A De-verticalizing Middleware for IoT Systems Based on Information Centric Networking Design

The Internet of Things is rapidly diffusing and many standalone platforms have been deployed in different domains. Since these solutions are still isolated, the definition of a globally unified platform embracing different and heterogeneous Internet of Things systems is gaining momentum. In the Internet Research Task Force context, the Information-Centric Networking Research Group envisages the possibility to reach this challenging goal by properly leveraging the communication primitives of the Information-Centric Networking paradigm. In line with this vision, this contribution proposes a concrete solution that offers: name-based communication scheme, flexible data delivery, support for heterogeneous network infrastructures, platform interoperability, and technology-independent implementation of high-level applications. Moreover, a proof-of-concept implementation is presented for further describing the main functionalities of the designed approach and demonstrating its correct execution in a real environment.

[1]  Rui L. Aguiar,et al.  A case for ICN usage in IoT environments , 2014, 2014 IEEE Global Communications Conference.

[2]  Aytac Azgin,et al.  Design Considerations for Applying ICN to IoT , 2019 .

[3]  Dario Rossi,et al.  SLICT: Secure Localized Information Centric Things , 2016, ICN.

[4]  George C. Polyzos,et al.  Energy Efficient Context based Forwarding Strategy in Named Data Networking of Things , 2016, ICN.

[5]  Mahdi Ben Alaya,et al.  Architecting information centric ETSI-M2M systems , 2014, 2014 IEEE International Conference on Pervasive Computing and Communication Workshops (PERCOM WORKSHOPS).

[6]  Haoyang Yu,et al.  Exploiting ICN for Realizing Service-Oriented Communication in IoT , 2016, IEEE Communications Standards.

[7]  Nikos Fotiou,et al.  A Survey of Information-Centric Networking Research , 2014, IEEE Communications Surveys & Tutorials.

[8]  Athanasios V. Vasilakos,et al.  Information-centric networking for the internet of things: challenges and opportunities , 2016, IEEE Network.

[9]  Thomas C. Schmidt,et al.  ICN over TSCH: Potentials for Link-Layer Adaptation in the IoT , 2016, ICN.

[10]  Siobhán Clarke,et al.  Middleware for Internet of Things: A Survey , 2016, IEEE Internet of Things Journal.

[11]  Peter Friess,et al.  Internet of Things Applications - From Research and Innovation to Market Deployment , 2014 .

[12]  Nikos Fotiou,et al.  CoAP over ICN , 2016, 2016 8th IFIP International Conference on New Technologies, Mobility and Security (NTMS).

[13]  Giuseppe Piro,et al.  Gazing into the Crystal Ball: When the Future Internet Meets the Mobile Clouds , 2019, IEEE Transactions on Cloud Computing.

[14]  Mahdi Ben Alaya,et al.  OM2M: Extensible ETSI-compliant M2M Service Platform with Self-configuration Capability , 2014, ANT/SEIT.

[15]  Joerg Swetina,et al.  Toward a standardized common M2M service layer platform: Introduction to oneM2M , 2014, IEEE Wireless Communications.

[16]  Nicola Blefari-Melazzi,et al.  Internames: A name-to-name principle for the future Internet , 2014, 10th International Conference on Heterogeneous Networking for Quality, Reliability, Security and Robustness.

[17]  Aaas News,et al.  Book Reviews , 1893, Buffalo Medical and Surgical Journal.

[18]  Alexander Afanasyev,et al.  Named Data Networking of Things (Invited Paper) , 2016, 2016 IEEE First International Conference on Internet-of-Things Design and Implementation (IoTDI).

[19]  Ning Wang,et al.  Information-centric networking for machine-to-machine data delivery: a case study in smart grid applications , 2014, IEEE Network.

[20]  Patrick Crowley,et al.  Named data networking , 2014, CCRV.

[21]  Mohamed Ahmed Hail,et al.  IoT for AAL: An Architecture via Information-Centric Networking , 2015, 2015 IEEE Globecom Workshops (GC Wkshps).