A family of stable causal perfect reconstruction (PR) infinite-impulse response (IIR) Discrete Fourier transform filter banks is presented, where a tradeoff between frequency selectivity and numerical properties is made. Some multipliers in both the analysis and synthesis filters could be made powers or sums of powers of tno, in particular for feedback loops. Moreover, a simple scaling procedure that results in good sensitivity behavior is described, For these reasons, and also for the use of low-order IIR filters, the overall digital filter-bank structure is efficient for high data-rate applications. ii design example, including quantization effects, is provided
peer reviewedWe propose a novel methodology for designing oversampled discrete Fourier transform-mod...
On completion of this course, you will be able to � Classify properties of discrete-time systems suc...
This paper studies the theory and design of a class of perfect reconstruction (PR) uniform causal-st...
Design procedures for stable, causal and perfect reconstruction IIR parallel uniform DFT filter bank...
A simple design procedure for stable, causal and perfect reconstruction infinite impulse response pa...
The 47th Midwest Symposium on Circuits and Systems Conference, Salt Lake City, Utah, USA, 25-28 July...
In this paper, new design and factorization methods of two-channel perfect reconstruction (PR) filte...
This paper proposes a new class of two-channel structural perfect reconstruction (PR) finite-impulse...
Abstract—In this paper, a new method for designing perfect reconstruction (PR) two-channel causal st...
Abstract- This paper presents some improvements to the known structure of the synthesis part of near...
Abstract—We describe a systematic method for designing highly accurate and efficient infinite impuls...
We introduce an efficient method for the design of causal stable IIR lter bank (FB) with Powers-of-t...
Oversampled filter banks are currently being proposed for robust transmission applications. In this ...
Digital filters are fundamental and integral parts of many digital signal processing systems, such a...
[[abstract]]In this thesis, the optimal synthesis and stability analysis methods are pre-sented for ...
peer reviewedWe propose a novel methodology for designing oversampled discrete Fourier transform-mod...
On completion of this course, you will be able to � Classify properties of discrete-time systems suc...
This paper studies the theory and design of a class of perfect reconstruction (PR) uniform causal-st...
Design procedures for stable, causal and perfect reconstruction IIR parallel uniform DFT filter bank...
A simple design procedure for stable, causal and perfect reconstruction infinite impulse response pa...
The 47th Midwest Symposium on Circuits and Systems Conference, Salt Lake City, Utah, USA, 25-28 July...
In this paper, new design and factorization methods of two-channel perfect reconstruction (PR) filte...
This paper proposes a new class of two-channel structural perfect reconstruction (PR) finite-impulse...
Abstract—In this paper, a new method for designing perfect reconstruction (PR) two-channel causal st...
Abstract- This paper presents some improvements to the known structure of the synthesis part of near...
Abstract—We describe a systematic method for designing highly accurate and efficient infinite impuls...
We introduce an efficient method for the design of causal stable IIR lter bank (FB) with Powers-of-t...
Oversampled filter banks are currently being proposed for robust transmission applications. In this ...
Digital filters are fundamental and integral parts of many digital signal processing systems, such a...
[[abstract]]In this thesis, the optimal synthesis and stability analysis methods are pre-sented for ...
peer reviewedWe propose a novel methodology for designing oversampled discrete Fourier transform-mod...
On completion of this course, you will be able to � Classify properties of discrete-time systems suc...
This paper studies the theory and design of a class of perfect reconstruction (PR) uniform causal-st...