This paper describes how to build a wideband digital receiver using 2 FFTs with bit-reduced kernels and beat frequency resulting from the square of the sampled input data. It reduces the computation time, increases the instantaneous dynamic range, and improves the frequency resolution if compared with a typical fix point FFT approach. Without losing the generality, a 10 bit A/D converter, 2.56 GHz sampling rate, and 256 points of data processing are used for illustration of this approach. The Matlab simulations are used to compare the new approach with the approach using a 10-bit fix point FFT. The simulation results are tabulated
In this work, we propose a new method to improve the dynamic range performance of the Modulated Wide...
The lack of a priori knowledge about the waveform of interest, the multitudes of signals the receive...
The hardware-accelerated time–frequency distribution calculation is one of the commonly used methods...
Fast Fourier transformation (FFT) is widely used in wideband digital receivers to detect multiple si...
This thesis proposes the use of a Systolic Array of Multi-Rate FIR Filters to improve performance by...
The advent of field-programmable gate array (FPGA) has provided an excellent platform to market prot...
The fast Fourier transform (FFT) plays a critical role in many modern applications, such as acoustic...
It is always an interesting research topic for digital receiver (DRX) designers to develop a DRX wit...
Wideband digital receivers are important components used prevalently by the United States Air Force ...
An improved design method for digital down converter (DDC) is proposed here to satisfy the increased...
The fast Fourier sampling (FFS) method is related to the new sampling paradigm, compressive sampling...
With the current trend towards software defined radio, several dandidate architectures for the analo...
Objective of the paper is to design and simulate Digital signal processor for ultra wide band commun...
The Fast Fourier Transform (FFT) Algorithm is an efficient way to calculate the Discrete Fourier Tra...
In mobile communications, there is a great demand to simplify the analog front-end of mobile termina...
In this work, we propose a new method to improve the dynamic range performance of the Modulated Wide...
The lack of a priori knowledge about the waveform of interest, the multitudes of signals the receive...
The hardware-accelerated time–frequency distribution calculation is one of the commonly used methods...
Fast Fourier transformation (FFT) is widely used in wideband digital receivers to detect multiple si...
This thesis proposes the use of a Systolic Array of Multi-Rate FIR Filters to improve performance by...
The advent of field-programmable gate array (FPGA) has provided an excellent platform to market prot...
The fast Fourier transform (FFT) plays a critical role in many modern applications, such as acoustic...
It is always an interesting research topic for digital receiver (DRX) designers to develop a DRX wit...
Wideband digital receivers are important components used prevalently by the United States Air Force ...
An improved design method for digital down converter (DDC) is proposed here to satisfy the increased...
The fast Fourier sampling (FFS) method is related to the new sampling paradigm, compressive sampling...
With the current trend towards software defined radio, several dandidate architectures for the analo...
Objective of the paper is to design and simulate Digital signal processor for ultra wide band commun...
The Fast Fourier Transform (FFT) Algorithm is an efficient way to calculate the Discrete Fourier Tra...
In mobile communications, there is a great demand to simplify the analog front-end of mobile termina...
In this work, we propose a new method to improve the dynamic range performance of the Modulated Wide...
The lack of a priori knowledge about the waveform of interest, the multitudes of signals the receive...
The hardware-accelerated time–frequency distribution calculation is one of the commonly used methods...