KR100755641B1 - An apparatus for synchronization of dsss packet, dsss receiver, and method for synchronization of dsss packet - Google Patents

Abstract

A DSSS(Direct Sequence Spread Spectrum) packet synchronization device, a DSSS receiver, and a DSSS packet synchronization method are provided to conduct spread code acquisition and verification based on a maximum correlation value without performing a code tracking process during DSSS communication where pilot channels are not equipped, thereby improving reliability. A correlator(200) converts an analog signal including a DSSS packet into a digital signal, obtains a correlation value between the digital signal and plural preset reference codes, and obtains a code corresponding to the digital signal if the correlation value exceeds a preset code decision value. A threshold value setup unit(300) sets a threshold value. If a correlation value of the obtained code is higher than the set threshold value and if a correlation value of a code located after the first packet period from the code is higher than the set threshold value, a preamble detector(400) recognizes a location of the current code as a preamble location to generate/output a preamble detection signal, and if not, the detector recognizes that the preamble location is not detected, then outputs a preamble non detection signal. A threshold value controller(500) controls threshold resetting of the setup unit according to the preamble non detection signal.

Description

DS APPARATUS, DSSS RECEIVER AND DSSS PACKING METHOD {AN APPARATUS FOR SYNCHRONIZATION OF DSSS PACKET, DSSS RECEIVER, AND METHOD FOR SYNCHRONIZATION OF DSSS PACKET}

1 is a block diagram of a conventional DSSS receiver.

2 is a flowchart illustrating a packet synchronization process of a conventional DSSS receiver.

3 is a waveform diagram of a received signal according to code acquisition;

4 is a block diagram of a DSSS receiver and a DSSS packet synchronization device according to the present invention;

5 is a flowchart showing a packet synchronization method of a DSSS receiver according to the present invention;

6 is a waveform diagram of a received signal according to code acquisition in accordance with the present invention;

Explanation of symbols on the main parts of the drawings

1OO: A / D conversion unit 200: correlation unit

300: threshold setting unit 400: preamble detection unit

500: threshold control unit 600: data detection unit

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a packet synchronizer applied to a direct sequence spread spectrum (DSSS) receiver and a method thereof, particularly in DSSS communication without a pilot channel. DSSS packet synchronizer, DSSS receiver, and DSSS packet synchronization method, which is relatively simple in structure and can improve reliability by enabling fast spreading code acquisition and verification based on a maximum correlation value It is about.

In general, DSSS modulation and demodulation communication is a method in which one signal symbol is spread in a predetermined sequence to communicate, and when the original signal is input to a pseudo-random noise sequence, a spread spectrum spectrum having a low power density per frequency is obtained. You can get a signal. In this case, when the same pseudo noise sequence is used at the receiving side, the original signal may be reproduced and used by a plurality of users.

In general, in a high-quality wireless communication system, a pilot channel is commonly used to measure a channel environment and continuously track an accurate position of a transmission code when a general DSSS modulation and demodulation communication method is applied.

However, in the case of short-range wireless communication, the pilot channel is often not provided for eliminating the complexity of the additional system by the pilot channel and for the efficiency of power usage. In this case, the position of the actual data portion is detected by using a preamble or training data located at the head of each transport packet.

1 is a block diagram of a conventional DSSS receiver.

Referring to FIG. 1, a conventional DSSS receiver includes a receiver 11 for receiving and converting an RF signal, and an A / D converter 12 for A / D converting an analog signal from the receiver 11 into a digital signal. A code acquisition unit 13 for correlating the digital signal from the A / D conversion unit 12 with a reference code, calculating a correlation value, and obtaining a code corresponding to a correlation value having a predetermined size among the correlation values; The code tracking unit 14 performs tracking on the code obtained by the code acquisition unit 13 to detect a preamble position, thereby generating a preamble detection signal, and a preamble from the code tracking unit 14. And a data detector 15 for detecting data from the digital signal from the A / D converter 12 based on the detected signal.

The packet synchronization process in the conventional DSSS receiver made as described above will be described with reference to FIG. 2.

2 is a flowchart illustrating a packet synchronization process of a conventional DSSS receiver.

