Title :
Practical provably secure multi-node communication
Author :
Ali, Omar ; Ayoub, Mahmoud F. ; Youssef, Moustafa
Author_Institution :
Wireless Res. Center, E-JUST, Egypt
Abstract :
We present a practical and provably-secure multinode communication scheme in the presence of a passive eavesdropper. The scheme is based on a random scheduling approach that hides the identity of the transmitter from the eavesdropper. This random scheduling leads to ambiguity at the eavesdropper with regard to the origin of the transmitted frame. Implementation of the scheme over Crossbow Telosb motes, equipped with CC2420 radio chips, shows that the scheme can achieve significant secrecy gain with vanishing outage probability. In addition, it has significant overhead advantage over direct extensions to two-nodes schemes. The technique also has the advantage of allowing inactive nodes to leverage sleep mode to further save energy.
Keywords :
probability; radio transmitters; random processes; scheduling; telecommunication security; CC2420 radio chips; Crossbow Telosb motes; energy saving; outage probability; passive eavesdropper; practical provably secure multinode communication; random scheduling approach; secrecy gain; sleep mode; transmitter identity hiding; Communication system security; Data communication; Mobile computing; Receivers; Security; Vehicles; Wireless communication;
Conference_Titel :
Computing, Networking and Communications (ICNC), 2014 International Conference on
Conference_Location :
Honolulu, HI
DOI :
10.1109/ICCNC.2014.6785372
