Title :
Discrete multitone echo cancelation
Author :
Ho, Minnie ; Cioffi, John M. ; Bingham, John A C
Author_Institution :
Radix Technol., Mountain View, CA, USA
fDate :
7/1/1996 12:00:00 AM
Abstract :
Multicarrier transmission methods have long been known to optimize the performance of data transceivers on bandlimited communication channels. One form of multicarrier transmission, known as discrete multitone modulation (DMT), is particularly attractive for its ability to be implemented using efficient digital signal processing techniques. Given a basic DMT system, it is possible to increase the aggregate data rate with full-duplex transmission using echo cancelation. However, DMT echo cancelation at first appears difficult because of the computational complexity required in a straightforward implementation to cancel the cross-echoes produced by each carrier into every carrier. This paper presents high-speed echo cancelation techniques for full-duplex data transmission using DMT systems. The techniques estimate the echo with a method of fast convolution that combines a complex multiply per tone with a short convolution in the time domain. In addition, the frequency-domain update of the echo parameters consists of one complex multiply per tap. As a result, these techniques can achieve much lower complexity than that required by traditional single-carrier technique, such as the least mean square (LMS) algorithm. This approach has been implemented for asymmetric digital subscriber line (ADSL) applications
Keywords :
computational complexity; convolution; data communication; echo suppression; frequency-domain analysis; modulation; subscriber loops; ADSL; DMT system; aggregate data rate; asymmetric digital subscriber line; bandlimited communication channels; computational complexity; data transceivers; digital signal processing; discrete multitone echo cancelation; discrete multitone modulation; echo parameters; fast convolution method; frequency-domain update; full-duplex data transmission; high-speed echo cancelation; multicarrier transmission methods; performance optimisation; Aggregates; Communication channels; Computational complexity; Convolution; Data communication; Digital signal processing; Least squares approximation; OFDM modulation; Optimization methods; Transceivers;
Journal_Title :
Communications, IEEE Transactions on
