Title :
DoS attack-tolerant TESLA-based broadcast authentication protocol in Internet of Things
Author :
Ruan, Na ; Hori, Yoshiaki
Author_Institution :
Dept. of Inf., Kyushu Univ., Fukuoka, Japan
Abstract :
The Internet of Things (IoTs) is an emerging concept referring to networked everyday objects that interconnect to each other via wireless sensors attached to them. TESLA is a source authentication protocol for the broadcast network. Scalability of TESLA is limited by distribution of its unicast-based initial parameter. Low energy consumption version of TESLA is μTESLA, which is designed for wireless sensor network (WSN), while cannot tolerate DoS attack. TESLA++ is the DoS-tolerant version and is designed for VANET. TESLA++ cannot be accepted by WSN because of its higher consumption of power. To realize secure and robust DoS attack in the hybrid-vehicle-sensor network, we provide a TESLA-based protocol against DoS attack with a lower consumption of power. Analysis results demonstrate that using our protocol is better than using μTESLA or TELSA++, respectively.
Keywords :
Internet; broadcast communication; computer network security; cryptographic protocols; parameter estimation; vehicular ad hoc networks; wireless sensor networks; DoS attack security; DoS attack-tolerant TESLA-based broadcast authentication protocol; DoS-tolerant version; Internet of Things; IoT; TESLA scalability; VANET; WSN; broadcast network; hybrid vehicle sensor network; low energy consumption version; low power consumption; source authentication protocol; unicast-based initial parameter distribution; wireless sensor network; Authentication; Computer crime; Protocols; Receivers; Sensors; Wireless sensor networks; Broadcast communication; Hybrid-vehicle-sensor network; IoTs; Source authentication protocol; TESLA;
Conference_Titel :
Mobile and Wireless Networking (iCOST), 2012 International Conference on Selected Topics in
Conference_Location :
Avignon
Print_ISBN :
978-1-4673-0935-6
DOI :
10.1109/iCOST.2012.6271291