Referring to FIG. 2, first, the code obtaining unit 13 obtains an initial code recognition threshold based on a correlation between a received signal and a reference code as described above (S10). Next, the code tracking unit 14 checks a threshold value corresponding to a recognition threshold value whether the acquired code is a synchronous code (S20), and generates a preamble detection signal when the synchronous code is synchronized in this checking process. The data is output to the data detector 15 (S30).

Subsequently, a process of checking whether the synchronization code is correct (S20) will be described. First, a preceding code is selected from the obtained codes (S21), and tracking is performed on the selected code (S22). It is checked whether or not the code having performed such tracking is a code that is synchronized (S23). When the code is synchronized, a preamble detection signal is generated as described above, and when the code is not synchronized, the next code is used. Select to repeat the code tracking process (S24).

As described above, in the code tracking process, after performing initial code acquisition, the threshold position assigned to the code is changed little by little with respect to the obtained code position, that is, all possible combinations are executed to perform synchronization. Is checked to determine whether the code is correct (code tracking), and confirms whether the obtained code is a code position that is synchronized.

In the packet synchronization process of the conventional DSSS receiver as described above, a process of detecting code synchronization is described with reference to FIG. 3.

3 is a waveform diagram of a received signal according to code acquisition.

Referring to Fig. 3, first, in a first attempt (try 1) for checking whether a code is synchronized, a code of a certain size is detected twice, but the first attempt (try 1) is not present from 3 times. ) Fails to detect a synchronous code and fails preamble detection (synchronous detection failure).

Then, in the second attempt (attempt 2), since a code having a constant size is continuously detected three or more times, in this case, a code matching the synchronization can be detected, and thus a preamble detection can be performed (synchronous detection success). As a result, the preamble detection signal is generated and provided to the data detection unit.

In the packet synchronization process of the conventional DSSS receiver, a complicated process of checking whether the code is synchronized while gradually changing the code position by a complicated code tracking structure is performed. There is a problem in that the operation of detecting again is not fast and is not suitable for real time processing.

In other words, the process from the code acquisition to the code tracking is complicated and takes a long time for tracking because it cannot quickly follow the changes occurring in real time.

The present invention has been proposed to solve the above problems, and its object is to obtain spreading code based on the maximum correlation value without code tracking in DSSS communication without a pilot channel. And to provide a DSSS packet synchronizer, a DSSS receiver, and a DSSS packet synchronization method, which are relatively simple in structure and can improve reliability by performing verification quickly.

In order to achieve the above object of the present invention, the DSSS packet synchronization device of the present invention A / D converts an analog signal including a DSSS packet into a digital signal, and correlates the digital signal with a plurality of preset reference codes. A correlator for obtaining a code and obtaining a code corresponding to the digital signal when the correlation value is equal to or greater than a predetermined code determination value; A threshold setting unit that sets a threshold according to the threshold reset control; The preamble position is detected by comparing the correlation value of the code obtained by the correlator with the threshold value of the threshold setting unit, and if the preamble position is detected, the preamble detection signal is output. If the preamble position is not detected, the preamble non-detection signal is output. A preamble detector; And a threshold controller configured to control the reset of the threshold according to the preamble undetected signal from the preamble detector.

The threshold setting unit may be reset to a threshold lower than a preset threshold according to a threshold reset control of the threshold controller.

The preamble detection unit, when the correlation value of the code obtained by the correlation unit is higher than the threshold of the threshold setting unit, and the correlation value of the code located after one packet period from the code is higher than the threshold of the threshold setting unit, The preamble detection signal may be generated by recognizing a code position as a preamble position.

In addition, the DSSS receiver of the present invention, the A / D conversion unit for converting the analog signal received in the DSSS packet unit to a digital signal; A correlation unit for obtaining a correlation value between the digital signal from the A / D converter and a plurality of preset reference codes, and obtaining a code corresponding to the digital signal when the correlation value is equal to or greater than a predetermined code determination value; A threshold setting unit that sets a threshold according to the threshold reset control; The preamble position is detected by comparing the correlation value of the code obtained by the correlator with the threshold value of the threshold setting unit, and if the preamble position is detected, the preamble detection signal is output. If the preamble position is not detected, the preamble non-detection signal is output. A preamble detector; A threshold controller controlling threshold reset in the threshold setting unit according to a preamble non-detection signal from the preamble detector; And a data detector for detecting data in the digital signal from the A / D converter based on the preamble detection signal from the preamble detector.

