GI-Dagstuhl Seminar – Aware Machine-to-Machine Communication Arumaithurai, Sigg, Wang 28.08.2016 – 02.09.2016 Version 1.0, August 29, 2016
Introduction (from: Dagstuhl Seminars, Shonan Meetings; Prof. Dr. Reinhard Wilhem) Arumaithurai, Sigg, Wang August 29, 2016 2 / 21
Introduction (from: Dagstuhl Seminars, Shonan Meetings; Prof. Dr. Reinhard Wilhem) Arumaithurai, Sigg, Wang August 29, 2016 3 / 21
Introduction (from: Dagstuhl Seminars, Shonan Meetings; Prof. Dr. Reinhard Wilhem) Arumaithurai, Sigg, Wang August 29, 2016 4 / 21
Introduction (from: Dagstuhl Seminars, Shonan Meetings; Prof. Dr. Reinhard Wilhem) Arumaithurai, Sigg, Wang August 29, 2016 5 / 21
Introduction (from: Dagstuhl Seminars, Shonan Meetings; Prof. Dr. Reinhard Wilhem) Arumaithurai, Sigg, Wang August 29, 2016 6 / 21
Introduction (from: Dagstuhl Seminars, Shonan Meetings; Prof. Dr. Reinhard Wilhem) Arumaithurai, Sigg, Wang August 29, 2016 7 / 21
Introduction (from: Dagstuhl Seminars, Shonan Meetings; Prof. Dr. Reinhard Wilhem) Arumaithurai, Sigg, Wang August 29, 2016 8 / 21
Outcome ◮ Open, interactive and hands-on atmosphere ◮ New ideas ◮ New collaborations ◮ Joint work on selected projects/topics ◮ Public Dagstuhl report ◮ Progress!!! Arumaithurai, Sigg, Wang August 29, 2016 9 / 21
Schedule Arumaithurai, Sigg, Wang August 29, 2016 10 / 21
Aware Machine-to-Machine Communication Context-based support for M2M Security for M2M Services for M2M
Dimensions of M2M ◮ IoT/Industrial Internet/IoX ◮ Centralised or Distributed ◮ Car-2-Car vehicular networks ◮ Multi-hop vs. single hop ◮ On-body / Environment ◮ Interface-less devices ◮ low-power to no-power ◮ mmWave ◮ 5G ◮ Healthcare Stephan Sigg August 29, 2016 12 / 21
Advancement in Networking Technology ◮ Information Centric Networking (ICN) ◮ Software Defined Networking (SDN) ◮ Network Function Virtualization (NFV) ◮ Cloud ◮ Big-Data Stephan Sigg August 29, 2016 13 / 21
ICN Stephan Sigg August 29, 2016 14 / 21
SDN Stephan Sigg August 29, 2016 15 / 21
NFV based services Stephan Sigg August 29, 2016 16 / 21
Main Motivation ◮ Many of these technologies have been primarily developed for Fixed networks ◮ These technologies seems to have the potential to cater to needs of M2M ◮ One of the goals: Flesh out the details Stephan Sigg August 29, 2016 17 / 21
Context-based support for M2M ◮ Sentiment sensing ◮ Mood induction ◮ Opportunistic/Participatory ◮ Distributed context processing ◮ Computation and storage offloading ◮ Emergency situation vs normal situation (priority, routing) ◮ Edge computing support ◮ Body-worn cameras Stephan Sigg August 29, 2016 18 / 21
Security for M2M ◮ Usable security/ authentication ◮ Blockchain ◮ Authenticating IoT devices ◮ Security for resource- and interface-restricted devices ◮ Secure payment ◮ Loss of privacy Stephan Sigg August 29, 2016 19 / 21
Services for M2M ◮ Computation on the channel ◮ Intra-body communication ◮ Trend mining ◮ Communication architecture for IoX ◮ IoT application stores ◮ IoX shared/distributed processing and storage ◮ Orchestration ◮ Edge services/functions ◮ Scale ◮ Middleboxes ◮ Amazon Lambda: serverless, Function based Stephan Sigg August 29, 2016 20 / 21
Thank you! Stephan Sigg August 29, 2016 21 / 21
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