Waveform diversity via mutual information
Digital Signal Processing
MIMO radar waveform optimization with prior information of the extended target and clutter
IEEE Transactions on Signal Processing
Design of phase codes for radar performance optimization with a similarity constraint
IEEE Transactions on Signal Processing
Code design for radar STAP via optimization theory
IEEE Transactions on Signal Processing
A Doppler robust max-min approach to radar code design
IEEE Transactions on Signal Processing
Optimization of radar phase-coded signals for multiple target detection
Signal Processing
| Hi-index | 754.85 |
Optimal detection of a target return contaminated by signal-dependent interference, as well as additive channel noise, requires the design of a transmit pulse f(t) and a receiver impulse response h(t) jointly maximizing the output signal to interference plus noise ratio (SINR). Despite the highly nonlinear nature of this problem, it has been possible to show that f(t) may always be chosen minimum-phase. A full analysis concludes with the construction of an effective numerical procedure for the determination of optimal pairs (f,h) that appears to converge satisfactorily for most values of input SINR. Extensive simulation reveals that the shape of f(t) can be a critical factor. In particular, the performance of a chirp-like pulse is often unacceptable, especially when clutter and channel noise are low-pass dominant and comparable