Add to ORKGDigital filters design is an important aspect of the audio processing. They are used in several applications and the key point is not only the achieved final audio quality but also their computational complexity. In this context, the use of Interpolated Finite Impulse Response (IFIR) filters is proposed for the optimized implementation of a digital crossover network. In particular, the structure can be viewed as an analysis filter-bank that can be optimized introducing IFIR filters that allow to reach very narrow transition bands, with low computational complexity and linear phase, avoiding ripple between adjacent bands. Starting from a real-time implementation of the proposed crossover network, several experiments have been conducted to pr...
This study provides a review of digital filters known under the name “interpolated finite impulse re...
An efficient technique to reduce the impact of extraneous peaks in the transition bands of optimum F...
A new simple method to design linear-phase finite impulse response (FIR) digital filters, based on t...
Digital filters design is an important aspect of the audio processing. They are used in several appl...
In the digital audio processing field, crossover networks play an essential rule, and they are emplo...
The finite impulse response filters are inherently stable and have linear phase response property. T...
Digital audio equalization is a very common procedure in the acoustic field that allows to improve t...
Loudspeaker systems are quite complex devices and considered ‘musical instruments’ for many HiFi-ent...
Digital filters are fundamental and integral parts of many digital signal processing systems, such a...
In many digital-filtering applications, it is crucial that the shape of the waveform to be filtered ...
Crossover networks for multi-way loudspeaker systems and audio processing are reviewed, including bo...
Abstract:- This paper proposes a new design of a computationally efficient FIR filters with wide pas...
This paper is a contribution to the definition of a new kind of digital signal processing chain. It ...
<p>Digital signal processing (DSP) circuits are extremely important in computing and communications ...
Abstract: Based on polynomial functions this paper introduces a generalized design method for interp...
This study provides a review of digital filters known under the name “interpolated finite impulse re...
An efficient technique to reduce the impact of extraneous peaks in the transition bands of optimum F...
A new simple method to design linear-phase finite impulse response (FIR) digital filters, based on t...
Digital filters design is an important aspect of the audio processing. They are used in several appl...
In the digital audio processing field, crossover networks play an essential rule, and they are emplo...
The finite impulse response filters are inherently stable and have linear phase response property. T...
Digital audio equalization is a very common procedure in the acoustic field that allows to improve t...
Loudspeaker systems are quite complex devices and considered ‘musical instruments’ for many HiFi-ent...
Digital filters are fundamental and integral parts of many digital signal processing systems, such a...
In many digital-filtering applications, it is crucial that the shape of the waveform to be filtered ...
Crossover networks for multi-way loudspeaker systems and audio processing are reviewed, including bo...
Abstract:- This paper proposes a new design of a computationally efficient FIR filters with wide pas...
This paper is a contribution to the definition of a new kind of digital signal processing chain. It ...
<p>Digital signal processing (DSP) circuits are extremely important in computing and communications ...
Abstract: Based on polynomial functions this paper introduces a generalized design method for interp...
This study provides a review of digital filters known under the name “interpolated finite impulse re...
An efficient technique to reduce the impact of extraneous peaks in the transition bands of optimum F...
A new simple method to design linear-phase finite impulse response (FIR) digital filters, based on t...