To meet the increasing need for high capacity indoor wireless applications, the European Telecommunication Standards Institute (ETSI) have defined a new wireless LAN format. This system, known as HIPERLAN (High Performance Radio LAN), operates at 5.2 GHz and supports instantaneous bit rates of just under 24 Mb/s. The performance of the HIPERLAN physical layer is investigated and in particular, the advantages of dual antenna diversity explored. Five different combining schemes have been studied and both the LMS and RLS adaptation algorithms are considered in the analysis. The results indicate that with suitable combining, a BER⩽10-4 is possible with RMS delay spreads of up to 100 ns using a (6,5) DFE and of up to 150 ns using a (8,7) DFE.
|Translated title of the contribution||Hiperlan performance analysis with dual antenna diversity and decision feedback equalisation|
|Title of host publication||Unknown|
|Publisher||Institute of Electrical and Electronics Engineers (IEEE)|
|Pages||1549 - 1553|
|ISBN (Print)||078031575, 0780331575|
|Publication status||Published - Apr 1996|
|Event||46th Vehicular Technology Conference 1996. 'Mobile Technology for the Human Race' - Atlanta, GA, United States|
Duration: 1 Apr 1996 → …
|Conference||46th Vehicular Technology Conference 1996. 'Mobile Technology for the Human Race'|
|Period||1/04/96 → …|
Bibliographical noteConference Proceedings/Title of Journal: IEEE VTC
Rose publication type: Conference contribution
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- wireless LAN
- decision feedback equalisers