Abstract:
A secondary path modeling technique for active noise control systems is developed for both on-line and off-line modeling with faster convergence and higher modeling accur...Show MoreMetadata
Abstract:
A secondary path modeling technique for active noise control systems is developed for both on-line and off-line modeling with faster convergence and higher modeling accuracy. The optimum delay for the adaptive prediction error filter to reduce the interference in system modeling is equal to the length of the impulse response of the secondary path being modeled.
Published in: IEEE Transactions on Speech and Audio Processing ( Volume: 5, Issue: 4, July 1997)
DOI: 10.1109/89.593319
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Step Size ,
- White Noise ,
- Computer Simulations ,
- Error Model ,
- Power Spectrum ,
- Faster Convergence ,
- Impulse Response ,
- Noise Suppression ,
- Filter Order ,
- Adaptive Filter ,
- Finite Impulse Response ,
- Delay Values ,
- Finite Impulse Response Filter ,
- Residual Noise ,
- Least Mean Square ,
- Length In Response ,
- Training Signal ,
- Optimal Delay
Keywords assist with retrieval of results and provide a means to discovering other relevant content. Learn more.
- IEEE Keywords
- Index Terms
- Step Size ,
- White Noise ,
- Computer Simulations ,
- Error Model ,
- Power Spectrum ,
- Faster Convergence ,
- Impulse Response ,
- Noise Suppression ,
- Filter Order ,
- Adaptive Filter ,
- Finite Impulse Response ,
- Delay Values ,
- Finite Impulse Response Filter ,
- Residual Noise ,
- Least Mean Square ,
- Length In Response ,
- Training Signal ,
- Optimal Delay
