## Optimum signals for high resolution radar and communications systems |

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### Contents

OPTIMUM AMPLITUDES | 6 |

BANDPASS SIGNALS | 23 |

CROSSCORRELATION ANALYSIS | 34 |

1 other sections not shown

### Common terms and phrases

actual cross-correlation ambiguity function amplitude and phase amplitude functions amplitude modulation analysis approximate assumption bandlimited bandpass bandwidth product Chapter coefficients computed correlation corresponding cosh 3w cross cross-correlation function CROSS-CORRELATION Ri2(t D+(r defined by equation denoted derived desirable cross-correlation duration dwi2 eigenfunctions eigenvalue filter output FIVE SIGNAL SYSTEM Fourier transform FOURTH-ORDER WEIGHTING frequency interval Hence implies INCREASED TIME-BANDWIDTH PRODUCT independent insure integral equation integral representation Laplace transform matched filter method of stationary number of signals obvious optimal optimum autocorrelation OPTIMUM SIGNAL AMPLITUDES optimum spectral density ORDER WEIGHTING parameters peak amplitude performance index phase difference phase function phase modulated polynomial produce desirable radar and communications radians relation requires S(to SEVEN SIGNAL signal processing system SIGNAL X3(-t sinh 3B sinusoid SIX SIGNAL SYSTEM solution solve specified spectral density S(w spectral magnitudes spectral phase stationary phase integration stationary point SYSTEM WITH INCREASED technique THREE SIGNAL SYSTEM weighting function F(t xi(t