Cognitive radar (CR) has recently been considered as a natural next step for traditional radar. The cognitive property assumes both transmitter and receiver to be able to dynamically adapt to environment changes. In this work, we propose to exploit sub-Nyquist sampling methods that have been originally proposed to reduce the sampling rate bottleneck at the receiver. For CR, we extend this approach by only transmitting the spectral bands that are to be sampled and processed on the receiver side. By considering transmitted and received pulses with dynamic support composed of several narrow bands, we pave the way to sub-Nyquist CR. Both software and hardware simulations demonstrate dynamic transmitted signal support, still allowing for delayDo...
Compressed Sensing is a new signal processing methodology that allows to reconstruct sparse signals ...
Cognitive Radio requires both efficient and reliable spectrum sensing of wideband signals. In order ...
In a scenario where a cognitive radio unit wishes to transmit, it needs to know over which frequency...
The cognitive radar (CR) vision has been recently applied to various radar applications. The cogniti...
A cognitive radar adapts the transmit waveform in response to changes in the radar and target enviro...
We present the design and hardware implementation of a radar prototype that demonstrates the princip...
Cognitive Radio (CR) has emerged as the promising solution to overcome the limited spectral resource...
Abstract—In light of the ever-increasing demand for new spec-tral bands and the underutilization of ...
In a scenario where a cognitive radio unit wishes to transmit, it needs to know over which frequency...
Traditional radar sensing typically employs matched filtering between the received signal and the sh...
Abstract—In light of the ever-increasing demand for new spectral bands and the underutilization of t...
Multi-rate asynchronous sub-Nyquist sampling (MASS) is proposed for wideband spectrum sensing. Corre...
Multi-rate asynchronous sub-Nyquist sampling (MASS) is proposed for wideband spectrum sensing. Corre...
Abstract—Traditional radar sensing typically employs matched filtering between the received signal a...
Abstract—We investigate the problem of a monostatic pulse-Doppler radar transceiver trying to detect...
Compressed Sensing is a new signal processing methodology that allows to reconstruct sparse signals ...
Cognitive Radio requires both efficient and reliable spectrum sensing of wideband signals. In order ...
In a scenario where a cognitive radio unit wishes to transmit, it needs to know over which frequency...
The cognitive radar (CR) vision has been recently applied to various radar applications. The cogniti...
A cognitive radar adapts the transmit waveform in response to changes in the radar and target enviro...
We present the design and hardware implementation of a radar prototype that demonstrates the princip...
Cognitive Radio (CR) has emerged as the promising solution to overcome the limited spectral resource...
Abstract—In light of the ever-increasing demand for new spec-tral bands and the underutilization of ...
In a scenario where a cognitive radio unit wishes to transmit, it needs to know over which frequency...
Traditional radar sensing typically employs matched filtering between the received signal and the sh...
Abstract—In light of the ever-increasing demand for new spectral bands and the underutilization of t...
Multi-rate asynchronous sub-Nyquist sampling (MASS) is proposed for wideband spectrum sensing. Corre...
Multi-rate asynchronous sub-Nyquist sampling (MASS) is proposed for wideband spectrum sensing. Corre...
Abstract—Traditional radar sensing typically employs matched filtering between the received signal a...
Abstract—We investigate the problem of a monostatic pulse-Doppler radar transceiver trying to detect...
Compressed Sensing is a new signal processing methodology that allows to reconstruct sparse signals ...
Cognitive Radio requires both efficient and reliable spectrum sensing of wideband signals. In order ...
In a scenario where a cognitive radio unit wishes to transmit, it needs to know over which frequency...