KR100923385B1 - The Apparatus and Method for Detecting Packet Boundary on the Wireless Packet Receving System - Google Patents

Abstract

1. TECHNICAL FIELD OF THE INVENTION

The present invention relates to an apparatus and method for determining a packet boundary in a wireless packet receiving system.

2. The technical problem to be solved by the invention

According to the present invention, the autocorrelation detection unit detects a maximum value of the added values after adding the currently stored autocorrelation result values each time a shift is made while shifting one by one in the order of output in the autocorrelation detection unit. An object of the present invention is to provide an apparatus and method for determining a packet boundary of a wireless packet receiving system for determining a time position of a detected maximum value as a packet boundary.

3. Summary of Solution to Invention

The present invention provides a packet boundary determining apparatus of a wireless packet receiving system, comprising: autocorrelation detecting means for detecting a normalized autocorrelation result value; Storage means for storing the normalized autocorrelation result value detected by the autocorrelation detection means while shifting in the order of output; Addition means for summing up the normalized autocorrelation result values currently stored in the storage means each time they are shifted; And a maximum value detecting means for detecting a maximum value of the respective result values summed by the addition means and determining a time position of the detected maximum value as a packet boundary.

4. Important uses of the invention                 

Industrial Applicability The present invention is used in a wireless packet reception system of an orthogonal frequency division multiplex (OFDM) scheme.

Packet boundary determination, maximum value detection, time position, auto-correlation

Description

Apparatus and Method for Detecting Packet Boundary on the Wireless Packet Receving System             

1 is a block diagram of an embodiment of an autocorrelation detection apparatus of a conventional wireless packet receiving system.

2 is a graph illustrating an autocorrelation result obtained by an autocorrelation detection apparatus of a conventional wireless packet receiving system.

3 is a block diagram of an apparatus for determining a packet boundary in a wireless packet receiving system according to the present invention.

4 is a graph illustrating an embodiment of a packet boundary value obtained by the packet boundary determination apparatus of the wireless packet receiving system according to the present invention.

5 is a flowchart illustrating a packet boundary determination method obtained by the packet boundary determination apparatus according to the present invention.

* Explanation of symbols for the main parts of the drawings

31: autocorrelation detection unit 32: storage unit                 

33: Adder 34: Maximum value detector

The present invention relates to an apparatus and method for determining a packet boundary of a wireless packet receiving system. More particularly, the present invention relates to a packet boundary determining apparatus and a method thereof. The present invention relates to an apparatus and method for determining a packet boundary of a wireless packet receiving system which detects a maximum value of the added values and determines a temporal position of the detected maximum value as a packet boundary after adding the autocorrelation result values.

The wireless packet transmission system transmits a packet having a burst characteristic only when necessary, so that proper packet data can be obtained only by performing an accurate search on the packet boundary of the received signal. In particular, a wireless packet reception system employing an Orthogonal Frequency Division Multiplexing (OFDM) method can accurately receive a signal through a Fast Fourier Transform (FFT) only when the boundary of a packet is accurately detected.

1 is a configuration diagram of an apparatus for detecting autocorrelation of a conventional wireless packet receiving system.

As shown in FIG. 1, the operation of the autocorrelation detection apparatus of the conventional wireless packet receiving system includes a first group including N samples adjacent to each other and a second group including N samples. The sum of the first group N samples received is complex conjugated and the resultant auto-correlation result of the complex multiplication with the second group N samples received later. The normalized autocorrelation result is obtained by dividing by the total energy of the first group N samples.

2 is a graph illustrating an autocorrelation result obtained by an autocorrelation detection apparatus of a conventional wireless packet receiving system.

Conventionally, in the graph as shown in Fig. 2, the position in time where the autocorrelation result value indicates the maximum value was detected and determined as the boundary of the packet.

However, this method is difficult to select the maximum value for the boundary determination because there are several maximum values, as shown in FIG. 2, due to the influence of noise received by being mixed into the signal and the multipath propagation characteristics of the channel through which the signal is transmitted. In addition, there is a problem that it is also difficult to set the criteria of the autocorrelation result value for determining the boundary of the packet.

The present invention has been proposed to solve the above problems, and after adding the currently stored autocorrelation result values each time the shift is shifted one by one in the order in which they are detected and normalized autocorrelation result values by the autocorrelation detector, An object of the present invention is to provide a packet boundary determining apparatus and method for a wireless packet receiving system that detects a maximum value of the added values and determines a time position of the detected maximum value as a packet boundary.

An apparatus of the present invention for achieving the above object comprises: a packet boundary determining apparatus of a wireless packet receiving system, comprising: autocorrelation detecting means for detecting a normalized autocorrelation result value; Storage means for storing the normalized autocorrelation result value detected by the autocorrelation detection means while shifting in the order of output; Addition means for summing up the normalized autocorrelation result values currently stored in the storage means each time they are shifted; And a maximum value detection means for detecting a maximum value of the respective result values summed by the addition means and determining a time position of the detected maximum value as a boundary of the packet.

On the other hand, the method of the present invention, the packet boundary determination method applied to the packet boundary determination apparatus of the wireless packet receiving system, the autocorrelation detection unit for detecting the normalized autocorrelation result value; A second step of storing and storing the normalized autocorrelation result values detected by the autocorrelation detector in the order of output; A third step of adding up the normalized autocorrelation result values currently stored in the storage unit each time the shifting unit is shifted once; And a fourth step of determining, by a maximum value detector, a maximum value among the respective result values added by the adder to determine a time position of the detected maximum value as a packet boundary.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a block diagram of an apparatus for determining a packet boundary in a wireless packet receiving system according to the present invention.

