Title :
CUPID - Communication Pattern Informed Duty Cycling in Sensor Networks
Author :
Krüger, Daniela ; Pfisterer, Xennis ; Fischer, Stefan
Author_Institution :
Inst. of Telematics, Univ. of Lubeck, Lübeck, Germany
Abstract :
Now that sensor networks are gradually deployed in commercial settings, they must live up to many expectations, particularly offering both years of unattended operation and low-delay event reporting. However, experiences from real-world trials have shown that decent trade-offs between these two conflicting goals are hard to find. In this paper, we show how staggered wake-ups achieve this. We call this low-delay and low-power duty cycle management scheme CUPID because its parameterization is based on the expected communication patterns in the network, duty-cycle and latency requirements. We show by simulations and real-world experiments with more than 150 nodes that our scheme significantly reduces the packet delay for low-duty cycle settings, especially in large networks.
Keywords :
wireless sensor networks; CUPID; communication pattern informed duty cycling; expected communication patterns; large networks; latency requirements; low-delay event reporting; low-duty cycle settings; low-power duty cycle management scheme; packet delay; sensor networks; Clocks; Delay; Neodymium; Network topology; Sleep; Synchronization; Topology; Duty Cycling; Wireless Sensor Network;
Conference_Titel :
Systems and Networks Communications (ICSNC), 2010 Fifth International Conference on
Conference_Location :
Nice
Print_ISBN :
978-1-4244-7789-0
Electronic_ISBN :
978-0-7695-4145-7
DOI :
10.1109/ICSNC.2010.17
