Title :
Optimal antenna diversity combining for IEEE 802.11a system
Author :
Ouyang, Xuemei ; Ghosh, Monisha ; Meehan, Joseph P.
Author_Institution :
Philips Res. USA, Briarcliff Manor, NY, USA
fDate :
8/1/2002 12:00:00 AM
Abstract :
IEEE 802.11a/g devices promise to accommodate the increasing consumer demands for high data rate wireless communications. A novel optimal decoding method for receiver antenna diversity combining for COFDM system is discussed. The proposed method provides robust wireless connections for applications such as wireless multimedia communications. The proposed optimal diversity combining integrates the channel equalization, demodulation (bit metrics calculation) and diversity combining in the decoder, which is the maximum likelihood decoding method for the diversity combining for COFDM system. The proposed method can have about 4-6 dB gain over a single antenna receiver and 2-4 dB gain over a conventional symbol level diversity-combining receiver without increasing the implementation complexity.
Keywords :
IEEE standards; OFDM modulation; convolutional codes; data communication; demodulation; diversity reception; equalisers; maximum likelihood decoding; multimedia communication; optimisation; receiving antennas; telecommunication standards; wireless LAN; COFDM system; IEEE 802.11a system; IEEE 802.11a/g devices; WLAN; bit metrics calculation; channel equalization; convolutional coded COFDM system; decoder; demodulation; high data rate wireless communications; implementation complexity; maximum likelihood decoding; optimal antenna diversity combining; optimal decoding method; optimal diversity combining; receiver antenna diversity combining; single antenna receiver; symbol level diversity-combining receiver; wireless local area network; wireless multimedia communications; Antenna theory; Diversity reception; Fading; Forward error correction; Maximum likelihood decoding; Multimedia systems; OFDM; Receiving antennas; USA Councils; Wireless LAN;
Journal_Title :
Consumer Electronics, IEEE Transactions on
DOI :
10.1109/TCE.2002.1037069
