Title :
Guaranteeing Threshold Attendance of W/WSAN nodes in a reverted security paradigm
Author :
Konorski, Jerzy ; Makutunowicz, Artur
Author_Institution :
Gdansk Univ. of Technol., Gdansk, Poland
Abstract :
We consider a Wireline/Wireless Sensor and Actor Network composed of sensor/actor nodes and a data sink/command center (DSCC). Each node controls a generic device that can be in- or out-of-service, corresponding to the ENABLED or DISABLED node state. The node senses the device´s intention to change state, and notifies and/or requests the DSCC for authorization to act upon the device. Motivated by requirements for critical infrastructures like smart grid systems, we seek a Threshold Attendance Protocol (TAP) that keeps the number of DISABLED nodes below a predefined threshold. The security challenge is that TAP messages have to be forwarded via the DSCC, which is exposed to various attacks and may turn rogue. In contrast, the nodes are arguably secure. For this `reverted security paradigm´ we propose a TAP based on Shamir secret sharing, and discuss its correctness, optimizations and efficiency.
Keywords :
authorisation; critical infrastructures; data communication; protocols; telecommunication security; wireless sensor networks; DISABLED node state; DSCC; ENABLED node state; Shamir secret sharing; TAP message; W/WSAN nodes; authorization; critical infrastructure; data sink-command center; reverted security paradigm; secure node; threshold attendance protocol; wireline-wireless sensor and actor network; Authorization; Communication system security; Cryptography; Protocols; Smart grids; Wireless sensor networks; secret sharing; security; sensor and actor network; smart grid; threshold attendance;
Conference_Titel :
Information Networking (ICOIN), 2014 International Conference on
Conference_Location :
Phuket
DOI :
10.1109/ICOIN.2014.6799488
