A novel identity resolution system design based on Dual-Chord algorithm for industrial Internet of Things

Wang K, Wang Y, Sun Y, et al. Green industrial Internet of Things architecture: an energy-efficient perspective. IEEE Commun Mag, 2016, 54: 48–54

Li Z, Kang J, Yu R, et al. Consortium blockchain for secure energy trading in industrial Internet of Things. IEEE Trans Ind Inf, 2018, 14: 3690–3700

Xu L D, He W, Li S. Internet of Things in industries: a survey. IEEE Trans Ind Inf, 2014, 10: 2233–2243

Hossain M S, Muhammad G. Cloud-assisted industrial Internet of Things (IIoT) — enabled framework for health monitoring. Comput Netw, 2016, 101: 192–202

Louis Columbus. IIoT Will Overcome Adoption Barriers, Soar To 200 Billion dollars By 2021. Forbes. 2019. https://www.forbes.com/sites/louiscolumbus/2019/03/13/iiot-will-overcome-adoption-barriers-soar-to-200b-by-2021/#387523453513

Qin E, Long Y, Zhang C H, et al. Cloud computing and the Internet of Things: technology innovation in automobile service. In: Proceedings of International Conference on Human Interface and the Management of Information. Berlin: Springer, 2013

Traub K, Armenio F, Barthel H, et al. The GS1 EPC Global Architecture Framework Version 1.6. GS1 EPCglobal, Technical Report GS 1, 2014

Identification system for Internet of things — Entity code: GB/T31866-2015. (2015-09-11)[2019-08-16]. https://euagenda.eu/upload/publications/identifiers-in-internet-of-things-iot.pdf

Sun S, Lannom L, Boesch B. Handle System Overview: RFC 3650. Technical Report, The Internet Society (ISOC)- IETF, 2003. https://tools.ietf.org/html/rfc3650

Bo C, Wang D. Design and implementation of efficient distributed name service in EPC network. In: Proceedings of IEEE Conference Anthology, 2013

Li Y, Tang K, Gao F. Object Information Processing Method and Apparatus, and ORS Application Gateway: U.S. Patent Application 15/513,662. 2017-10–26

Yan Z W, Kong N, Tian Y, et al. A universal object name resolution scheme for IoT. In: Proceedings of 2013 IEEE International Conference on Green Computing and Communications and IEEE Internet of Things and IEEE Cyber, Physical and Social Computing. 2013

Sun S, Reilly S, Lannom L. Handle system namespace and service definition: RFC 3651. IETF, (2003-11-11)[2019-08-16]. https://datatracker.ietf.org/doc/rfc3651/

Lannom S S S R L, Petrone J. Handle system protocol (ver 2.1) specification: RFC 3652. IETF, (2003-11-11)[2019-08-16]. https://tools.ietf.org/html/rfc3652

UID Center. Ubiquitous ID architecture. 2006. https://www.uidcenter.org/wp-content/themes/wp.vicuna/pdf/UID-CO00002-0.00.24_en.pdf

UID Center. Ubiquitous code: ucode. 2009. https://www.uidcenter.org/wp-content/themes/wp.vicuna/pdf/UID-00010-01.A0.10_en.pdf

ISO/IEC. Information technology — open systems interconnection — object identifier resolution system (ORS): ISO/IEC 29168-1. 2011. https://www.iso.org/obp/ui/#!iso:std:45247:en

Ding D, Li M B, Zhu Z. Object naming service supporting heterogeneous object code identification for IoT system. In: Proceedings of 2018 IEEE 42nd Annual Computer Software and Applications Conference (COMPSAC), 2018

Evdokimov S, Fabian B, Kunz S, et al. Comparison of discovery service architectures for the Internet of Things. In: Proceedings of IEEE International Conference on Sensor Networks, Ubiquitous, and Trustworthy Computing, 2010. 237–244

Schollmeier R. A definition of peer-to-peer networking for the classification of peer-to-peer architectures and applications. In: Proceedings of the 1st International Conference on Peer-to-Peer Computing (P2P’01), Lingkoping, 2001. 101–102

Xu H, Wang S P, Wang R C. P2P ONS: a distributed object naming service architecture based on P2P for EPC network. In: Proceedings of Advances in Information Sciences and Service Sciences, 2011. 3: 37–47

Milgram S. The small world problem. Psychology Today, 1967, 1: 61

Beverly R, Afergan M. Machine learning for efficient neighbor selection in unstructured P2P networks. In: Proceedings of the 2nd USENIX Workshop on Tackling Computer Systems Problems With Machine Learning Techniques, Berkeley, 2007. 1–6

Noble W S. What is a support vector machine? Nature Biotech, 2006, 24: 1565–1567

Woungang I, Tseng F H, Lin Y H, et al. MR-Chord: improved Chord lookup performance in structured mobile P2P networks. IEEE Syst J, 2015, 9: 743–751

Singh M, Kumar C, Nath P. Mobility pattern based Chord (MP-Chord) for enhanced lookup performance in mobile P2P networks. Wirel Personal Commun, 2019, 109: 1971–1985

Zhao W, Liu X, Zhang S, et al. Hierarchical P2P based RFID code resolution network: structure, tools and application. In: Proceedings of International Symposium on Computer Network and Multimedia Technology, Wuhan, 2009. 1–7

Sun D-P, Wang Y-T. Improvement of Chord routing algorithm. Mech Electr Eng Mag, 2007, 12: 30

Amirazodi N, Saghiri A M, Meybodi M. An adaptive algorithm for super-peer selection considering peer’s capacity in mobile peer-to-peer networks based on learning automata. Peer-to-Peer Netw Appl, 2018, 11: 74–89

Montresor A, Jelasity M. PeerSim: a scalable P2P simulator. In: Proceedings of 2009 IEEE 9th International Conference on Peer-to-Peer Computing, Seattle, 2009. 99–100

Kazmi I, Bukhari S F Y. PeerSim: an efficient & scalable testbed for heterogeneous cluster-based P2P network protocols. In: Proceedings of 2011 UkSim 13th International Conference on Computer Modelling and Simulation, Cambridge, 2011. 420–425

Dinh T T A, Lees M, Theodoropoulos G, et al. Large scale distributed simulation of P2P networks. In: Proceedings of the 16th Euromicro Conference on Parallel, Distributed and Network-Based Processing (PDP 2008), Toulouse, 2008. 499–507