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1 commission c: signals and systems edited by.
| Content Provider | CiteSeerX |
|---|---|
| Author | Akaike, Masami |
| Abstract | C1. Digital signal processing Research and development in the filed of digital signal processing have been very active in Japan for past three years. Especially, various new methods have been investigated in adaptive signal processing, applications of signal processing, implementations of signal processing systems, nonlinear signal processing, theory and algorithms of signal processing, and so on. Adaptive signal processing or adaptive filter design is continuous research topic in digital filtering. Some adaptive algorithms including a gradient type algorithm for blind system [Higa et al., 1999], an algorithm for lattice all-pass filter with minimum multipliers [Okello et al., 1999], Sign-Sign algorithm based on Gaussian distributed tap weights [Koike, 2000], INLMS algorithm [Fujii et al., 2000], and an algorithm for cascaded notch filter [Okello et al., 2001] were investigated. An analysis method for adaptive filters using LMS algorithm [Koike, 1999] was developed. Some application systems including noise canceller [Ikeda et al., 1999], RLS equalizer [Shimamura et al., 2001], beamformer for microphone arrays [Hoshuyama et al., 1999], |
| File Format | |
| Access Restriction | Open |
| Subject Keyword | System Edited Adaptive Signal Processing Signal Processing Tap Weight Adaptive Filter Nonlinear Signal Processing Cascaded Notch Filter Okello Digital Signal Processing Sign-sign Algorithm Noise Canceller Ikeda Application System Adaptive Filter Design Lm Algorithm Koike Signal Processing System Lattice All-pass Filter Digital Filtering Adaptive Algorithm Various New Method Gradient Type Algorithm Microphone Array Minimum Multiplier Digital Signal Processing Research Blind System Higa Analysis Method Continuous Research Topic |
| Content Type | Text |
