signal. Therefore, it is performed by the following Equation 2.

Equation 2 may be written as Equation 3 below.

Each of the parentheses in Equation 3 denotes S1 to S4 which are sequentially stored in the RAM 40, as shown in FIG. 2.

As described above, according to the present invention, when synchronization occurs when the field data is added to the synchronization and continuously stored in the memory, that is, it is difficult to separate the synchronization from the input signal due to the large distortion of the input signal itself due to excessive noise. In this case, in the present invention, the previous field data stored in the memory 40 is used as it is, as the field data whose synchronization is lost.

More specifically, conventionally, when synchronous collapse occurs, all field data is discarded and synchronous addition is performed again from the beginning. However, in the present invention, when synchronous collapse occurs in 16 fields or less out of 64 fields, the collapsed field data is stored in the memory 40. If the previous field data is stored and the synchronization collapse occurs in 16 fields or more, all data is discarded and the synchronous addition is performed again from the beginning as in the conventional method described above.

That is, the noise canceling method of the present invention performs synchronization addition using the previous field data stored in the memory when the synchronization is broken within 25%. Therefore, the synchronization is faster than the conventional method when the synchronization is broken within the above range. The addition can be performed.

In the above-described embodiment of the present invention, setting the limit of the field data to be replaced at the time of synchronization collapse to 16 fields takes into account the reliability of the calculated field data, that is, the precision of the filter coefficient as a reference for removing ghosts. It is to.

In addition, in the present invention, when the synchronization is broken, the DSP 10 checks a signal provided from the HNC terminal of the timing generator 20 to the IRQ (interrupt request) terminal of the DSP 10 to determine the synchronization collapse. Can be.

In the above-described embodiment of the present invention, the four-field sequence has been described as an example. However, it will be apparent to those skilled in the art that the present invention is not limited thereto.

As described above, according to the present invention, when synchronization falls within a predetermined range, the synchronization field required for noise removal is performed by using the previous field data as it is, so that the time for synchronization addition can be shortened efficiently.

Claims (3)

In order to remove the noise mixed with the received ghost removal reference signal carried on the broadcast signal for ghost removal, a method of removing the noise mixed with the reference signal by adding synchronization by a predetermined number of times using a digital signal processor and a memory means. And processing the input signal in units of a plurality of fields to perform synchronous addition, and then sequentially storing the same in the memory means, and when the synchronization of the currently processed field data falls below a predetermined predetermined field, the previous stored in the memory means. A noise removal method of a ghost removal reference signal, characterized in that a synchronous addition is performed using field data. The method of claim 1, wherein the plurality of field units are four fields. 2. The method of claim 1, wherein the previous field data is used for synchronous addition when the processed data is collapsed to 16 fields or less.