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Ambiguity function - Wikipedia, the free encyclopedia

Ambiguity function

From Wikipedia, the free encyclopedia

In pulsed radar and sonar signal processing, an ambiguity function is a two-dimensional function of time delay and Doppler frequency χ(τ,f) showing the distortion of an uncompensated matched filter (sometimes called pulse compression) due to the Doppler shift of the return from a moving target. The ambiguity function is determined by the properties of the pulse used, and not any particular target scenario. Many definitions of the ambiguity function exist; Some are restricted to narrowband signals and others are suitable to describe the propagation delay and Doppler relationship of wideband signals. Often the definition of the ambiguity function is given as the magnitude squared of other definitions (Weiss). For a given complex baseband pulse s(t), the narrowband ambiguity function is given by

\chi(\tau,f)=\int_{-\infty}^{\infty}s(t)s^*(t-\tau) e^{-i 2 \pi f t} dt

where * denotes the complex conjugate and i is the imaginary unit. Note that for zero Doppler shift (f = 0) this reduces to the autocorrelation of s(t). A more concise way of representing the ambiguity function consists of examining the one-dimensional zero-delay and zero-Doppler "cuts"; that is, χ(0,f) and χ(τ,0), respectively. The matched filter output as a function of a time (the signal one would observe in a radar system) is a delay cut, with constant frequency given by the target's Doppler shift: χ(τ,fD).

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[edit] Wideband ambiguity function

The wideband ambiguity function of s \in L^2(R) is (Sibul and Ziomek, 1981 in Weiss, 1994)

WB_{ss}(\tau,\alpha)=\sqrt{|{\alpha}|}\int_{-\infty}^{\infty}s(t)s^*({\alpha}(t-\tau))  dt

where α is a time scale factor of the received signal relative to the transmitted signal given by:

{\alpha} = \frac{c-v}{c+v}

for an object moving with constant radial velocity v.

[edit] Ideal ambiguity function

An ambiguity function of interest is a 2-dimensional Dirac delta function or "thumbtack" function; that is, a function which is infinite at (0,0) and zero elsewhere.

χ(τ,f) = δ(τ)δ(f)

An ambiguity function of this kind would be somewhat of a misnomer; it would have no ambiguities at all, and both the zero-delay and zero-Doppler cuts would be an impulse. However, any Doppler shift would make the target disappear. This is not desirable if a target has unknown velocity it will disappear from the radar picture, but if Doppler processing is independently performed, knowledge of the precise Doppler frequency allows ranging without interference from any other targets which are not also moving at exactly the same velocity.

This type of ambiguity function is not physically realizable; that is, there is no pulse s(t) that will produce δ(τ)δ(f) from the definition of the ambiguity function. Approximations exist, however, and binary phase-shift keyed waveforms using maximal-length sequences are the best known performers in this regard [1].

[edit] Properties of the ambiguity function

(1) Maximum value

|{\chi}(\tau,f)|^2\le|{\chi}(0,0)|^2

(2) Symmetry about the origin

χ(τ,f) = χ * ( − τ, − f)

(3) Volume invariance

\int_{-\infty}^{\infty}\int_{-\infty}^{\infty}|{\chi}(\tau,f)|^2d{\tau}df=|{\chi}(0,0)|^2=E^2

(4) Modulation

If s(t)  {\rightarrow} |{\chi}({\tau},f)| then s(t){\exp}^{j{\pi}kt^2} {\rightarrow} |{\chi}(\tau,v+kt)|

(5) Frequency energy spectrum

S(f)S^*(f) = \int_{-\infty}^{\infty}{\chi}(\tau,0) e^{-j2\pi\tau f} d{\tau}

[edit] Square Pulse

Ambiguity function for a square pulse
Ambiguity function for a square pulse

Consider a simple square pulse of duration τ and amplitude A:

A(u(t) − u(t − τ))

where u(t) is the Heaviside step function. The matched filter output is given by the autocorrelation of the pulse, which is a triangular pulse of height τA2 and duration (the zero-Doppler cut). However, if the measured pulse has a frequency offset due to Doppler shift, the matched filter output is distorted into a sinc function. The greater the Doppler shift, the smaller the peak of the resulting sinc, and the more difficult it is to detect the target.

In general, the square pulse is not a desirable waveform from a pulse compression standpoint, because the autocorrelation function is too short in amplitude, making it difficult to detect targets in noise, and too wide in time, making it difficult to discern multiple overlapping targets.

[edit] LFM Pulse

Ambiguity function for an LFM pulse
Ambiguity function for an LFM pulse

A commonly used radar or sonar pulse is the linear frequency modulated (LFM) pulse (or "chirp"). It has the advantage of greater bandwidth while keeping the pulse duration short and envelope constant. A constant envelope LFM pulse has an ambiguity function similar to that of the square pulse, except that it is skewed in the delay-Doppler plane. Slight Doppler mismatches for the LFM pulse do not change the general shape of the pulse and reduce the amplitude very little, but they do appear to shift the pulse in time. Thus, an uncompensated Doppler shift changes the target's apparent range; this phenomenon is called range-Doppler coupling.

[edit] References

  1. ^ G. Jourdain and J. P. Henrioux, "Use of large bandwidth-duration binary phase shift keying signals in target delay Doppler measurements," J. Acoust. Soc. Am. 90, 299-309 (1991).
  • Richards, Mark A. Fundamentals of Radar Signal Processing. McGraw-Hill Inc., 2005. ISBN 0-07-144474-2.
  • Ipatov, Valery P. Spread Spectrum and CDMA. Wiley & Sons, 2005. ISBN 0-470-09178-9
  • Weiss, Lora G. "Wavelets and Wideband Correlation Processing". IEEE Signal Processing Magazine, pp. 13-32, Jan 1994
  • Woodward P.M. Probability and Information Theory with Applications to Radar, Norwood, MA: Artech House, 1980.


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