The threshold setting unit may be reset to a threshold lower than a preset threshold according to a threshold reset control of the threshold controller.

The preamble detection unit, when the correlation value of the code obtained by the correlation unit is higher than the threshold of the threshold setting unit, and the correlation value of the code located after one packet period from the code is higher than the threshold of the threshold setting unit, The preamble detection signal may be generated by recognizing a code position as a preamble position.

In addition, the DSSS packet synchronization method of the present invention comprises: a threshold setting step of setting an initial threshold; A code obtaining step of obtaining a correlation value between a digital signal received in a packet unit and a plurality of preset reference codes, and repeatedly obtaining a code corresponding to the digital signal when the correlation value is equal to or larger than a predetermined code determination value; A first comparing step of comparing whether a correlation of the code is higher than the threshold; In the first comparison step, when the correlation value of the code is higher than the threshold, comparing the correlation value of a code located after one packet period from the code is higher than the threshold value; In the first and second comparing steps, a threshold resetting step for resetting a threshold if the correlation value of the code is not higher than the threshold and proceeding to the first comparing step; And in the second comparing step, detecting a position of a current code as a preamble position when the correlation value of the code is higher than the threshold value.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings referred to in the present invention, components having substantially the same configuration and function will use the same reference numerals.

4 is a configuration diagram of a DSSS receiver and a DSSS packet synchronization device according to the present invention.

Referring to FIG. 4, the DSSS receiver according to the present invention includes an A / D converter 100, a DSSS packet synchronizer, and a data detector 600.

The A / D converter 100 converts an analog signal received in DSSS packet units into a digital signal.

The DSSS packet synchronizer obtains a correlation value between the digital signal from the A / D converter 100 and a plurality of preset reference codes, and when the correlation value is equal to or greater than a predetermined code determination value, the DSSS packet synchronizer corresponds to the digital signal. Correlator 200 for acquiring the code, Threshold setting unit 300 for setting the threshold value according to the threshold reset control, Correlation value of the code obtained by the correlator 200 and the threshold setting unit 300 The preamble detector 400 detects the preamble position by comparing a threshold value of the preamble position, outputs a preamble detection signal when the preamble position is detected, and outputs a preamble non-detection signal when the preamble position is not detected, and the preamble detector 400. Threshold control unit 500 for controlling the threshold reset in the threshold setting unit 300 according to the preamble non-detection signal of the.

The data detector 600 detects data from the digital signal from the A / D converter 100 based on the preamble detection signal from the preamble detector 400.

In addition, the threshold setting unit 300 resets the threshold to a threshold lower than a preset threshold according to the threshold reset control of the threshold controller 500. For example, if the initial threshold set by the threshold setting unit 300 is 100 [mv], the next re-established threshold may be 80 [mV].

The preamble detection unit 400, the correlation value of the code obtained by the correlation unit 200 is higher than the threshold value of the threshold setting unit 300, and the correlation value of the code located after one packet period from the code is When it is higher than the threshold of the threshold setting unit 300, the position of the current code is recognized as a preamble position to generate the preamble detection signal.

5 is a flowchart showing a packet synchronization method of a DSSS receiver according to the present invention.

In FIG. 5, S100 is a step of setting an initial threshold. S200 is a step of obtaining a correlation value between a digital signal received in units of packets and a plurality of preset reference codes, and repeatedly obtaining a code corresponding to the digital signal when the correlation value is greater than or equal to a predetermined code determination value. S300 is a step of comparing whether the correlation value of the code is higher than the threshold value. In step S300, when the correlation value of the code is higher than the threshold, the operation 400 compares whether the correlation value of a code located after one packet period from the code is higher than the threshold. In step S300 and S400, if the correlation value of the code is not higher than the threshold, the threshold is reset, and the process proceeds to step S300. In operation S500, when the correlation value of the code is higher than the threshold value, S600 detects a position of a current code as a preamble position.

6 is a waveform diagram of a received signal according to code acquisition according to the present invention.

In Figure 6, the vertical axis is the magnitude axis of the received signal, the horizontal axis is the time axis, threshold 1 is the initial threshold, and threshold 2 is the threshold to be reset.

Hereinafter, the operation and effects of the present invention will be described in detail with reference to the accompanying drawings.

