Throughput analysis of buffer-constrained wireless systems in the finite blocklength regime

In this paper, a single point-to-point wireless link operating under queueing constraints in the form of limitations on the buffer violation probabilities is considered. The achievable throughput under such constraints is captured by the effective capacity formulation. It is assumed that finite bloc...

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Veröffentlicht in:EURASIP journal on wireless communications and networking Jg. 2013; H. 1
1. Verfasser: Gursoy, M Cenk
Format: Journal Article
Sprache:Englisch
Veröffentlicht: Cham Springer International Publishing 21.12.2013
Schlagworte:
Communications Engineering
Engineering
Information Systems Applications (incl.Internet)
Networks
Signal,Image and Speech Processing
Fading channels
Decoding error probability
Coding rate
Effective capacity
Variable-rate/variable-power/fixed-rate transmissions
Buffer violation probability
Quality of service constraints
Finite blocklength regime
ISSN:1687-1499, 1687-1499
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Beschreibung
Zusammenfassung:In this paper, a single point-to-point wireless link operating under queueing constraints in the form of limitations on the buffer violation probabilities is considered. The achievable throughput under such constraints is captured by the effective capacity formulation. It is assumed that finite blocklength codes are employed for transmission. Under this assumption, a recent result on the channel coding rate in the finite blocklength regime is incorporated into the analysis, and the throughput achieved with such codes in the presence of queueing constraints and decoding errors is identified. The performance of different transmission strategies (e.g., variable-rate, variable-power, and fixed-rate transmissions) is studied. Interactions and tradeoffs between the throughput, queueing constraints, coding blocklength, decoding error probabilities, and signal-to-noise ratio are investigated, and several conclusions with important practical implications are drawn.
ISSN:1687-1499
1687-1499
DOI:10.1186/1687-1499-2013-290