We investigate the shared spectrum access between a communication system and a radar which inspects multiple range gates with non-homogeneous interference. The degrees of freedom for system design are the radar waveform, the radar receive filters at each range gate, and the communication codebook. Assuming some cognition of the environment, we propose to maximize the harmonic mean of the signal-to-interference-plus-noise ratio across the range gates inspected by the radar under semi-definite constraints on the communication mutual information, the transmitted power, and the similarity of the radar code to a desired reference signal. Numerical examples are provided to assess the merits of the proposed solution
We consider a communications-centric spectrum sharing scenario where the communications link has a m...
Abstract—One of the major objectives of cognitive radar is to form a dynamic closed feedback loop to...
Currently, the spectrum is allocated using fixed methods, where the spectral bands are all purchased...
We investigate the shared spectrum access between a communication system and a radar which inspects ...
In this paper, we investigate the spectral coexistence between a multiple-input multiple-output (MIM...
This paper deals with the problem of a cognitive radar system that shares the same frequency band wi...
Energy efficiency, possibly coupled with cognitionbased and spectrum-sharing architectures, is a key...
In this study, we consider the joint design of a multiple-input multiple-output communication system...
With the development of intelligent transportation, radar and communication on moving platforms are ...
Cognitive radar offers the prospect of improved performance, or alternatively, the maintenance of ex...
In this paper we describe a methodology of jointly designing waveforms for a semi-cooperative, distr...
Rigid allocation policies can no longer satisfy the growing demand for spectrum. There is a great ne...
Cognitive radar can overcome the shortcomings of traditional radars that are difficult to adapt to c...
This paper presents a spectrum sharing technology enabling interference-free operation of a surveill...
In this work, we consider the joint design of a surveillance radar and a multiple-input multiple-out...
We consider a communications-centric spectrum sharing scenario where the communications link has a m...
Abstract—One of the major objectives of cognitive radar is to form a dynamic closed feedback loop to...
Currently, the spectrum is allocated using fixed methods, where the spectral bands are all purchased...
We investigate the shared spectrum access between a communication system and a radar which inspects ...
In this paper, we investigate the spectral coexistence between a multiple-input multiple-output (MIM...
This paper deals with the problem of a cognitive radar system that shares the same frequency band wi...
Energy efficiency, possibly coupled with cognitionbased and spectrum-sharing architectures, is a key...
In this study, we consider the joint design of a multiple-input multiple-output communication system...
With the development of intelligent transportation, radar and communication on moving platforms are ...
Cognitive radar offers the prospect of improved performance, or alternatively, the maintenance of ex...
In this paper we describe a methodology of jointly designing waveforms for a semi-cooperative, distr...
Rigid allocation policies can no longer satisfy the growing demand for spectrum. There is a great ne...
Cognitive radar can overcome the shortcomings of traditional radars that are difficult to adapt to c...
This paper presents a spectrum sharing technology enabling interference-free operation of a surveill...
In this work, we consider the joint design of a surveillance radar and a multiple-input multiple-out...
We consider a communications-centric spectrum sharing scenario where the communications link has a m...
Abstract—One of the major objectives of cognitive radar is to form a dynamic closed feedback loop to...
Currently, the spectrum is allocated using fixed methods, where the spectral bands are all purchased...