Traditional radar sensing typically employs matched filtering between the received signal and the shape of the transmitted pulse. Matched filtering (MF) is conventionally carried out digitally, after sampling the received analog signals. Here, principles from classic sampling theory are generally employed, requiring that the received signals be sampled at twice their baseband bandwidth. The resulting sampling rates necessary for correlation-based radar systems become quite high, as growing demands for target distinction capability and spatial resolution stretch the bandwidth of the transmitted pulse. The large amounts of sampled data also necessitate vast memory capacity. In addition, real-time data processing typically results in high powe...
The majority of new radar applications requires to analyse a large frequency spectrum in real time, ...
Abstract—Recently, a new approach to sub-Nyquist sampling and processing in pulse-Doppler radar was ...
Many radar and communications applications require detection and estimation of signal information ac...
Abstract—Traditional radar sensing typically employs matched filtering between the received signal a...
We present the design and hardware implementation of a radar prototype that demonstrates the princip...
Abstract In a conventional radar system, the hardware cost increases with the sampling rate of the r...
Abstract—We investigate the problem of a monostatic pulse-Doppler radar transceiver trying to detect...
Abstract—We investigate the problem of a monostatic pulse-Doppler radar transceiver trying to detect...
Multiple input multiple output (MIMO) radar exhibits several advantages with respect to traditional ...
In this paper we present a complete (hardware/ software) sub-Nyquist rate (× 13) wideband signal acq...
Modern pulse compression radar involves digital signal processing of high bandwidth pulses modulated...
The ultra wide band pulsed radar uses a very narrow pulse width. Sampling this narrow pulse at the N...
Pulse Doppler multiple input multiple output (MIMO) radar allows to simultaneously detect targets' r...
We present a hardware prototype of the sub-Nyquist multiple input multiple output radar (SUMMeR) sys...
In most modern high-resolution multi-channel radar systems one of the major problems to deal with is...
The majority of new radar applications requires to analyse a large frequency spectrum in real time, ...
Abstract—Recently, a new approach to sub-Nyquist sampling and processing in pulse-Doppler radar was ...
Many radar and communications applications require detection and estimation of signal information ac...
Abstract—Traditional radar sensing typically employs matched filtering between the received signal a...
We present the design and hardware implementation of a radar prototype that demonstrates the princip...
Abstract In a conventional radar system, the hardware cost increases with the sampling rate of the r...
Abstract—We investigate the problem of a monostatic pulse-Doppler radar transceiver trying to detect...
Abstract—We investigate the problem of a monostatic pulse-Doppler radar transceiver trying to detect...
Multiple input multiple output (MIMO) radar exhibits several advantages with respect to traditional ...
In this paper we present a complete (hardware/ software) sub-Nyquist rate (× 13) wideband signal acq...
Modern pulse compression radar involves digital signal processing of high bandwidth pulses modulated...
The ultra wide band pulsed radar uses a very narrow pulse width. Sampling this narrow pulse at the N...
Pulse Doppler multiple input multiple output (MIMO) radar allows to simultaneously detect targets' r...
We present a hardware prototype of the sub-Nyquist multiple input multiple output radar (SUMMeR) sys...
In most modern high-resolution multi-channel radar systems one of the major problems to deal with is...
The majority of new radar applications requires to analyse a large frequency spectrum in real time, ...
Abstract—Recently, a new approach to sub-Nyquist sampling and processing in pulse-Doppler radar was ...
Many radar and communications applications require detection and estimation of signal information ac...