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Spanish I+D+i funding

Role of Multiagent System on Minimalist Infrastructure for Service Provisioning in Ad-Hoc Networks for Emergencies Juan R. Velasco, Miguel A. López-Carmona, Marifeli Sedano, Mercedes Garijo, David Larrabeiti, María Calderón. IMPROVISA Project. Spanish I+D+i funding.

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Spanish I+D+i funding

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  1. Role of Multiagent System on Minimalist Infrastructure for Service Provisioning in Ad-Hoc Networks for EmergenciesJuan R. Velasco, Miguel A. López-Carmona, Marifeli Sedano, Mercedes Garijo, David Larrabeiti, María Calderón

  2. IMPROVISA Project Spanish I+D+i funding • Technical University of Madrid, University Carlos III of Madrid and University of Alcalá • Minimalist Infrastructure for the provision of services in ad-hoc networks • Provision of services in scenarios lacking a fixed communications infrastructure • Cooperation of humans and electronic devices (computers, sensors/actors, robots, intelligent nodes, etc) is paramount. • Emergency management in catastrophes • Forest fire • Terrorist attack • Earthquake

  3. IMPROVISA Project Ad-hoc networks Volunteer Ambulance Watch Tower HOSPITAL Fire fighters Team Civil services Fire fighters Chief Fire fighters Team Police Emergency Police Ambulance Hospital 112 Data lines Ad-hoc Network

  4. IMPROVISA Project IMPROVISA main domains • Intelligent routing • Security • Ad-hoc semantic network • Multilayer-multipath video distribution

  5. IMPROVISA Agents Intelligent Routing • Sending messages between non-interconnected ad-hoc networks

  6. IMPROVISA Agents Security • Ad-hoc networks are more vulnerable than wired networks • Wireless technology • Open and dynamically changing topology • Lack of centralized control points • Special risks in emergency-support scenarios • Main concerns: key distribution and intrusion detection • Traditional centralized approaches not applicable • Need a highly decentralized, autonomous and adaptive solution • Agent-based security framework (confidentiality, authentication...) • Agent- based cooperative IDS

  7. IMPROVISA Agents An ad-hoc semantic network • Agent-based intelligent level to support an ad-hoc semantic network • Devices that form an ad-hoc network (personal devices, car PCs, etc.) need to discover services • Water level, free beds at hospital, oxygen, etc. • With one or more UDDIs in the network • Distributed service location • With no UDDI • Agent context knowledge

  8. IMPROVISA Agents Multilayer-multipath video distribution • Video images need to be transmitted • We will use a multilayer-multipath approach • Video information is divided in layers • Not all layers are needed • Different layers travel through different paths • Multi-agent systems may be used to support path decision

  9. IMPROVISA Project Conclusions • We propose the use of ad-hoc networks, formed by personal devices, car PC’s… and some fixed lines to contact external services (hospital, police headquarters, etc.) • Multi-agent systems will be used to provide most of the main needs of the project • Intelligent information routing • Security • Service discovery • Video transmision

  10. Role of Multiagent System on Minimalist Infrastructure for Service Provisioning in Ad-Hoc Networks for EmergenciesMiguel A. López-Carmonamiguelangel.lopez@uah.es

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