KR101653572B1 - Apparatus and method for high speed interleaving of signals - Google Patents

Abstract

The present technique discloses a high-speed signal interpolation apparatus and method. More specifically, L signal data having the same number of data values as the L input signal data is added N times, which is the predetermined resolution, and the additional signal data and the input signal data are subjected to discrete Fourier transform The number of (N-1) * L multipliers for frequency interpolation is multiplied by the number of multipliers for frequency interpolation as the interpolation coefficient is derived based on the predetermined interpolation method and frequency interpolation is not performed on signal data having an interpolation coefficient of a predetermined value when the interpolation coefficient is a predetermined value (LN / 2) log2L used in the conventional frequency interpolation, the frequency interpolation can be performed at a high speed even though the resolution of the signal is increased.

Description

[0001] APPARATUS AND METHOD FOR HIGH SPEED INTERLEAVING OF SIGNALS [0002]

The present invention relates to a high-speed signal interpolation method and apparatus, and more particularly, to a method and apparatus for interpolating a high-speed signal by adding a predetermined number of signal data having a data value of 0 to input signal data of a predetermined number of times set to a requested resolution, And more particularly to an apparatus and a method for processing frequency-interpolated data with respect to input signal data and additional signal data with a derived interpolation coefficient.

In recent years, due to the development of technology, various signal display devices, in particular high-quality and high-quality signal processing devices, have been commercialized. Accordingly, it is required to enhance the quality of the signal output from the signal mediums. In order to satisfy this requirement, there is a growing need for a signal format conversion technique for enlarging or reducing the signal.

Particularly, in order to display signal signals of various formats on a single display device, there is a need for a signal format conversion technology capable of expanding the signals horizontally and vertically. Such a signal format conversion technique is referred to as a signal interpolation technique. In general, when a signal signal having a resolution lower than a predetermined resolution is input, the signal interpolation method is applied to the processing device.

The general signal interpolator analyzes the frequency and the luminance level of the input signal, performs the discrete Fourier transform based on the analysis result and executes the predetermined interpolation method to determine the interpolation coefficient, and interpolates the input signal according to the determined interpolation coefficient .

At this time, a predetermined number of delay units, a predetermined number of multipliers, and an adder are provided to perform interpolation on the input signal, and the operation speed for frequency interpolation is determined according to the number of multipliers. That is, the filtering of the input signal is performed using the sampling number of the peripheral pixels at the position where the interpolation is to be performed. The number of multipliers that determine the computation speed is determined by the number of samples. Under the assumption that L signals are input, the number of multipliers is estimated to be (L / 2) log ₂ L.

In order to increase the resolution in the normal signal interpolation, the number of the input signal signals is increased and the interpolation is performed on the increased input signal signals.

This signal interpolation method has difficulty in interpolating the input signal signal when the input time of the signal signal is long or the signal signal is extremely limited in length.

In order to overcome this difficulty, a general signal interpolator adds a signal having a data value of 0, and interpolation is performed on the added signal. For example, if L signal signals having a data value of 0 are added to L input signals, the number of samples is doubled, and the number of multipliers is doubled. That is, as the length of the signal increases, the resolution is increased but the number of samples is increased, so that the number of multipliers is increased and the limit of the operation speed for data interpolation is reached.

SUMMARY OF THE INVENTION Accordingly, the present invention has been made keeping in mind the above problems occurring in the prior art, and it is an object of the present invention to provide a method and apparatus for adding a predetermined number of signal data having a data value of 0 to an input signal signal, When the interpolation coefficient is calculated by multiplying the input signal data and the additional signal data by the derived interpolation coefficient by executing the interpolation method determined according to the conversion and frequency characteristics and performing the frequency interpolation by adding the derived interpolation coefficient to the added signal data, Speed interpolation apparatus and method capable of radically increasing the resolution of a signal and performing frequency interpolation at a high speed by reducing the number of multipliers due to the frequency interpolation according to the non-performance.

