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IEEJ Transactions on Electrical and Electronic Engineering | Vol.13, Issue.3 | | Pages
An iterative technique for optimally designing a separable 2D FIR filter
The optimal design of a separable two-dimensional (2D) finite impulse response (FIR) filter is a nonlinear programming problem. In this paper, an iterative alternating optimization technique for optimally designing the separable 2D FIR filter in the mini-max sense and the least-square sense is proposed. Implementation of the proposed technique only requires a suitable initial solution. The simulation experiment validates the effectiveness of the proposed technique.
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An iterative technique for optimally designing a separable 2D FIR filter
The optimal design of a separable two-dimensional (2D) finite impulse response (FIR) filter is a nonlinear programming problem. In this paper, an iterative alternating optimization technique for optimally designing the separable 2D FIR filter in the mini-max sense and the least-square sense is proposed. Implementation of the proposed technique only requires a suitable initial solution. The simulation experiment validates the effectiveness of the proposed technique.
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