Add to ORKGModern radar include more and more multiple functions and multiple channels as in the case of MPAR (Multifunction Phased Array Radar) and MIMO (Multiple Input Multiple Output) radar. In this context sophisticated waveforms and related processing (pulse compression, extraction of information) are needed. Moreover, to avoid changes in target RCS and undesirable Doppler effects, the encoded waveforms (one for each channel) have to be transmitted simultaneously and at the same carrier frequency. The orthogonal property is required for the transmitted signals to separate them in reception. A good candidates to design signals that satisfy the orthogonal requirements are the Costas codes (CS) and the Phase Noise (PhaNo) sig...
Synthetic aperture radar (SAR) with multiple transmit and receive channels (MIMO-SAR) has a higher f...
Synthetic aperture radar (SAR) with multiple transmit and receive channels (MIMO-SAR) has a higher f...
The use of multi-carrier waveforms, such as Orthogonal Frequency Division Multiplexing (OFDM) as use...
One of the main focus of the research in modern radar systems, as MIMO (Multiple Input Multiple Ou...
The requirements and the possible solutions for waveforms suited to multifunction phased array radar...
Modern radar include more and more multiple functions and multiple channels; in this context sophist...
Inspired by the success of multi-carrier waveforms such as Orthogonal Frequency Division Multiplexin...
In this research, we investigate the design and analysis of nearly orthogonal, Doppler tolerant wave...
Multiple input/multiple output (MIMO) radar system performance benefits from the capability to simul...
This dissertation considers the optimization of radar performance within the structure imposed by a ...
Multibeam radar (MBR) systems based on waveform diversity require a set of orthogonal waveforms in o...
Abstract- The resolution is the important parameter of the radar. Here waveform design plays an impo...
The performance of modern radar systems mostly depends on the radiated waveforms, whose design is th...
International audienceIn multi-user radar applications, waveforms that show low cross-correlation an...
Synthetic aperture radar (SAR) with multiple transmit and receive channels (MIMO-SAR) has a higher f...
Synthetic aperture radar (SAR) with multiple transmit and receive channels (MIMO-SAR) has a higher f...
The use of multi-carrier waveforms, such as Orthogonal Frequency Division Multiplexing (OFDM) as use...
One of the main focus of the research in modern radar systems, as MIMO (Multiple Input Multiple Ou...
The requirements and the possible solutions for waveforms suited to multifunction phased array radar...
Modern radar include more and more multiple functions and multiple channels; in this context sophist...
Inspired by the success of multi-carrier waveforms such as Orthogonal Frequency Division Multiplexin...
In this research, we investigate the design and analysis of nearly orthogonal, Doppler tolerant wave...
Multiple input/multiple output (MIMO) radar system performance benefits from the capability to simul...
This dissertation considers the optimization of radar performance within the structure imposed by a ...
Multibeam radar (MBR) systems based on waveform diversity require a set of orthogonal waveforms in o...
Abstract- The resolution is the important parameter of the radar. Here waveform design plays an impo...
The performance of modern radar systems mostly depends on the radiated waveforms, whose design is th...
International audienceIn multi-user radar applications, waveforms that show low cross-correlation an...
Synthetic aperture radar (SAR) with multiple transmit and receive channels (MIMO-SAR) has a higher f...
Synthetic aperture radar (SAR) with multiple transmit and receive channels (MIMO-SAR) has a higher f...
The use of multi-carrier waveforms, such as Orthogonal Frequency Division Multiplexing (OFDM) as use...