According to an aspect of the present invention, there is provided a high-speed signal interpolator comprising:

A predetermined number of signal data having a data value of 0 is added to the input signal data by repeating a predetermined number of times according to a predetermined resolution, and interpolation methods predetermined according to the discrete Fourier transform and frequency characteristics are added to the added input signal data and the additional signal data A controller for deriving an interpolation coefficient based on the interpolation coefficient,

And a data processor for performing frequency interpolation on the input signal data and the additional signal data with predetermined interpolation coefficients under the control of the controller,

Wherein the data processing unit comprises:

And performs frequency interpolation when the interpolation coefficient is not a predetermined value under the control of the control unit.

The predetermined number of the additional signal data is

The number of which is equal to the number of the input signal data,

The predetermined times

The ratio of the input signal data to the additional signal data is preferably determined according to the predetermined resolution.

Wherein the data processing unit comprises:

A plurality of multipliers, a delay unit, and an adder,

If the ratio of the L input signal data to the L additional signal data is N, the number of multipliers is preferably (N-1) * L.

According to an aspect of the present invention, there is provided a signal interpolation method,

Adding a predetermined number of signal data having a data value of 0 to the input signal data by repeating a predetermined number of times derived in accordance with a predetermined resolution,

Deriving an interpolation coefficient based on an interpolation method determined according to a frequency characteristic after the discrete Fourier transform for the input signal data and the additional signal data;

And interpolating the input signal data and the additional signal data with predetermined interpolation coefficients under the control of the control unit,

Wherein the frequency interpolation processing step comprises:

And performs frequency interpolation on the interpolation coefficient and the signal data when the interpolation coefficient is not the predetermined value.

The predetermined number of the additional signal data is

Is equal to the number of input signal data,

The predetermined times

The ratio of the number of additional signal data to the number of input signal data is preferably determined according to the predetermined resolution.

As described above, according to the signal interpolating apparatus and method of the present invention, L signal data having the same number of data values as L input signal data is added N times, which is a predetermined resolution, The interpolation coefficient is derived on the basis of the interpolation method predetermined according to the discrete Fourier transform and the frequency characteristic with respect to the input signal data. When the interpolation coefficient is a predetermined value, the frequency interpolation is not performed on the signal data having the interpolation coefficient of the predetermined value. Since the number of (N-1) * L multipliers for interpolation is reduced from the number of multipliers (LN / 2) log ₂ L used in the conventional frequency interpolation, the frequency interpolation is performed at a high speed You get an executable effect.

BRIEF DESCRIPTION OF THE DRAWINGS The accompanying drawings, which are incorporated in and constitute a part of the specification, illustrate preferred embodiments of the invention and, together with the description of the invention given below, serve to further understand the technical idea of the invention. And should not be construed as limiting.
1 is a diagram showing a configuration of a signal interpolator according to an embodiment of the present invention.
2 is a diagram illustrating additional signal data and input signal data according to an embodiment of the present invention.
3 is a flowchart illustrating a signal interpolation process according to another embodiment of the present invention.

For a better understanding of the present invention and its operational advantages and the objects attained by the practice of the present invention, reference should be made to the accompanying drawings and the accompanying drawings which illustrate preferred embodiments of the present invention.

BEST MODE FOR CARRYING OUT THE INVENTION Hereinafter, the present invention will be described in detail with reference to the preferred embodiments of the present invention with reference to the accompanying drawings. Like reference symbols in the drawings denote like elements.

FIG. 1 is a block diagram of a signal interpolator according to an embodiment of the present invention. As shown in FIG. 1, the signal interpolator according to an embodiment of the present invention includes: The L signal data having a value of 0 is added to the input signal data by the required resolution ratio N times and then the interpolation coefficient is derived based on the interpolation method predetermined according to the discrete Fourier transform and the frequency characteristic for the additional signal data and the input signal data And does not perform frequency interpolation with respect to the signal data whose interpolation coefficient is a predetermined value. Such an apparatus includes a control section 10 and a data processing section 30.

The control unit 10 is provided to add L signal data whose number of data values is 0, which is the same as the number of L input signal data, to the input signal data at a requested resolution ratio N times.