The present invention enables a receiver employing a DSSS communication scheme to easily detect and inspect a spreading code using a preamble of a packet, and to perform in real time, thereby making it possible to manufacture a receiver to be applied at a lower cost. In addition, it can improve its performance. This will be described with reference to FIGS. 4 to 6.

 First, referring to FIG. 4, when the A / D converter 100 of the DSSS receiver of the present invention converts an analog signal received in DSSS packet units into a digital signal and outputs the digital signal to the DSSS packet synchronizer, the DSSS packet synchronization is performed. The device detects the preamble position as follows.

In detail, the correlation unit 200 of the DSSS packet synchronizer obtains a correlation value between the digital signal from the A / D conversion unit 100 and a plurality of preset reference codes, and the code in which the correlation value is preset. If it is equal to or greater than the determined value, a code corresponding to the digital signal is obtained. That is, the digital signals received in units of DSSS packets are correlated with a plurality of preset reference codes to obtain respective correlation values, and when the plurality of correlation values is equal to or greater than a predetermined code determination value, a code corresponding to the digital signals is obtained. .

For example, in DSSS communication, since at least one spreading code is included during one DSSS packet length, one or more codes are detected during the DSSS packet length.

On the other hand, the threshold setting unit 300 sets a threshold in accordance with the threshold reset control of the threshold control unit 500. For example, the threshold setting unit 300 initially sets an initial threshold value (eg, threshold 1 = 100), and then sets a threshold value (eg, threshold 2) according to the threshold reset control of the threshold controller 500. = 80).

In addition, the threshold setting unit 300 may be reset to a threshold lower than a preset threshold according to the threshold reset control of the threshold controller 500. For example, if the initial threshold set by the threshold setting unit 300 is 100 [mv], the next re-established threshold may be 80 [mV].

Next, the preamble detection unit 400 detects the preamble position by comparing the correlation value of the code obtained by the correlation unit 200 with the threshold value of the threshold setting unit 300, and detecting the preamble position when the preamble position is detected. A signal is output, and if a preamble position is not detected, a preamble undetected signal is output.

Hereinafter, the preamble detection unit 400 will be described in more detail.

The preamble detection unit 400, the correlation value of the code obtained by the correlation unit 200 is higher than the threshold value of the threshold setting unit 300, and the correlation value of the code located after one packet period from the code is When it is higher than the threshold of the threshold setting unit 300, the position of the current code is recognized as a preamble position to generate the preamble detection signal.

At this time, the threshold controller 500 controls the threshold setting unit 300 to reset the threshold in order to detect the preamble again according to the preamble non-detection signal from the preamble detector 400. Accordingly, as described above, the threshold setting unit 300 resets the threshold to a lower value.

Through this process, as shown in FIG. 6, when the threshold is high (e.g., threshold 1), the preamble fails to be detected, but when it is set to a lower threshold (e.g., threshold 2), the preamble is detected. You can do it.

The data detector 600 detects data from the digital signal from the A / D converter 100 based on the preamble detection signal from the preamble detector 400. That is, since the data detector 600 can know the preamble detection time and the preamble length based on the preamble detection signal, the data detector 600 can know the start position of the data following the preamble, and thus can detect the data.

On the other hand, the packet synchronization method of the DSSS receiver of the present invention will be described with reference to FIG.

Referring to FIG. 5, first, an initial threshold value (eg, threshold value 1) is set (S100), and thereafter, a correlation value between a digital signal received in units of DSSS packets and a plurality of preset reference codes is obtained. When the code is equal to or larger than a predetermined code determination value, a code corresponding to the digital signal is repeatedly acquired (S200).

Through this process, a plurality of codes will be obtained during the preamble period of one packet, and at least one code is obtained.

Next, in the first comparison step, the correlation value of each code is compared with the threshold value (S300).

In the second comparison step, if the correlation value of the code is higher than the threshold in the first comparison step, it is compared whether the correlation value of a code located after one packet period from the code is higher than the threshold value (S400).

Then, in the first and second comparison step, if the correlation value of the code is not higher than the threshold value, the preamble cannot be detected, so the threshold value is reset to detect the preamble, and the process proceeds to the first comparison step (S500). ).

If the correlation value of the code is higher than the threshold value, the position of the current code is detected as the preamble position (S600).

