KR20100057222A - Method of analyzing performance of css system in the presence of tone jamming signal - Google Patents

Abstract

PURPOSE: A performance analyzing method for a CSS(Chirp Spread Spectrum) system corresponding to a tone jamming signal is provided to analyze the signal model of a CSS communication system in a tone jamming environment, thereby providing a SER analytical method. CONSTITUTION: A transmitter of a CSS(Chirp Spread Spectrum) system models a transmission signal. A received signal is modeled with the modeled transmission signal through multiple jamming signals. The modeled received signal models an output signal which has gone through a down-chirp filter in a signal space. The CSS system induces a closed shape SER(Symbol Error Rate) expression. The process which models the transmission signal is comprised as follows. The phase is falsified to a short pulse of IF at each symbol period.

Description

Method of performance analysis of CS system according to tone jamming signal {METHOD OF ANALYZING PERFORMANCE OF CSS SYSTEM IN THE PRESENCE OF TONE JAMMING SIGNAL}

The present invention is a direct modulation (DM) based chirp spread spectrum (CS) based communication system employing M-ary phase shift keying as the MPSK (-ary phase shift keying) data modulation method (DM-MPSK). As a system model, the present invention relates to a method for analyzing the symbol error rate (SER) performance of DM-MPSK in a tone jamming environment and derived equations.

CSS technology is a spread-band technique that obtains high processing gain by compressing a chirp signal into a very narrow pulse. Such CSS technology has attracted much attention in the field of wireless communication due to its good bandwidth efficiency and strong characteristics of multipath fading and jamming signals. In recent years, the Institute of Electrical and Electronics Engineers (IEEE) has adopted CSS as the 802.15.4a physical layer standard technology, a standard for low-speed wireless personal area network (WPAN) systems. 802.15.4c, which is currently being standardized, is considering using CSS technology that combines MPSK or offset quadrature phase shift keying (OQPSK) with WPAN systems for use in China.

According to J. Pinkley's paper "Low Complexity Indoor Wireless Data Links Using Chirp spread spectrum," CSS technology uses binary orthogonal keying (BOK) and direct modulation (depending on how the chirp signal is used in the modulation process). Direct modulation (DM) can be classified into two types. The BOK method is a method of expressing data using a chirp signal. For example, in order to transmit bits "0" and "1", a chirp signal having a positive and negative instantaneous frequency change rate may be transmitted. On the other hand, the DM method uses a chirp signal only as a code for spreading function, and the chirp processing process is performed independently from the data modulation / demodulation process. Therefore, the DM scheme may be used by adopting various data modulation techniques.

However, with respect to such a CSS technique, the related arts only disclose a wireless transmission method using a chirp signal and an apparatus for executing the method, but do not disclose a method for measuring the performance of a chirp system in a jamming environment. Therefore, there is a problem that does not sufficiently reflect the actual environment in the design of the actual system.

The present invention has been made to solve the above problems, and an object of the present invention is to analyze the symbol error rate performance of the CSS in the jamming environment in the design of the actual CSS system, to calculate the exact performance value in advance through the formula and It is to provide a way to reflect in the design.

It is still another object of the present invention to provide a method for analyzing SER performance of DM-MPSK in a tone jamming environment by using a DM-based CSS based communication system (DM-MPSK) as a system model using MPSK as a data modulation scheme. .

In order to achieve the above object, the performance analysis method of the CSS system according to the tone jamming signal according to the present invention comprises the steps of modeling the transmitted signal by passing the up-up filter in the transmitter of the CSS system; Modeling a received signal as the sum of the modeled transmission signal and jamming signal; Modeling an output signal in which the modeled received signal has passed through a down-chipping filter in a signal space; And deriving a closed SER equation in the CSS system.

The performance analysis method of a CSS system according to a tone jamming signal according to the present invention provides a SER analysis method and a performance equation by analyzing a signal model of a CSS communication system in a tone jamming environment.

The symbol error rate equations derived by the performance analysis method of the CSS system according to the tone jamming signal according to the present invention coincide with the simulation result and have a very accurate value.

The performance analysis method and symbol error rate equation of the CSS system according to the tone jamming signal according to the present invention can be usefully used to consider the actual environment in the CSS system design.

는 다음의 수학식1과 같이 표현된다.Lowpass equivalent form of concubine signal

Is expressed by Equation 1 below.

