Title :
Frequency-domain echo cancellation in digital multicarrier modulation systems
Author :
Bogucka, Hanna ; Wesolowski, Krzysztof
Author_Institution :
Inst. of Electron. & Telecommun., Poznan Tech. Univ., Poland
fDate :
2/1/2000 12:00:00 AM
Abstract :
The data driven frequency-domain echo canceller (EC) for a multicarrier modulation system is considered. An EC in such a system has to deal with both the interchannel and intersymbol interference occurring in the echo signal. For this reason, the main disadvantage of the data driven EC structure is the large computational complexity. Here, the solution of the computational complexity problem is presented. It is based on assumption that in practice, interchannel interference has a limited range. The number of operations per symbol as a measure of the EC computational complexity is given. Simulation results present echo attenuation in the frequency-domain EC, operating in the orthogonally multiplexed quadrature amplitude-shift keying system. Modifications of the proposed EC structure and its computational complexity in the systems with pulse shaping are discussed
Keywords :
OFDM modulation; adjacent channel interference; amplitude shift keying; computational complexity; digital communication; digital subscriber lines; echo suppression; frequency-domain analysis; intersymbol interference; land mobile radio; modems; pulse shaping; quadrature amplitude modulation; ADSL; HDSL; OFDM; QAMSK; SQAM modem; VHDSL; asymmetric digital subscriber line; computational complexity; data driven frequency-domain echo canceller; digital multicarrier modulation systems; echo attenuation; echo signal; high-rate digital subscriber line; interchannel interference; intersymbol interference; mobile radio communication systems; orthogonal frequency-division multiplexing; orthogonally multiplexed quadrature amplitude-shift keying; pulse shaping; simulation results; very high-rate digital subscriber line; Analog-digital conversion; Band pass filters; Computational complexity; DSL; Digital modulation; Digital signal processing; Echo cancellers; Frequency division multiplexing; Intersymbol interference; Modems;
Journal_Title :
Communications, IEEE Transactions on