Resetting the threshold will be described with reference to FIG. 6.

For example, if the correlation value of the code is not higher than the threshold value when the threshold value is 1, that is, when there is no code correlation value higher than the threshold value value 1, the comparison determination step is performed after resetting to the threshold value 2 lower than the threshold value value. Repeat.

That is, when the correlation value of the code higher than the threshold 2 is confirmed two or more times in succession, the code position is determined as the preamble position.

According to the present invention as described above, when a code is acquired at the time of reception, it is determined whether the same acquisition pattern occurs in the next period, and this signal if the same peak does not occur in another period. It can be seen that is not an acquisition of a normal code. It is possible to estimate the packet structure to recognize and send the beginning of the signal by simply repeating the peak pattern without such a complicated procedure.

Accordingly, when the present invention is applied to a DSSS signal demodulation system without a pilot channel, position detection of a spread code can be performed quickly.

The present invention described above is not limited to the above-described embodiment and the accompanying drawings, but is defined by the claims, and the apparatus of the present invention may be substituted, modified, and modified in various ways without departing from the spirit of the present invention. It is apparent to those skilled in the art that modifications are possible.

According to the present invention as described above, in the DSSS receiver, in the DSSS communication without the pilot channel, spread code acquisition and verification are quickly performed based on the maximum correlation value without code tracking. By doing so, there is an effect that the structure is relatively simple and the reliability can be improved.

Claims (7)

A / D conversion of an analog signal including a DSSS packet into a digital signal, obtaining a correlation value between the digital signal and a plurality of preset reference codes, and when the correlation value is equal to or greater than a predetermined code determination value, A correlator for obtaining a code; A threshold setting unit that sets a threshold according to the threshold reset control; When the correlation value of the code obtained by the correlation unit is higher than the threshold value of the threshold setting unit, and the correlation value of the code located after one packet period from the code is higher than the threshold value of the threshold setting unit, the position of the current code is preamble. A preamble detection unit for generating and outputting a preamble detection signal by recognizing the position and otherwise outputting a preamble undetected signal by recognizing that the preamble position is not detected; And A threshold controller controlling threshold reset in the threshold setting unit according to a preamble non-detection signal from the preamble detector; DSSS packet synchronization device having a. The method of claim 1, wherein the threshold setting unit, And resetting to a threshold lower than a preset threshold according to a threshold reset control of the threshold controller. delete An A / D converter converting an analog signal received in DSSS packet units into a digital signal; A correlation unit for obtaining a correlation value between the digital signal from the A / D converter and a plurality of preset reference codes, and obtaining a code corresponding to the digital signal when the correlation value is equal to or greater than a predetermined code determination value; A threshold setting unit that sets a threshold according to the threshold reset control; When the correlation value of the code obtained by the correlation unit is higher than the threshold value of the threshold setting unit, and the correlation value of the code located after one packet period from the code is higher than the threshold value of the threshold setting unit, the position of the current code is preamble. A preamble detection unit for generating and outputting a preamble detection signal by recognizing the position and otherwise outputting a preamble undetected signal by recognizing that the preamble position is not detected; A threshold controller controlling threshold reset in the threshold setting unit according to a preamble non-detection signal from the preamble detector; And A data detector for detecting data in the digital signal from the A / D converter based on the preamble detection signal from the preamble detector DSSS receiver having a. The method of claim 4, wherein the threshold setting unit, And reset to a threshold lower than a preset threshold according to a threshold reset control of the threshold controller. delete A threshold setting step of setting an initial threshold; A code obtaining step of obtaining a correlation value between a digital signal received in a packet unit and a plurality of preset reference codes, and repeatedly obtaining a code corresponding to the digital signal when the correlation value is equal to or larger than a predetermined code determination value; A first comparing step of comparing whether a correlation of the code is higher than the threshold; In the first comparison step, when the correlation value of the code is higher than the threshold, comparing the correlation value of a code located after one packet period from the code is higher than the threshold value; In the first and second comparing steps, a threshold resetting step for resetting a threshold if the correlation value of the code is not higher than the threshold, and proceeding to the first comparing step; In the second comparing step, the preamble detection step of detecting the position of the current code as a preamble position if the correlation value of the code is higher than the threshold value DSSS packet synchronization method comprising a.

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