The impact of different services on the outage probability in UMTS

Rudolf Mathar; Marie-Ange Remiche

The impact of different services on the outage probability in UMTS

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Résumé

In this paper, we deal with the uplink outage probability for a UMTS cellular network at a reference base station equipped with a smart antenna. Users are assumed to be distributed according to a planar Poisson point process. Their respective transmission rates are modeled by independent random variables. This leads to a compound Poisson process for the total data rate to be served in a cell by code division multiplexing. Outage occurs if the total rate exceeds the effective chip rate (3.84 MChip/s divided by the minimum required bit energy to noise power ratio). Circulant matrices, a normal approximation, and Monte Carlo integration are employed to determine the outage probability as a performance parameter of the system.

langue originale	Anglais
titre	IEEE Vehicular Technology Conference
Pages	934-937
Nombre de pages	4
Volume	2
Edition	54ND
Etat de la publication	Publié - oct. 2001
Evénement	IEEE 54th Vehicular Technology Conference (VTC FALL 2001) - Atlantic City, NJ, États-Unis Durée: 7 oct. 2001 → 11 oct. 2001

Une conférence

Une conférence	IEEE 54th Vehicular Technology Conference (VTC FALL 2001)
Pays/Territoire	États-Unis
La ville	Atlantic City, NJ
période	7/10/01 → 11/10/01

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title = "The impact of different services on the outage probability in UMTS",

abstract = "In this paper, we deal with the uplink outage probability for a UMTS cellular network at a reference base station equipped with a smart antenna. Users are assumed to be distributed according to a planar Poisson point process. Their respective transmission rates are modeled by independent random variables. This leads to a compound Poisson process for the total data rate to be served in a cell by code division multiplexing. Outage occurs if the total rate exceeds the effective chip rate (3.84 MChip/s divided by the minimum required bit energy to noise power ratio). Circulant matrices, a normal approximation, and Monte Carlo integration are employed to determine the outage probability as a performance parameter of the system.",

keywords = "Circulant matrices, Code division multiple access (CDMA), Compound Poisson process, Normal approximation, Universal mobile telecommunications system (UMTS)",

author = "Rudolf Mathar and Marie-Ange Remiche",

year = "2001",

month = oct,

language = "English",

volume = "2",

pages = "934--937",

booktitle = "IEEE Vehicular Technology Conference",

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AU - Remiche, Marie-Ange

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N2 - In this paper, we deal with the uplink outage probability for a UMTS cellular network at a reference base station equipped with a smart antenna. Users are assumed to be distributed according to a planar Poisson point process. Their respective transmission rates are modeled by independent random variables. This leads to a compound Poisson process for the total data rate to be served in a cell by code division multiplexing. Outage occurs if the total rate exceeds the effective chip rate (3.84 MChip/s divided by the minimum required bit energy to noise power ratio). Circulant matrices, a normal approximation, and Monte Carlo integration are employed to determine the outage probability as a performance parameter of the system.

AB - In this paper, we deal with the uplink outage probability for a UMTS cellular network at a reference base station equipped with a smart antenna. Users are assumed to be distributed according to a planar Poisson point process. Their respective transmission rates are modeled by independent random variables. This leads to a compound Poisson process for the total data rate to be served in a cell by code division multiplexing. Outage occurs if the total rate exceeds the effective chip rate (3.84 MChip/s divided by the minimum required bit energy to noise power ratio). Circulant matrices, a normal approximation, and Monte Carlo integration are employed to determine the outage probability as a performance parameter of the system.

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KW - Code division multiple access (CDMA)

KW - Compound Poisson process

KW - Normal approximation

KW - Universal mobile telecommunications system (UMTS)

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EP - 937

BT - IEEE Vehicular Technology Conference

T2 - IEEE 54th Vehicular Technology Conference (VTC FALL 2001)

Y2 - 7 October 2001 through 11 October 2001

ER -

The impact of different services on the outage probability in UMTS

Résumé

Une conférence

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