Title :
Energy saving by centralized sleep in early detection of captured nodes
Author :
Ding, Wei ; Yu, Yingbing ; Yenduri, Sumanth
Author_Institution :
Dept. of Comput. Sci. & IT, Austin Peay State Univ., Clarksville, TX, USA
Abstract :
We have previously shown that the first stage scheme is effective in the detection of physical capture attacks in wireless sensor networks. Like most existing detection schemes, our scheme relies upon message passing. Regular message passing consumes considerable energy. In this paper the first stage scheme is integrated with a novel sleep/wakeup mechanism, which is completely pre-scheduled based upon a node´s internal clock. The scheduling tolerates minor clock alignment errors, so no frequent synchronization is needed. In addition, a sink-based dissemination technique is adopted, which replaces frequent and overlapped flooding of many regular nodes with sparse sink-triggered flooding. The adoption further saves energy expense. A LDCFSD protocol has been implemented in simulation. Simulation results have confirmed above conclusion.
Keywords :
protocols; telecommunication security; wireless sensor networks; LDCFSD protocol; captured node early detection; centralized sleep; energy saving; message passing; physical capture attack; sink based dissemination technique; sleep mechanism; wakeup mechanism; wireless sensor network; Floods; Hardware; Message passing; Protocols; Sleep; Synchronization; Wireless sensor networks; first stage detection; physical capture; schedulig; sensor networks; sleep;
Conference_Titel :
Robotic and Sensors Environments (ROSE), 2010 IEEE International Workshop on
Conference_Location :
Phoenix, AZ
Print_ISBN :
978-1-4244-7147-8
DOI :
10.1109/ROSE.2010.5675283
