Energy Consumption of Beacon Period Extension and Contraction in Distributed Medium Access Control

Abstract: Ultra-Wide Band (UWB) is a promising physical layer technology which potentially enables low power and high rate devices with applications for Wireless Personal Area Networks (WPANs) and for Wireless Body Area Networks (WBANs). The UWB technology considered in this paper, called MultiBand UWB, is based on Orthogonal Frequency Division Multiplexing (OFDM). Any physical layer technology requires a Medium Access Control (MAC) protocol to be coupled with. This paper focuses on a distributed Time Division Multiple … Show more

“…In WiMedia devices that are switched on perform a channel scan and then associate with an existing beacon group [8]. In case of overlapping superframes the standard provides mechanisms to merge multiple BPs by aligning the beacon period start times [9].…”

PAN-to-PAN Communication Between WiMedia-based Distributed Networks

“…In WiMedia devices that are switched on perform a channel scan and then associate with an existing beacon group [8]. In case of overlapping superframes the standard provides mechanisms to merge multiple BPs by aligning the beacon period start times [9].…”

PAN-to-PAN Communication Between WiMedia-based Distributed Networks

Implementation and Evaluation of WiMedia MAC LSI

Automatic Beacon Period Contraction for Energy Efficient WiMedia MAC