와 μ(μ≠0)는 각각 첩 신호 구간과 첩 신호의 순간주파수 변화율 (chirp rate)을 나타낸다. μ > 0인 경우 첩 신호의 순간주파수는 시간에 따라 증가하며 이를 업-첩(up-chirp) 신호라 한다. 반면에, μ < 0 인 경우 순간주파수는 시간에 따라 감소하며 이를 다운-첩 (down-chirp) 신호라 한다.here

And μ (μ ≠ 0) represent the chirp signal interval and chirp rate of the chirp signal, respectively. If μ> 0, the instantaneous frequency of the chirp signal increases with time and is called an up-chirp signal. On the other hand, when μ <0, the instantaneous frequency decreases with time and is called a down-chirp signal.

마다 중간주파수 (intermediate frequency, IF)의 짧은 펄 스로 변조된다. 이렇게 위상 변조된 IF 펄스를 임펄스 응답이

인 업-첩 필터에 통과시킴으로써 i 번째 DM-MPSK 심벌

를 수학식 2 같이 모형화할 수 있다(i = 1,2,...,).Figure 1 shows the structure of a typical DM-MPSK system. Input data is mapped to MPSK constellation plots

Each time it is modulated with a short pulse of intermediate frequency (IF). This phase-modulated IF pulse has an impulse response

I-th DM-MPSK symbol by passing through an up-up filter

Can be modeled as in Equation 2 (i = 1,2, ...,).

는 심벌 에너지를 나타내고,

는 i 번째 데이터를 의미하며,

중 하나의 값을 가진다. 수신기에서는, 수신된 신호를 임펄스 응답이

인 다운-첩 필터에 통과시킨다. 따라서 번째 다운-첩 필터 출력

는 수학식3과 같이 나타낼 수 있다.here

Represents the symbol energy,

Means the i th data,

Has one of the values. At the receiver, the impulse response

Pass through the down-chipped filter. Thus the second down-chirp filter output

Can be expressed as in Equation 3.

는 CSS 대역폭으로써, 첩 신호 구간 동안 첩 신호의 순간주 파수가 변화한 범위를 의미하고 '

’는 길쌈 연산 기호이다. 또한 수학식 3은 수신된 첩 신호가 다운-첩 필터를 통하여 sinc함수와 유사한 형태의 매우 좁은 펄스

로 압축되었음을 보여준다. 따라서 첩 신호 구간과

의 펄스 폭의 비로 정의되는 처리 이득 (processing gain, 압축율)

는

가

에서 첫 번째 0값을 가짐에 따라

의 값을 가진다. 마지막으로,

가 최대값을 가지는 t = 0에서 샘플링된 다운-첩 필터 출력을 복조하고 검파함으로써 출력 데이터를 생성한다.Where B

Is the CSS bandwidth, which means the range where the instantaneous frequency of the chirp signal has changed during the chirp signal interval.

'Is a convolutional operation symbol. In addition, Equation 3 shows that the received chirp signal is a very narrow pulse in the form of a sinc function through a down-chirp filter.

To be compressed. So the chirp signal interval

Processing gain, defined as the ratio of the pulse widths

Is

end

As having the first zero value in

Has the value Finally,

Produces output data by demodulating and detecting the down-chirp filter output sampled at t = 0 having a maximum value.

는 수학식 4와 같이 모형화될 수 있다.The present invention considers a tone jamming signal model that interferes with a specific frequency (mainly center frequency) of the other party's transmission signal to reduce the reliability of the communication.

May be modeled as in Equation 4.

와

는 각각 톤 재밍 신호의 전력과 중심주파수를 나타내고, 는 의 범위에 존재하는 균일 분포 불규칙변수를 의미한다. 따라서

의 저역통과 등가 형태

를 수학식 5와 같이 얻을 수 있다.here

Wow

Are the power and center frequency of the tone jamming signal, respectively, and are the uniformly distributed random variables in the range of. therefore

Lowpass equivalent form of

Can be obtained as shown in Equation 5.

는 수학식 6과 같이 나타낼 수 있다.The DM-MPSK signal plus the tone jamming signal passes through the down-chirp filter at the receiver, with the down-chirp filter output sampled at t = 0

Can be expressed as in Equation 6.

과

의 길쌈 연산은 수학식 7과 같이 확장될 수 있다.here

and

The convolutional operation of may be extended as shown in Equation 7.

