Enhanced secure time synchronisation protocol for IEEE802.15.4e-based industrial Internet of Things

Time synchronisation is a fundamental requirement for the IEEE802.15.4e-based industrial Internet of Things, allowing it to reach low-power and high-reliability wireless network through time synchronisation. If malicious adversaries launch time synchronisation attacks to IEEE802.15.4e-based networks, the entire network communication will be paralysed. In this study, the authors introduce two types of time synchronisation attacks: (i) absolute slot number (ASN) and (ii) timeslot template attack. In ASN attack, the new nodes may receive an incorrect ASN value, which prevents synchronisation with the typical network, while in the timeslot template attack, the malicious node can make the legitimate nodes calculate the error clock offset. The authors propose an enhanced secure time synchronisation protocol to defend against these attacks, which include Sec_ASN and TOF algorithm. The Sec_ASN and threshold filter (TOF) algorithms are used to defend against ASN attack and timeslot template attacks, respectively. Finally, the authors run a thorough set of simulations to assess the effectiveness of the proposed attacks as well as the proposed countermeasure. The results show that the attacks can significantly destroy the time synchronisation protocol, but can be successfully defended using the proposed mechanisms.

[1]  Thomas Watteyne,et al.  Adaptive Synchronization in IEEE802.15.4e Networks , 2014, IEEE Transactions on Industrial Informatics.

[2]  Chuan Zhang,et al.  A Reconfigurable Smart Sensor Interface for Industrial WSN in IoT Environment , 2014, IEEE Transactions on Industrial Informatics.

[3]  Shanzhi Chen,et al.  The requirements, challenges, and technologies for 5G of terrestrial mobile telecommunication , 2014, IEEE Communications Magazine.

[4]  Wei Dong,et al.  Robust and Secure Time-Synchronization Against Sybil Attacks for Sensor Networks , 2015, IEEE Transactions on Industrial Informatics.

[5]  Gennaro Boggia,et al.  On Optimal Scheduling in Duty-Cycled Industrial IoT Applications Using IEEE802.15.4e TSCH , 2013, IEEE Sensors Journal.

[6]  Wei-Chung Teng,et al.  Secured flooding time synchronization protocol with moderator , 2013, Int. J. Commun. Syst..

[7]  Ann Nowé,et al.  Schedule-based multi-channel communication in wireless sensor networks: A complete design and performance evaluation , 2015, Ad Hoc Networks.

[8]  Jiming Chen,et al.  Secure Time Synchronization in WirelessSensor Networks: A MaximumConsensus-Based Approach , 2014, IEEE Transactions on Parallel and Distributed Systems.

[9]  Peng Ning,et al.  TinySeRSync: secure and resilient time synchronization in wireless sensor networks , 2006, CCS '06.

[10]  Xianbin Wang,et al.  Wireless Sensor Network Reliability and Security in Factory Automation: A Survey , 2012, IEEE Transactions on Systems, Man, and Cybernetics, Part C (Applications and Reviews).

[11]  Kevin Weekly,et al.  OpenWSN: a standards‐based low‐power wireless development environment , 2012, Trans. Emerg. Telecommun. Technol..

[12]  Wu He,et al.  Internet of Things in Industries: A Survey , 2014, IEEE Transactions on Industrial Informatics.

[13]  Diego Dujovne,et al.  6TiSCH: deterministic IP-enabled industrial internet (of things) , 2014, IEEE Communications Magazine.

[14]  Carsten Bormann,et al.  CoAP: An Application Protocol for Billions of Tiny Internet Nodes , 2012, IEEE Internet Computing.

[15]  Srdjan Capkun,et al.  Secure Time Synchronization in Sensor Networks , 2008, TSEC.