A simple procedure is presented for characterising the probability distribution function of the dwell time in a cellular telephony system. Other statistical figures related to mobility are also provided.
References
-
-
1)
-
Zonoozi, M.M., Dassanayake, P., Faulkner, M.: `Mobility modellingand channel holding time distribution in cellular mobile communicationsystem', IEEE Proc. Globecom'95, 1995, p. 12–16.
-
2)
-
D. Hong ,
S.S. Rappaport
.
Traffic model and performance analysis forcellular mobile radio telephone systems with priorised and nonpriorisedhandoff procedures.
IEEE Trans. Veh. Technol.
,
3 ,
77 -
92
-
3)
-
Bolotin, V.: `Telephone circuit holding time distributions', Proc. 14thInternational Teletraffic Congress, 1994, Antibes, p. 125–134.
-
4)
-
R. Steele ,
M. Nofal
.
Teletraffic performance of microcellular personalcommunication networks.
IEE Proc. I
,
4 ,
448 -
461
-
5)
-
R.A. Guérin
.
Channel occupancy time distribution in a cellular radiosystem.
IEEE Trans. Vehicular Technol.
,
3 ,
89 -
99
-
6)
-
Jedrzycki, C., Leung, V.C.M.: `Probability distribution of channelholding time in cellular telephony systems', IEEE Veh. Technol. Conf. VTC'96, 1996, p. 247–251.
-
7)
-
Barceló, F., Jordán, J.: `Channel holding time distribution in cellulartelephony', Proc. 9th Int. Conf On Wireless Commun., 1997, Calgary, p. 125–134.
-
8)
-
Jordán, J., Barceló, F.: `Statistical modelling of channel occupancy intrunked PAMR systems', Proc. 15th Int. Teletraffic Congress, June 1997, Washington.
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