The controller 10 derives an interpolation coefficient corresponding to the predetermined interpolation method for each of the additional signal data and the input signal data, and then transmits the derived interpolation coefficient to the data processing unit 30. [

The control unit 10 performs discrete Fourier transform on the additional signal data and the input signal data, derives the interpolation coefficient based on the predetermined interpolation method according to the frequency characteristic, and derives the derived interpolation coefficient, And the interpolation method based on the frequency characteristic after the discrete Fourier transform of the interpolation method, for example, a cubic convolution interpolation interpolation method or a poly-phase interpolation method, Therefore, a detailed description thereof will be omitted.

A data processing unit (not shown) for receiving the additional signal data and the input signal data of the control unit 10 and then deriving the interpolation coefficients based on the discrete Fourier transform and the predetermined interpolation method and receiving the derived interpolation coefficient, 30 is provided to perform frequency interpolation in which the additional signal data and the input signal data are multiplied by an interpolation coefficient and then added.

The data processing unit 30 includes a multiplier, a summer, and a plurality of delay units for multiplying the input signal data and the additional signal data, and the interpolation coefficient, and adding up the result.

That is, the control unit 10 compares the input signal data of n = 0, 2, L-1 and n = L, L + 1, ... 2L-1) satisfy the following Equation (1): " (1) "

Accordingly, the control unit 10 outputs the additional signal data and the interpolation coefficient

The driving of the data processing unit 30 is interrupted so that the frequency interpolation is not performed on the signal data having the predetermined value (0).

Since the number of multipliers in the data processing unit 30 is (N-1) * L, the computation speed is reduced as compared with the conventional (LN / 2) log ₂ L.

According to the present invention, the L signal data having the same number of data values as the number of L input signal data is added to the input signal data N times, and the additional signal data and the input signal data are subjected to discrete Fourier transform The number of multipliers for frequency interpolation is (N-1) * L as frequency interpolation is not performed on the signal data having the interpolation coefficient of the predetermined value (0) in deriving the interpolation coefficient based on the conversion and the predetermined interpolation method . Therefore, the frequency interpolation can be performed at a high speed even though the number of multipliers is reduced by the number of multipliers (LN / 2) log ₂ L used in the conventional frequency interpolation, thereby increasing the resolution.

On the other hand, L signal data whose number of data values equal to the number of L input signal data is 0 is added to the input signal data N times, and discrete Fourier transform is performed on the additional signal data and input signal data A series of processes in which frequency interpolation is not performed on the signal data having the interpolation coefficient of the predetermined value (0) in the discrete Fourier transform will be described with reference to FIG.

FIG. 3 is a flowchart illustrating an operation of the signal interpolator shown in FIG. 1. Referring to FIG. 3, a signal interpolation process according to another embodiment of the present invention will be described.

First, the controller 10 adds a predetermined number of signal data, which is the same number as the input signal data, in accordance with the input signal data and the requested resolution ratio, and then performs discrete Fourier transform and discrete Fourier transform on the additional signal data and the input signal data. The interpolation coefficient is derived according to the predetermined interpolation method according to the frequency characteristics.

That is, the control unit 10 adds a predetermined number of signal data of the same number as that of the input signal data, which is determined by the resolution ratio, according to the input signal data and the requested resolution ratio (steps 101 and 103).

Then, the control unit 10 derives the interpolation coefficients according to a predetermined interpolation method according to the discrete Fourier transform and the frequency characteristic with respect to the additional signal data and the input signal data (step 105).

When the interpolation coefficient is not 0, the control unit 10 transmits a control signal for performing frequency interpolation to the data processing unit 30. The number of multipliers in the data processing unit 30 is larger than the number of existing multipliers .

That is, the controller 10 determines whether the interpolation coefficient derived from the discrete Fourier transform is 0. If the interpolation coefficient is 0, the frequency interpolation is not performed and the output of the interpolation coefficient is interrupted (step 107). Accordingly, the number of multipliers in the data processor 30 is reduced compared to the number of multipliers.

If the interpolation coefficient is not 0, the input signal data and the additional signal data are multiplied by an interpolation coefficient through a step 109, and then synthesized by an adder to perform frequency interpolation.

That is, since the number of multipliers in the data processing unit 30 is (N-1) * L, the operation speed is reduced as compared with the conventional (LN / 2) log ₂ L.

