In this paper, Bernstein polynomials have been used to derive an explicit formula for the coefficients of linear phase FIR notch filters which are maximally flat at ω=0 and π. The approach is relatively simple and enables us to design the filter for a specific notch frequency and bandwidth
In this paper, a new method for the design of variable bandwidth linear-phase finite impulse respons...
The authors describe a design method for realising FIR linear phase raised cosine filters with >1...
A new technique is presented for the design of digital FIR filters, with a prescribed degree of flat...
A novel approach for designing linear phase FIR notch filters has been proposed. Mathematical formul...
The paper provides, through the use of Bernstein polynomials, a new insight into the design of maxim...
Based on symmetry of the maximally flat frequency re-sponse of a FIR notch filter the new design pro...
This paper presents a recently introduced technique (or the design of Maximally-flat (MAX-FLAT) FIR ...
Notch filters are invariably used in communication, control, instrumentation and bio-medical enginee...
An optimal design procedure for maximally flat FIR (finite impulse response) filters, based on the B...
A new semi-analytic method for designing digital FIR notch filters for a specified notch frequency (...
This paper presents the design of IIR (Infinite Impulse Re-sponse) notch filters with desired magnit...
Discrete-time notch filters can be divided into infinite impulse response (IIR) and finite impulse r...
We focus on the design of finite impulse response (FIR) multiple notch filters. To reduce the comput...
Abstract—This paper presents a two-stage approach for designing an infinite impulse response (IIR) n...
Abstract — A novel analytical procedure for the tuning of finite-impulse response (FIR) filters is i...
In this paper, a new method for the design of variable bandwidth linear-phase finite impulse respons...
The authors describe a design method for realising FIR linear phase raised cosine filters with >1...
A new technique is presented for the design of digital FIR filters, with a prescribed degree of flat...
A novel approach for designing linear phase FIR notch filters has been proposed. Mathematical formul...
The paper provides, through the use of Bernstein polynomials, a new insight into the design of maxim...
Based on symmetry of the maximally flat frequency re-sponse of a FIR notch filter the new design pro...
This paper presents a recently introduced technique (or the design of Maximally-flat (MAX-FLAT) FIR ...
Notch filters are invariably used in communication, control, instrumentation and bio-medical enginee...
An optimal design procedure for maximally flat FIR (finite impulse response) filters, based on the B...
A new semi-analytic method for designing digital FIR notch filters for a specified notch frequency (...
This paper presents the design of IIR (Infinite Impulse Re-sponse) notch filters with desired magnit...
Discrete-time notch filters can be divided into infinite impulse response (IIR) and finite impulse r...
We focus on the design of finite impulse response (FIR) multiple notch filters. To reduce the comput...
Abstract—This paper presents a two-stage approach for designing an infinite impulse response (IIR) n...
Abstract — A novel analytical procedure for the tuning of finite-impulse response (FIR) filters is i...
In this paper, a new method for the design of variable bandwidth linear-phase finite impulse respons...
The authors describe a design method for realising FIR linear phase raised cosine filters with >1...
A new technique is presented for the design of digital FIR filters, with a prescribed degree of flat...
DOI
Add to ORKG