1. Campus da FEUP Rua Dr. Roberto Frias, 378 4200 - 465 Porto Portugal T +351 222 094 000 F +351 222 094 050 www@inescporto.pt www.inescporto.pt © 2009 Communication Networks for Critical Infrastructures - topics under research at INESC Porto Manuel Ricardo DEEC, Faculdade de Engenharia, Universidade do Porto mricardo@fe.up.pt 1Telecommunications and Multimedia Unit

2. © 2008 Outline What is it? “Sistemas ciber-físicos para inteligência ambiente: redes de sensores em infra-estruturas criticas“ Related research topics @ INESC Porto 2Telecommunications and Multimedia Unit

3. © 2008 Critical infrastructure Critical infrastructure – term used by governments to describe assets essential for functioning of society /economy Infrastructures commonly associated with the term –electricity, gas, oil –telecommunications –water –agriculture, food –public health –transportation –financial services –security services 3Telecommunications and Multimedia Unit

4. © 2008 Ambient Intelligence Embedding intelligence in everyday objects Object gains the ability to –Gather information from its environment possibly react by adapting its function –Process information –Exchange information with neighbour objects or Internet 4Telecommunications and Multimedia Unit

5. © 2008 The Intelligent Object Computers are becoming small Common object becoming also a computer 5Telecommunications and Multimedia Unit

6. © 2008 Ambient Intelligence in Critical Infrastructures Objects of critical infrastructures will become computers New objects (criticality related) will be added to infrastructure As a result, critical infrastructures expected to become efficient, reliable, secure 6Telecommunications and Multimedia Unit

7. © 2008 The Challenges of Interconnecting Objects Thousands of computing-objects to be interconnected through wireless, auto-configurable, high-bitrate, secure networks Research-topics@INESCPorto –Scalable auto-configurable networks –Intermittent connectivity / mobility –Enabling high bitrates –Network congestion control –Information aware networks –Moving PAN –Secure Networks 7Telecommunications and Multimedia Unit

8. © 2008 Scalable and Auto-Configurable Networks Plug & play network –Ethernet like network –Big network = big LAN Some network services –DHCP, ARP, IPv6 link local –Routing protocols –Generate broacast traffic  Network becomes congested Research@INESCPorto –Re-design network services to avoid broadcast traffic Using prune + data suppression/compression techniques –Design large virtual Ethernet networks over existing technologies 8Telecommunications and Multimedia Unit Node ARP REQUEST Shortest Path Link Eliminated by STP Node

9. © 2008 Intermittent Connectivity and Mobility in Large Networks 9Telecommunications and Multimedia Unit Global frequent routing update leads to excessive overhead Ad-hoc routing protocols inadequate for large networks Research@INESCPorto –New routing techniques for wireless and mobile networks –New/lost links reported only to relevant nodes

10. © 2008 Enabling High Bitrates - Directional Antenna 10Telecommunications and Multimedia Unit Bitrate of a wireless link depends on Bandwidth, Rx power, SINR Directional antenna enables –More received power /longer links –Less interference –More links Research@INESCPorto –What criteria use to form beams? –How to combine on demand-links and routing techniques? beams with multichannel?

11. © 2008 Enabling High Bitrates – Avoiding Hidden Nodes Wireless networks rely on CSMA/CA shared access mechanisms CSMA/CA performance depends on –Number of nodes –Number of hidden nodes Research@INESCPorto Network topology control reduce number of hidden nodes for less collisions dynamic selection of radio channels 11Telecommunications and Multimedia Unit

12. © 2008 Network Congestion Control Current congestion control mechanisms –inadequate for variable bitrate media shared media / variable bitrate links –unfair for real-time /short traffic flows Research@INESCPorto –Use of explicit control techniques network nodes control the sources rate –Feedback signal considers nodes congestion and energy –Management of traffic priorities 12Telecommunications and Multimedia Unit

13. © 2008 Information Aware Networks Application and physical networks are different e.g. P2P application over ad-hoc networks Research@INESCPorto –Define network paths based on link quality, node energy type of information –Network topology constrained by application 13Telecommunications and Multimedia Unit

14. © 2008 Moving Personal Area Networks Multi-technology PAN Intra/extra PAN connectivity Research@INESC Porto –PoA selected based on user-defined policies –Centralized single tree routing –Adaptive IP autoconfiguration 14Telecommunications and Multimedia Unit

15. © 2008 Secure Networks Networks need to be secure Security between any pair of nodes Research@INESCPorto –Hierarchical distributed PKI Ephemeral certificates Used to authenticate a node Short public keys  low processing power No revocation lists  support of intermittent connectivity –Secure group communications Authentication by certificates Short symmetric keys Key distribution using multicast techniques 15Telecommunications and Multimedia Unit Cert 2.2  N2.2.1 ({id 2.2.1, pk 2.2.1, t a, t b } pkCA2.2 ) CA 1 CA 2.1 N 2.1.1 N 2.1.2 N 2.1.3 CA 2.2 N 2.2.1 Auth 2.2.1 ({id 2.2.1, pk 2.2.1, t a, t b } pkCA2.2 ) Network 2.1 Network 2.2 Receiver