This paper proposes a new method for designing digital all-pass filters with a minimax design criterion using semidefinite programming (SDP). The frequency specification is first formulated as a set of linear matrix inequalities (LMI), which is a bilinear function of the filter coefficients and the ripple to be minimized. Unlike other all-pass filter design methods, additional linear constraints can be readily incorporated. The overall design problem turns out to be a quasi-convex constrained optimization problem (solved using the SDP) and it can be solved through a series of convex optimization sub-problems and the bisection search algorithm. The convergence of the algorithm is guaranteed. Nonlinear constraints such as the pole radius cons...
A new design method for complex-valued two-channel finite impulse response (FIR) filter banks with b...
The paper presents an efficient semidefinite programming (SDP) based design for prototype filters of...
The contribution contains a description of two different methods for discrete minimax approximation....
Abstract—This paper presents a new algorithm using semidefinite programming (SDP) relaxation to desi...
This brief proposes a new method for designing digital all-pass filters with a minimax design criter...
This paper studies the problem of designing digital finite duration impulse response (FIR) filters w...
Abstract—Analog filters constitute indispensable components of analog circuits. Inspired by recent a...
This project is to study two methods for designing digital filters with a Minimax design criterion. ...
It is well known that the filter-design problem with mask constraints can be formulated as a semi-in...
Abstract This thesis explores an optimization based approach to the design problem of digital filter...
The problem under study here is the minimax design of linear-phase lowpass FIR filters having variab...
Abstract—It is well known that the filter-design problem with mask constraints can be formulated as ...
Many filter and filterbank design problems can be posed as the optimization of linear or convex quad...
[[abstract]]In this work, an iterative linear programming approach is presented to design stable IIR...
The paper presents an efficient semidefinite programming (SDP) based design for prototype filters of...
A new design method for complex-valued two-channel finite impulse response (FIR) filter banks with b...
The paper presents an efficient semidefinite programming (SDP) based design for prototype filters of...
The contribution contains a description of two different methods for discrete minimax approximation....
Abstract—This paper presents a new algorithm using semidefinite programming (SDP) relaxation to desi...
This brief proposes a new method for designing digital all-pass filters with a minimax design criter...
This paper studies the problem of designing digital finite duration impulse response (FIR) filters w...
Abstract—Analog filters constitute indispensable components of analog circuits. Inspired by recent a...
This project is to study two methods for designing digital filters with a Minimax design criterion. ...
It is well known that the filter-design problem with mask constraints can be formulated as a semi-in...
Abstract This thesis explores an optimization based approach to the design problem of digital filter...
The problem under study here is the minimax design of linear-phase lowpass FIR filters having variab...
Abstract—It is well known that the filter-design problem with mask constraints can be formulated as ...
Many filter and filterbank design problems can be posed as the optimization of linear or convex quad...
[[abstract]]In this work, an iterative linear programming approach is presented to design stable IIR...
The paper presents an efficient semidefinite programming (SDP) based design for prototype filters of...
A new design method for complex-valued two-channel finite impulse response (FIR) filter banks with b...
The paper presents an efficient semidefinite programming (SDP) based design for prototype filters of...
The contribution contains a description of two different methods for discrete minimax approximation....