Abstract: The energy compaction performance of two-channel paraunitary finite impulse response (FIR) filter banks for finite-length signals is investigated.
The scope of this paper is the investigation of the energy compaction performance of paraunitary FIR filter banks for finite-length signals. At first, a ...
The scope of this paper is the investigation of the energy compaction performance of paraunitary FIR filter banks for finite-length signals. At first, a ...
The energy compaction performance of two-channel paraunitary finite impulse response (FIR) filter banks for finite-length signals is investigated.
The energy compaction performance of two-channel paraunitary finite impulse response (FIR) filter banks for finite-length signals is investigated.
The design of a M-band FIR paraunitary filter bank adapted to input signal statistics is considered. The adaptation criterion is energy compaction.
Missing: length | Show results with:length
The energy compaction performance of two-channel paraunitary finite impulse response (FIR) filter banks for finite-length signals is investigated. A ...
It is shown that optimal orthonormal. (paraunitary, PU) filter banks that maximize coding gain consist of optimal energy compaction filters [2, 8, 9, 12]. If ...
Missing: performance | Show results with:performance
Jan 1, 2006 · This paper focuses on the design of signal-adapted finite-impulse response (FIR) paraunitary (PU) filter banks optimized for energy compaction ( ...
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5.3 Multirate filter banks - Advanced Signal Processing - Fiveable
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Aug 20, 2024 · Multirate filter banks are a powerful tool in advanced signal processing, allowing for efficient analysis and manipulation of signals at ...