와

를, t < 0 일 경우 각각

와

를 값으로 가진다. 이때, 수학식 7의 적분식이 아래의 수학식 8과 같이 정의된 프레넬 적분 (Fresnel integral)

와 유사한 형태를 가지는 것을 확인할 수 있다.Where α and β are t ≥ 0, respectively

Wow

Respectively, if t <0

Wow

Has as the value. At this time, the integral formula of Equation 7 is Fresnel integral defined as Equation 8 below

It can be seen that it has a form similar to.

의 닫힌꼴 표현을 수학식 9와 같이 얻을 수 있다.With this in mind, Equations 7 and 8

The closed form of can be obtained as in Equation 9.

Accordingly, Equation 6 may be represented again as shown in Equation 10 below.

는 [0, 2π]의 범위에 존재하는 균일 분포 불규칙변수를 나타낸다. 수학식10을 통하여

을 신호 공간에서 심벌 벡터와 재밍 벡터의 합으로 모형화할 수 있으며,

일 경우의 예를 도2 내지 도6에 나타내었다. 도면에서 점선은 재밍 벡터에 의한

의 자취를 나타낸다. here

Denotes a uniformly distributed random variable in the range of [0, 2π]. Through Equation 10

Can be modeled as the sum of symbol and jamming vectors in signal space,

An example of one case is shown in FIGS. The dashed line in the figure is due to the jamming vector.

It shows the trace of.

와

의 경우에 대하여 나타낸다. 도2에서,

이 Imag축(BPSK의 결정 경계)의 왼쪽에 존재하는 경우 심벌 에러가 발생함을 알 수 있다. 따라서

인 경우에 대하여 DM-BPSK의 SER

를 아래의 수학식 11과 같이 구할 수 있다.Figures 2 and 3 show the (DM-BPSK) signal space representations for

Wow

It shows about the case. In Figure 2,

It can be seen that a symbol error occurs when it exists on the left side of this Imag axis (crystal boundary of BPSK). therefore

SER of DM-BPSK

Can be obtained as in Equation 11 below.

인 경우,

의 자취는 항상 결정 경계 오른쪽에 존재하며 심벌 에러가 발생하지 않아 SER은 0이 된 다. 따라서 톤 재밍 신호에 따른 DM-BPSK의 SER

는 다음의 수학식 12와 같이 정리될 수 있다.On the other hand, as shown in Figure 3

Quot;

The trace of is always on the right side of the decision boundary and SER is zero because no symbol error occurs. Therefore, SER of DM-BPSK according to tone jamming signal

Can be summarized as in Equation 12 below.

인 경우의

의 자취를 나타내며 이 경우에 대한 DM-MPSK의 SER

를 아래의 수학식 13과 같이 유도할 수 있다.In the case of (M> 2) of DM-MPSK, the SER equation may be obtained from FIGS. 4 to 6 through the same approach as the derivation process of Equation 12. FIG. 4 is

When

SER of DM-MPSK for this case

Can be derived as in Equation 13 below.

인 경우 SER은

로 구할 수 있다. 마지막으로 도6과 같이

가 충분히 큰 환경에서는

의 자취가 모두 결정 경계 내에 존재하므로 SER이 0이 된다. 따라서 톤 재밍 신호에 따른 DM-MPSK(M > 2)의 SER

를 아래의 수학식 14와 같이 정리할 수 있다.On the other hand, as shown in Figure 5

SER is

Can be obtained as Finally, as shown in Figure 6

In an environment that is large enough

Since all traces of are within the crystal boundary, the SER is zero. Therefore, SER of DM-MPSK (M> 2) according to tone jamming signal

Can be arranged as in Equation 14 below.

) 0.5㎲이고, 순간주파수 변화율(μ)은 400MHz/㎲이며, 처리 이득(

)이 100이고, CSS 대역폭(B)은 200MHz인 첩 신호가 사용되었으며, 변조 기법으로는 DM-BPSK (M = 2), DM-QPSK (M = 4), DM-8PSK (M = 8)를 채택하였다. Next, the results of the simulation and the SER performance formula of the DM-MPSK system derived in the present invention is compared. In the simulation, the concubine interval is (

) Is 0.5 Hz, and the instantaneous frequency change rate (μ) is 400 MHz / Hz, and the processing gain (

) Is 100, CSS bandwidth (B) is 200 MHz, and a chirp signal is used. Adopted.

