TY - GEN
T1 - Quality of service over wireless ATM links
AU - Kim, Jeong Geun
AU - Krunz, Marwan
PY - 1999
Y1 - 1999
N2 - Several technical issues must be resolved before ATM services can be efRciently extended to the wireless environment. Key issues include incorporating the characteristics of the time-varying wireless channel in the provisioning of the cell-level QoS, and improving the transport performance using error control mechanisms. In this paper, we analyze the cell loss and delay performance over a wireless ATM link. We consider both cases of a single and multiplexed ATM connections. The link capacity fluctuates according to a fluid version of Gilbert-Elliot channel model. Traffic sources are modeled as onoff fluid processes. Our analytical framework incorporates the effects of error control schemes (i.e., ARQ and/orFEC), which are used to improve the transport performance over the wireless link. For the single-stream case, we derive the mean delay and the cell loss rate (CLR) due to buffer overflow at the sender side of the wireless link. We also obtain a closed-form approximation for the corresponding wireless effective bandwidth. In the case of multiplexed streams, we obtain a good approximation for the CLR using the Chernoff-Dominant Eigenvalue (CDE) approach. The expressions for the CLR and effective bandwidth are then used to study the optimal FEC code rate that guarantees the requested QoS while maximizing the utilization of the wireless bandwidth. Numerical results and simulations are used to verify the adequacy of our analysis and to study the impact of error control on the allocation of bandwidth for guaranteed cell loss and delay performance.
AB - Several technical issues must be resolved before ATM services can be efRciently extended to the wireless environment. Key issues include incorporating the characteristics of the time-varying wireless channel in the provisioning of the cell-level QoS, and improving the transport performance using error control mechanisms. In this paper, we analyze the cell loss and delay performance over a wireless ATM link. We consider both cases of a single and multiplexed ATM connections. The link capacity fluctuates according to a fluid version of Gilbert-Elliot channel model. Traffic sources are modeled as onoff fluid processes. Our analytical framework incorporates the effects of error control schemes (i.e., ARQ and/orFEC), which are used to improve the transport performance over the wireless link. For the single-stream case, we derive the mean delay and the cell loss rate (CLR) due to buffer overflow at the sender side of the wireless link. We also obtain a closed-form approximation for the corresponding wireless effective bandwidth. In the case of multiplexed streams, we obtain a good approximation for the CLR using the Chernoff-Dominant Eigenvalue (CDE) approach. The expressions for the CLR and effective bandwidth are then used to study the optimal FEC code rate that guarantees the requested QoS while maximizing the utilization of the wireless bandwidth. Numerical results and simulations are used to verify the adequacy of our analysis and to study the impact of error control on the allocation of bandwidth for guaranteed cell loss and delay performance.
KW - QoS
KW - Wireless ATM networks
KW - effective bandwidth
KW - fluid analysis
UR - http://www.scopus.com/inward/record.url?scp=0032628579&partnerID=8YFLogxK
UR - http://www.scopus.com/inward/citedby.url?scp=0032628579&partnerID=8YFLogxK
U2 - 10.1109/INFCOM.1999.751654
DO - 10.1109/INFCOM.1999.751654
M3 - Conference contribution
AN - SCOPUS:0032628579
SN - 0780354176
SN - 9780780354173
T3 - Proceedings - IEEE INFOCOM
SP - 1003
EP - 1010
BT - Proceedings - IEEE INFOCOM'99
T2 - 18th Annual Joint Conference of the IEEE Computer and Communications Societies: The Future is Now, IEEE INFOCOM'99
Y2 - 21 March 1991 through 25 March 1991
ER -