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INFOCOM
2006
IEEE
2006
IEEE
Constant-Complexity Models for Wireless Channels
— High-order full-state Markov (FSM) chains have been employed to model errors and losses in many wireless studies. The complexity of this modeling paradigm is an exponential function of a random process’ memory-length and hence the viability of FSM chains in resource-constrained wireless environments is severely limited. In this paper, we address an important yet unsettled question: What characteristics of high-order FSM chains should be captured by a low-complexity approximate model? We analytically derive vital guidelines for accurate approximation of an FSM chain of arbitrary memory-length. These guidelines lead to a novel constant-complexity model (CCM), which always comprises of five states irrespective of a process’ memory-length. Our trace-driven evaluations for 802.11b and GSM channels demonstrate that the 5 state CCM, while providing orders of magnitude reduction in complexity, is comparable to FSM chains and better than linear-complexity models.
Real-time TrafficCommunications | Fsm Chains | INFOCOM 2006 | Low-complexity Approximate Model | Resource-constrained Wireless Environments |
| Added | 11 Jun 2010 |
| Updated | 11 Jun 2010 |
| Type | Conference |
| Year | 2006 |
| Where | INFOCOM |
| Authors | Syed A. Khayam, Hayder Radha |
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