Hipercom project presentation

1. Hipercom project presentation Philippe Jacquet evaluation seminar

2. Project Objectives • HIgh PERformance COMmunication • The algorithms for high-performant new generation networking • Where the performance matters (mobile and wireless ad hoc) • Toward massively dense, mobile and dynamic networks (M2D2).

3. Why focusing on wireless networks? • “Where performance matters” • Low bandwidth • High mobility • Existing protocols don’t scale on mobile and wireless • Topology control is the bottleneck • Strong algorithmic challenges • “A wireless network is more than a network with its wires cut”.

4. Topics and results Theory on Massively dense mobile wireless networks scaling properties control overhead optimization New services and protocols OLSR and IETF standardization QoS, security, multicast Wireless and backbone convergence OSPF-Manet 4G Manet convergence

5. Project team methodology Hipercom Golden Triangle Theory, models standardization dissemination experimentation optimization

6. Manet Theory embraces • Stochastic geometry • Combinatorics and asymtotic analysis • Graph theory • Information theory • Queueing networks • Fractal objects • Wave propagation • Computing complexity • Plan and space tiling • Complex systems simulation • etc

7. Focus on some results • Optimized Link State Routing protocol • more than 500,000 hits on google • Full internet legacy • Easy installation • new protocol reference for mobile networks • OLSRv2

8. OLSR worldwide

9. OLSR worldwide 2nd OLSR interop Leipzig OLSR network

10. OLSR military

11. Focus on new results Random reception areas in random fields

12. Focus on new results Scaling in massively dense wireless networks OLSR equations R R

13. New services, Quality of Service Application (Bandwidth) Class 1 Marking Routing on theFixed Path Proactive research of good routes. Interferences make it NP hard

14. OLSR stable optimized legacy Numerous extensions QoS • QOLSR, QOST (OLSR with QoS) • OLSR v6 (auto-configuration) • SOLSR (OLSR with security) • MOLSR, MOST (Multicast OLSR) • UD-OLSR (OLSR with UD links) • PS-OLSR (OLSR with power saving) • OSPF-MPR (extension in OSPF) • etc… Scalability MOLSR Security Link Layer

15. Protocols and standardization • Internet Engineering Task Force • MANET (OLSR protocol suite) • MANET-Autoconf • NEMO • MANET-OSPF • IEEE 802.11s

16. The Internet – now & future Current: Future: Mobile terminals Static Internet “core” Dynamic Internet “core”

17. Beyond OLSR and Internet • Opportunistic routing in random field • Delay Tolerant routing • Network coding

18. Project team positioning • Inside INRIA ComB: • ARES, GANG, Planete, MADYNES, TREC • Inside INRIA • CODES, IMARA, POPS, TANC • Outside INRIA • Ecole Polytechnique, Paris 11 Orsay • LIP6, Paris 12, Paris 13, INT • Celar • Industrial partners • Daimler, EDF, FT, Hitachi, Samsung, SNCF, System@tic

19. Next four year objectives Theoretical limits of mobile networking OLSR and related protocols Beyond OLSR and Internet Drone and vehicular communication

20. Project team evolution • Present: • Localization: Rocquencourt UR • Members outside INRIA • ecole polytechnique (Thomas Clausen) • Paris South Orsay University (Khaldoun Alagha) • Futur: • Common project team with • INRIA, Polytechnique, Orsay • INRIA bilocalization: Rocquencourt, Saclay, URs

21. UR Rocquencourt (algorithms and performance evaluation) Philippe Jacquet (DR), Pascale Minet (CR1) Paul Muhlethaler (DR) Cedric Adjih (CR1) Yasser Toor (PhD) Saouecene Mahfoudh (PhD) Danielle Croisy (Assistante) Collaborateur exterieur Anis Laouiti (INT Evry) UR Futurs (Multi-site) LIX (protocols and IETF): Thomas Clausen (MdC), Emmanuel Baccelli (CR2) Songyean Cho (PhD) LRI (QoS and 4G): Khaldoun Al Agha Professeur Hipercom project team Scientific leader: Philippe Jacquet Deputy leader: Pascale Minet

22. Hipercom air force Hipercopter Zarma