Kamil Wolny scite author profile

In this paper we discuss energetic complexity aspects of k-Selection protocols for a singlehop radio network (that is equivalent to Multiple Access Channel model). The aim is to grant each of k activated stations exclusive access to the communication channel. We consider both deterministic as well as randomized model. Our main goal is to investigate relations between minimal time of execution (time complexity) and energy consumption (energetic complexity). We present lower bound for energetic complexity for some classes of protocols for k-Selection (both deteministic and randomized). We also present and analyse several randomized protocols efficient in terms of both time and energetic complexity.

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K-Selection Protocols from Energetic Complexity Perspective

Kardas¹,

Klonowski²,

Pająk³

et al. 2013

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In this paper we discuss energetic complexity aspects of k-Selection protocols for the single-hop radio network (that is equivalent to Multiple Access Channel model). The aim is to grant each of k activated stations exclusive access to the communication channel. We consider both deterministic as well as randomized model. Our main goal is to investigate relations between minimal time of execution (time complexity) and energy consumption (energetic complexity). We present lower bound for energetic complexity for some classes of protocols for k-Selection. We also present randomized protocol efficient in terms of both time and energetic complexity.

show abstract

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Kamil Wolny

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k-Selection Protocols from Energetic Complexity Perspective

K-Selection Protocols from Energetic Complexity Perspective

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