In this paper, we present a novel architecture based on field-programmable gate arrays (FPGAs) for the reconstruction of compressively sensed signal using the orthogonal matching pursuit (OMP) algorithm. We have analyzed the computational complexities and data dependence between different stages of OMP algorithm to design its architecture that provides higher throughput with less area consumption. Since the solution of least square problem involves a large part of the overall computation time, we have suggested a parallel low-complexity architecture for the solution of the linear system. We have further modeled the proposed design using Simulink and carried out the implementation on FPGA using Xilinx system generator tool. We have presented...
In this paper is presented a novel area efficient Fast Fourier transform (FFT) for real-time compres...
The Shannon-Nyquist theorem enables signal acquisition with sampling frequency greater than or equal...
Complementary metal-oxide-semiconductor (CMOS) radar has recently gained much research attraction be...
International audienceIn this paper, we present a novel architecture based on field-programmable gat...
Today, a number of applications need to process large bandwidth signals. These applications frequent...
Orthogonal matching pursuit (OMP) is the most efficient algorithm used for the reconstruction of com...
This paper reports a field-programmable gate array (FPGA) design of compressed sensing (CS) using th...
Abstract Compressed sensing‐based radio frequency signal acquisition systems call for higher reconst...
This paper presents a novel real-time compressive sensing (CS) reconstruction which employs high den...
Compressive Sensing (CS) is a novel scheme, in which a signal that is sparse in a known transform do...
Conventional sensing techniques often acquire the signals entirely using a lot of resources and then...
Wireless monitoring of physiological signals is an evolving direction in personalized medicine and h...
The conventional Shannon-Nyquist sampling theory sets the goal for a signal to be sampled at a rate ...
Nowadays, communication systems require huge amounts of data to be processed. Some examples of these...
Compressive sensing has opened up a new path to reconstruct images from a number of samples which is...
In this paper is presented a novel area efficient Fast Fourier transform (FFT) for real-time compres...
The Shannon-Nyquist theorem enables signal acquisition with sampling frequency greater than or equal...
Complementary metal-oxide-semiconductor (CMOS) radar has recently gained much research attraction be...
International audienceIn this paper, we present a novel architecture based on field-programmable gat...
Today, a number of applications need to process large bandwidth signals. These applications frequent...
Orthogonal matching pursuit (OMP) is the most efficient algorithm used for the reconstruction of com...
This paper reports a field-programmable gate array (FPGA) design of compressed sensing (CS) using th...
Abstract Compressed sensing‐based radio frequency signal acquisition systems call for higher reconst...
This paper presents a novel real-time compressive sensing (CS) reconstruction which employs high den...
Compressive Sensing (CS) is a novel scheme, in which a signal that is sparse in a known transform do...
Conventional sensing techniques often acquire the signals entirely using a lot of resources and then...
Wireless monitoring of physiological signals is an evolving direction in personalized medicine and h...
The conventional Shannon-Nyquist sampling theory sets the goal for a signal to be sampled at a rate ...
Nowadays, communication systems require huge amounts of data to be processed. Some examples of these...
Compressive sensing has opened up a new path to reconstruct images from a number of samples which is...
In this paper is presented a novel area efficient Fast Fourier transform (FFT) for real-time compres...
The Shannon-Nyquist theorem enables signal acquisition with sampling frequency greater than or equal...
Complementary metal-oxide-semiconductor (CMOS) radar has recently gained much research attraction be...