7 is a graph comparing the SER theory and the simulation results of the DM-MPSK system according to the tone jamming signal. The theoretical SER curve is shown using Equation 12 and Equation 14 derived from the present invention.

인 경우, 도3과 도6을 통해 분석한 바와 같이 심벌 에러가 발생하지 않음을 확인할 수 있다.

= 100에 대하여, SER이 0이 되기 시작하는

의 문턱값

은

dB로 주어지고, M = 2,4,8 인 경우에 대하여 각각 0.392dB, 0.392dB, 3.965dB로 계산되며 도7에서 확인할 수 있다.From the graph of Figure 7, it can be seen that the SER theoretical value derived from the present invention coincides with the SER result through simulation. Also,

In this case, it can be seen that no symbol error occurs as analyzed through FIGS. 3 and 6.

For = 100, the SER starts to become zero

Threshold

silver

Given in dB, and calculated for 0.392dB, 0.392dB, 3.965dB for the case of M = 2, 4, 8 can be seen in Figure 7.

The above description is merely illustrative of the technical details of the present invention, and those skilled in the art to which the present invention pertains may various modifications and changes without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be construed as being included in the scope of the present invention.

1 is a block diagram of a direct modulation M-ary phase shift keying (DM-MPSK) system.

인 경우, 다운-첩 필터 출력 g_i'(0)의 신호 공간을 도시한 그래프.Figure 2 shows the DM-BPSK according to the tone jamming signal

Is a graph showing the signal space of the down-chirp filter output g _i '(0).

인 경우, 다운-첩 필터 출력 g_i'(0)의 신호 공간을 도시한 그래프.3 illustrates DM-BPSK according to a tone jamming signal.

Is a graph showing the signal space of the down-chirp filter output g _i '(0).

인 경우, 다운- 첩 필터 출력 g_i'(0)의 신호 공간을 도시한 그래프.4 illustrates DM-MPSK according to a tone jamming signal.

Is a graph showing the signal space of the down-chirp filter output g _i '(0).

인 경우, 다운-첩 필터 출력 g_i'(0)의 신호 공간을 도시한 그래프.5 illustrates DM-MPSK according to a tone jamming signal.

Is a graph showing the signal space of the down-chirp filter output g _i '(0).

가 충분히 큰 경우, 다운-첩 필터 출력 g_i'(0)의 신호 공간을 도시한 그래프.6 illustrates DM-MPSK according to a tone jamming signal.

Is a sufficiently large graph showing the signal space of the down-chirp filter output g _i '(0).

7 is a graph showing the SER performance (G _p = 100) of DM-MPSK according to tone jamming signal.

Claims (5)

Modeling the transmitted signal by passing the up-chipping filter at the transmitter of the CSS system; Modeling a received signal as the sum of the modeled transmission signal and jamming signal; Modeling an output signal in which the modeled received signal has passed through a down-chipping filter in a signal space; And Deriving a closed SER equation in the CSS system; SER performance analysis method and SER performance formula of CSS system according to tone jamming. The method of claim 1, Modeling the transmission signal, Mapping the input data to the MPSK constellation diagram; Phase modulating with a short pulse of intermediate frequency IF every symbol period; And Pass the phase-modulated IF pulse through an up-chipping filter to pass the i-th DM-MPSK transmission signal to a lowpass equivalent signal

Modeling with; characterized in that it further comprises SER performance analysis method and SER performance formula of CSS system according to tone jamming. The method of claim 1, Modeling a received signal by the sum of the modeled transmission signal and the jamming signal, Lowpass equivalent signal of transmission signal

Low Pass Equivalent Signal for Tone and Jamming Signals

It is modeled by the sum of the input to the receiver, characterized in that SER performance analysis method and SER performance formula of CSS system according to tone jamming. The method of claim 1, In the CSS system, the output signal passing through the down-chipping filter may be modeled in a signal space. Down-chipping filter output signal of received signal

To

Is sampled at the point that has the maximum value, and the sampled value is modeled as the sum of the vectors in the signal space. SER performance analysis method and SER performance formula of CSS system according to tone jamming. The method of claim 1, Deriving a closed SER formula in the CSS system, Modeled as Sum of Vectors in Signal Space

To geometrically analyze and derive closed SER equation of CSS system according to tone jamming SER performance analysis method and SER performance formula of CSS system according to tone jamming.

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