As shown in FIG. 3, the packet boundary determining apparatus of the wireless packet receiving system according to the present invention first receives a first group including N samples adjacent to each other and a second group including N samples as well. Complex-paired values of the first group N samples, and the sum of the second group N samples, which are received later, and the complex multiplication of the autocorrelation results, are divided by the total energy of the first group N samples, Autocorrelation detection unit 31 for detecting correlation result value, storage unit 32 for storing while shifting the normalized autocorrelation result value detected by autocorrelation detection unit 31 in the order of output, when shifted once Each adder 33 adds all the normalized autocorrelation result values currently stored in the storage unit 32, and the minimum of each result value added by the adder 33. And a peak detector 34 for detecting a substitution and determining a time position of the detected maximum value as a packet boundary.

Here, the value of N used as an operation unit of the autocorrelation detection unit 31 is a length in which the same pattern is repeated in the received long training symbols, for example, IEEE 802.11a WLAN. The system uses the value 64.                     

In addition, the storage unit 32 uses a shift register having a length M. When applied to an IEEE 802.11a WLAN system, the value of M is set to a value slightly larger than 32 or 32. . The reason why this value is set is that the output value of the autocorrelation detection unit 31 has a constant maximum value continuously due to the signal characteristic of the long training symbol, because the range of the continuous maximum values is given as about 32 in the signal characteristic. That is, 64 samples are received twice in a long training symbol and 32 samples are received once. For example, if the samples are numbered in order of receipt so that the first group is from 1 to 64, the second group is from 65 to 128 and later received from 129 to 160, the first group And performing a second group of autocorrelation, followed by a third group comprising 2 to 65 samples and a fourth group comprising 66 to 129 samples. In this way, autocorrelation results are output, so the value of M is slightly greater than 32 or 32.

In addition, the adder 33 outputs the sum of the first normalized autocorrelation result value and the second normalized autocorrelation result value stored in the storage unit 32, and then the third normalized autocorrelation result to the added autocorrelation result value. Sum the result and print it out. That is, whenever there is a shift, a process of continuously adding up to M normalized autocorrelation result values stored in the previously added result values and outputting them is performed. This addition is possible because the normalized autocorrelation result values are sequentially stored in the storage unit 32 while being shifted, and the normalized autocorrelation result is stored from the moment when the normalized autocorrelation result value exceeds M. This is because the best stored autocorrelation result of the values is shifted and the new normalized autocorrelation result is stored.

Meanwhile, according to the present invention, by adjusting the size M of the storage unit 32, the boundary of a packet may be determined even in a multipath fading channel.

4 is a diagram illustrating an example of a packet boundary value obtained by the packet boundary determination apparatus of the wireless packet receiving system according to the present invention.

The upper graph 41 is a graph of packet boundary values obtained by the existing packet boundary determination apparatus and has a plurality of maximum values.

However, it can be seen that the graph 42 of the packet boundary value obtained by the packet boundary determination apparatus of the present invention at the bottom has one maximum value near the packet boundary.

Accordingly, it can be seen that the packet boundary determination apparatus of the wireless packet receiving system according to the present invention exhibits better performance than the conventional scheme.

5 is a flowchart illustrating a packet boundary determination method obtained by the packet boundary determination apparatus according to the present invention.

First, the autocorrelation detection unit 31 complex-complexes values of the first group N samples received among the first group including N samples adjacent to each other and the second group also including N samples. conjugate), and the sum of the auto-correlation results of complex multiplication with the second group N samples received later is divided by the total energy of the first group N samples and normalized. The result is calculated (501).                     

Thereafter, the storage unit 32 stores the normalized autocorrelation result value by shifting the normalized autocorrelation result value in the order output from the autocorrelation detection unit 31 (502). Then, the adder 33 adds all the normalized autocorrelation result values currently stored in the storage unit 35 every time the shift is performed once (503).

Thereafter, the maximum value detector 34 detects the maximum value of the respective results summed by the adder 33 and determines the time position of the detected maximum value as a packet boundary (504).

In this case, the normalization means to make a predetermined signal size in order to remove the influence on the large and small of the received signal.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be clear to those of ordinary knowledge.

The present invention as described above overcomes the disadvantage that the conventional packet boundary determiner requires a specific reference value for determining the boundary, and the position of the packet boundary is differently determined according to the change of the reference value, so that the boundary of the packet is not even if there is no specific reference value. There is an effect that can be determined more accurately than the conventional method.

In addition, the present invention has an effect of determining the boundary of a packet even in a multipath fading channel by adjusting the size of the storage unit.

Claims (3)

In the packet boundary determination apparatus of the wireless packet receiving system, Autocorrelation detection means for detecting a normalized autocorrelation result value; Storage means for storing the normalized autocorrelation result value detected by the autocorrelation detection means while shifting in the order of output; Addition means for summing up the normalized autocorrelation result values currently stored in the storage means each time they are shifted; And Maximum value detection means for detecting the maximum value of each result value summed by said addition means, and determining the time position of the detected maximum value as a packet boundary. Packet boundary determination apparatus of a wireless packet receiving system comprising a. The method of claim 1, The storage means, A packet boundary determining apparatus of a wireless packet receiving system, characterized in that it is a shift register. In the packet boundary determination method applied to the packet boundary determination apparatus of the wireless packet receiving system, A first step of detecting, by the autocorrelation detection unit, the normalized autocorrelation result value; A second step of storing and storing the normalized autocorrelation result values detected by the autocorrelation detector in the order of output; A third step of adding up the normalized autocorrelation result values currently stored in the storage unit each time the shifting unit is shifted once; And A fourth step in which the maximum value detector detects a maximum value among the respective result values added by the adder and determines a time position of the detected maximum value as a packet boundary; Packet boundary determination method of a wireless packet receiving system comprising a.

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