A simulation of combined equalisation and diversity combining and its impact on the HIPERLAN standard

Y Sun; AR Nix

doi:10.1049/ic:19951396

A simulation of combined equalisation and diversity combining and its impact on the HIPERLAN standard

Y Sun, AR Nix

Research output: Chapter in Book/Report/Conference proceeding › Conference Contribution (Conference Proceeding)

1 Citation (Scopus)

Abstract

This paper is concerned with a number of techniques for improving the performance of the ETSI HIPERLAN physical layer. After a brief review of the HIPERLAN standard, a description of pre-coded GMSK is presented. The methods used to model the HIPERLAN radio channel are introduced and the performance impact of combined diversity and Decision Feedback Equalisation (DFE) presented. Important issues for an adhoc radio LAN such as frame synchronisation and frequency offset correction are addressed from a practical standpoint. Finally, incorporating the standard's BCH(31, 26) block code and interleaving strategy, the bit error rate (BER) and frame error rate (FER) performance is simulated both for standard and enhanced receiver designs

Translated title of the contribution	A simulation of combined equalisation and diversity combining and its impact on the HIPERLAN standard
Original language	English
Title of host publication	Colloquium on Mobile Computing and its Applications, London
Publisher	Institution of Engineering and Technology (IET)
Pages	7/1 - 7/7
DOIs	https://doi.org/10.1049/ic:19951396
Publication status	Published - Nov 1995
Event	Colloquium on Mobile Computing and its Applications - London, United Kingdom Duration: 1 Nov 1995 → …

Conference

Conference	Colloquium on Mobile Computing and its Applications
Country	United Kingdom
City	London
Period	1/11/95 → …

Bibliographical note

Conference Proceedings/Title of Journal: IEE Colloquium on Mobile Computing and its Applications
Rose publication type: Conference contribution

Sponsorship: The authors would like to thank the Centre for Communications Research and, in particular, Professor J.P. McGeehan for the provision of laboratory and simulation facilities. The authors are also grateful to their colleagues within the CCR for their many helpful comments and suggestions relating to this work

Other identifier: IEE Publ. No. 1995/219

Keywords

block codes
minimum shift keying
mobile radio
performance evaluation

Access to Document

10.1049/ic:19951396

http://hdl.handle.net/1983/842

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Cite this

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title = "A simulation of combined equalisation and diversity combining and its impact on the HIPERLAN standard",

abstract = "This paper is concerned with a number of techniques for improving the performance of the ETSI HIPERLAN physical layer. After a brief review of the HIPERLAN standard, a description of pre-coded GMSK is presented. The methods used to model the HIPERLAN radio channel are introduced and the performance impact of combined diversity and Decision Feedback Equalisation (DFE) presented. Important issues for an adhoc radio LAN such as frame synchronisation and frequency offset correction are addressed from a practical standpoint. Finally, incorporating the standard's BCH(31, 26) block code and interleaving strategy, the bit error rate (BER) and frame error rate (FER) performance is simulated both for standard and enhanced receiver designs",

keywords = "block codes, minimum shift keying, mobile radio, performance evaluation",

author = "Y Sun and AR Nix",

note = "Conference Proceedings/Title of Journal: IEE Colloquium on Mobile Computing and its Applications Rose publication type: Conference contribution Sponsorship: The authors would like to thank the Centre for Communications Research and, in particular, Professor J.P. McGeehan for the provision of laboratory and simulation facilities. The authors are also grateful to their colleagues within the CCR for their many helpful comments and suggestions relating to this work Other identifier: IEE Publ. No. 1995/219; Colloquium on Mobile Computing and its Applications ; Conference date: 01-11-1995",

year = "1995",

month = nov,

doi = "10.1049/ic:19951396",

language = "English",

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publisher = "Institution of Engineering and Technology (IET)",

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Sun, Y & Nix, AR 1995, A simulation of combined equalisation and diversity combining and its impact on the HIPERLAN standard. in Colloquium on Mobile Computing and its Applications, London. Institution of Engineering and Technology (IET), pp. 7/1 - 7/7, Colloquium on Mobile Computing and its Applications, London, United Kingdom, 1/11/95. https://doi.org/10.1049/ic:19951396

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AU - Nix, AR

N1 - Conference Proceedings/Title of Journal: IEE Colloquium on Mobile Computing and its Applications Rose publication type: Conference contribution Sponsorship: The authors would like to thank the Centre for Communications Research and, in particular, Professor J.P. McGeehan for the provision of laboratory and simulation facilities. The authors are also grateful to their colleagues within the CCR for their many helpful comments and suggestions relating to this work Other identifier: IEE Publ. No. 1995/219

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N2 - This paper is concerned with a number of techniques for improving the performance of the ETSI HIPERLAN physical layer. After a brief review of the HIPERLAN standard, a description of pre-coded GMSK is presented. The methods used to model the HIPERLAN radio channel are introduced and the performance impact of combined diversity and Decision Feedback Equalisation (DFE) presented. Important issues for an adhoc radio LAN such as frame synchronisation and frequency offset correction are addressed from a practical standpoint. Finally, incorporating the standard's BCH(31, 26) block code and interleaving strategy, the bit error rate (BER) and frame error rate (FER) performance is simulated both for standard and enhanced receiver designs

AB - This paper is concerned with a number of techniques for improving the performance of the ETSI HIPERLAN physical layer. After a brief review of the HIPERLAN standard, a description of pre-coded GMSK is presented. The methods used to model the HIPERLAN radio channel are introduced and the performance impact of combined diversity and Decision Feedback Equalisation (DFE) presented. Important issues for an adhoc radio LAN such as frame synchronisation and frequency offset correction are addressed from a practical standpoint. Finally, incorporating the standard's BCH(31, 26) block code and interleaving strategy, the bit error rate (BER) and frame error rate (FER) performance is simulated both for standard and enhanced receiver designs

KW - block codes

KW - minimum shift keying

KW - mobile radio

KW - performance evaluation

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M3 - Conference Contribution (Conference Proceeding)

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BT - Colloquium on Mobile Computing and its Applications, London

PB - Institution of Engineering and Technology (IET)

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Y2 - 1 November 1995

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