Then, the L signal data having the same number of data values as the L input signal data is added N times, which is the predetermined resolution, and the interpolation method predetermined for the additional signal data and the input signal data according to the discrete Fourier transform and the frequency characteristic is added The number of (N-1) * L multipliers for frequency interpolation is multiplied by the number of multipliers for the frequency of the original frequency The number of multipliers (LN / 2) log2L used for interpolation is reduced, so that the frequency interpolation can be performed at a high speed even though the resolution of the signal is increased.

The steps of a method or algorithm described in connection with the embodiments disclosed herein may be embodied in the form of a program form which may be performed via a variety of computing means and recorded in a computer-readable medium. The computer-readable medium may include program instructions, data files, data structures, and the like, alone or in combination. The program instructions recorded on the medium may be those specially designed and constructed for the present invention or may be available to those skilled in the art of computer software. Examples of computer-readable media include magnetic media such as hard disks, floppy disks and magnetic tape; optical media such as CD-ROMs and DVDs; magnetic media such as floppy disks; Magneto-optical media, and hardware devices specifically configured to store and execute program instructions such as ROM, RAM, flash memory, and the like. Examples of program instructions include machine language code such as those produced by a compiler, as well as high-level language code that can be executed by a computer using an interpreter or the like. The hardware devices described above may be configured to operate as one or more software modules to perform the operations of the present invention, and vice versa.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

The L signal data having the same number of data values as the L input signal data is added N times as the predetermined resolution and then the additional signal data and the input signal data are subjected to the discrete Fourier transform and the predetermined interpolation method based on the frequency characteristic When the interpolation coefficient is derived and the interpolation coefficient is a predetermined value, the frequency interpolation is not performed on the signal data having the interpolation coefficient of the predetermined value. Therefore, the number of (N-1) * L multipliers for frequency interpolation is (LN / 2) log2L, the accuracy and reliability of the operation and accuracy of the signal interpolator and the method capable of performing the frequency interpolation at a high speed despite increasing the resolution of the signal, Can make very big advances on the surface, and the market or business possibility of high resolution signal displays Since sufficient, as well as the degree to which is in reality obviously carried invention there is industrial applicability.

Claims (5)

A predetermined number of signal data having a data value of 0 is added to the input signal data by repeating a predetermined number of times according to a predetermined resolution, and then the added input signal data and the additional signal data are subjected to discrete Fourier transform and interpolation A controller for deriving an interpolation coefficient,
And a data processor for performing frequency interpolation on the input signal data and the additional signal data with predetermined interpolation coefficients under the control of the controller,
Wherein the data processing unit comprises:
And performs frequency interpolation when the interpolation coefficient is not a predetermined value under the control of the control unit, in order to perform frequency interpolation at high speed on the input signal data and the additional signal data. The method of claim 1, wherein the predetermined number of additional signal data
The number of which is equal to the number of the input signal data,
The predetermined times
Wherein the ratio of the input signal data to the additional signal data is determined according to the predetermined resolution. The data processing apparatus according to claim 2,
A plurality of multipliers, a delay unit, and an adder,
And the number of multipliers is (N-1) * L when the ratio of the L input signal data to the L additional signal data is N. [ Adding a predetermined number of signal data having a data value of 0 to the input signal data by repeating a predetermined number of times derived in accordance with a predetermined resolution,
Deriving an interpolation coefficient based on an interpolation method determined according to a frequency characteristic after the discrete Fourier transform for the input signal data and the additional signal data;
And interpolating the input signal data and the additional signal data with predetermined interpolation coefficients under the control of the control unit,
Wherein the frequency interpolation processing step comprises:
And performs frequency interpolation on the interpolation coefficient and the signal data when the interpolation coefficient is not a predetermined value so as to perform frequency interpolation at high speed on the input signal data and the additional signal data. Interpolation method. 5. The method of claim 4, wherein the predetermined number of additional signal data
Is equal to the number of input signal data,
The predetermined times
Wherein the ratio of the number of additional signal data to the number of input signal data is determined according to a predetermined resolution.

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