sascha ossowski (urjc) profile at team “urjc”
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Sascha Ossowski (URJC)
Profile
www.agreement-technologies.org
AT Team “URJC”
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Profile:• Public University
• Founded in 1997
• >15000 students
• 4 campus in greater Madrid
Fuenlabrada
Móstoles
Alcorcón
Vicálvaro
Health Sciences
Polytechnic
Information and Communication
Sciences
Law & Social Sciences
University Rey Juan Carlos
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Móstoles Campus• Rectorate
• ESCET: School of Experimental Sc. & Technology
• ETSII: School of Computing (since 07/2007):– 2000 students– 3 traditional three/five-years Computing degrees– 3 “Bologna-type” Masters degrees– http://www.etsii.urjc.es/
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ETSII: School of Computing
Some research indicators (as of 02/2008)
• Researchers: 117 (50 with PhD degree)
• Number of active research projects: 31– Public funding (EU, MEC, MITyC, CAM, URJC): 23
– Private funding (TID, GMV, Boeing, Kotasoft, …): 8
• Total funding: >4M€
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AT Consolider TeamAlberto Fernández Gil
Axel Polleres
Belén Vela Sánchez
Carlos Á. Iglesias Fernández (UPM)
Carlos Cuesta Quintero
David Pearce
Esperanza Marcos Martínez
Holger Billhardt
Ingo Galleske
Javier Garzás Parra
José María Cavero Barca
José Miguel Castillo Chamorro
Matteo Vasirani
Oswaldo Vélez Langs
Paloma Cáceres de la Marina
Ramón Hermoso Traba
Rubén Ortiz Martín
Sascha Ossowski
Valeria de Castro
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AT Consolider TeamAlberto Fernández Gil
Axel Polleres
Belén Vela Sánchez
Carlos Á. Iglesias Fernández (UPM)
Carlos Cuesta Quintero
David Pearce
Esperanza Marcos Martínez
Holger Billhardt
Ingo Galleske
Javier Garzás Parra
José María Cavero Barca
José Miguel Castillo Chamorro
Matteo Vasirani
Oswaldo Vélez Langs
Paloma Cáceres de la Marina
Ramón Hermoso Traba
Rubén Ortiz Martín
Sascha Ossowski
Valeria de Castro
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AT Consolider TeamAlberto Fernández Gil
Axel Polleres (DERI)
Belén Vela Sánchez
Carlos Á. Iglesias Fernández (UPM)
Carlos Cuesta Quintero
David Pearce
Esperanza Marcos Martínez
Holger Billhardt
Ingo Galleske
Javier Garzás Parra
José María Cavero Barca
José Miguel Castillo Chamorro
Matteo Vasirani
Oswaldo Vélez Langs
Paloma Cáceres de la Marina
Ramón Hermoso Traba
Rubén Ortiz Martín
Sascha Ossowski
Valeria de Castro
Cesar Acuña
Isabella Hinterleitner
Roberto Centeno
Viviane Torres de Silva (UCM)
Jürgen Dunkel (FHH)
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Main Competences
Multiagent SystemsOrganisation
Coordination
SOMAS
Knowledge RepresentationNon-standard Logics
Ontologies
Software Engineering
Service-oriented Architectures
Model-driven development
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Multiagent Systems:
• THOMAS: Methods, Techniques and Tools for Open Multiagent
Systems – Coordination, Organisation, Institution.
(MEC TIN2006-14630-C03-02)
• CASCOM: Context-Aware Business Application Service
Co-ordination in Mobile Computing Environments
(FP6 STREP nº 511632)
• SmartAge: Context-Aware Coordination of Independent Living
Services for Elderly People in Smart Homes
(No funding in FP7 Call 1 – Follow-up proposal is planned)
URJC Team: Some related projects
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Knowledge representation:
• Logics, Deduction and Programming for Intelligent Systems
(MEC TIN2006-15455-C03-02)
• Formal Techniques for Reasoning About Ontologies in E-Science
(MEC Integrated Action)
• MODULOG: Knowledge Modules Handling Complexity and Diversity in
Intelligent Interaction
(No funding in ESF Eurocores LogiCCC. Follow-up proposal is planned)
URJC Team: Some related projects
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Software Engineering:• GOLD: A platform for the model driven development of Web Information
Systems.(MEC TIN2005-00010 )
• IASOMM: Service-oriented Architectures for Software Integration Towards a model-driven multidimensional development process (URJC-CM-2007-CET-1555)
• NeXware: Safely Engineering and Controlling Large-scale Complex Distributed Systems – Taming Autonomic and Emergent Behaviours in Systems of Networked Embedded Systems Operating in Unpredictable Environments. (No funding in FP7 Call 2 – Follow-up proposal is planned)
URJC Team: Some related projects
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AT Workplan: WPs led by URJC
WP1: Semantics
WP2: Norms
WP3: Organisations
WP4: Argumentation & NegotiationWP5: Trust
WP6: Tool suite
WP7: Infrastructure
WP8: Real Case Studies
WP9: Dissemination & Exploitation
WP10: Management
WP1
WP2
WP3WP4WP5
WP6
WP7
WP8
WP9
WP10
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AT Workplan: Planned URJC Involvement
WP1 WP2 WP3 WP4 WP5 WP6 WP7 WP8
Task x.1
Task x.3
Task x.5
Task x.1
Task x.2
Task x.3
Task x.4
Task x.5
Task x.2
Task x.4
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• Tasks led by URJC
– T1.2: Formal models for Intertheory Relations (David Pearce)
– T1.3: Scalable Methods for Semantic Service Coordination (Alberto Fernández)
– T3.5: Mechanisms for Efficient Organisational Teamwork (Sascha Ossowski)
– T6.1: Design of a MAS methodology based on organisational concepts (C.A. Iglesias)
– T7.1: Software architecture and computation model (Esperanza Marcos / César Acuña)
– T8.3: mHealth demonstrator (Holger Billhardt)
AT Workplan
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• Other tasks with significant involvement by URJC
– T2.1: Computable Language for Normative Systems (Carles Sierra).
Proxy: David Pearce
– T3.2: Agreement Planning (Eva Onaindia). Proxy: Alberto Fernández
– T3.3: Deliberative Agreement: social choice and collective judgment models for open MAS (Enric Plaza). Proxies: Oswaldo Vélez, Sascha Ossowski
– T5.1: Dynamic semantic alignment of trust and reputation models(Jordi Sabater). Proxy: Viviane Torres
– T5.2: Integrated trust model (Carles Sierra). Proxy: Holger Billhardt
– T7.2: Multiagent System Platform (A. Espinosa)Proxies: Rubén Ortiz, César Acuña
AT Workplan
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Number Deliverable name Nature Partner DL Date
D1.2.1 L framework for combining ontologies, (classical) knowledge bases and rules R URJC PU M6
D1.2.2 A catalogue of key intertheory relations for differing representation languages R URJC PU M12
D1.2.3 M, proof theoretic and computational properties of the main intertheory relations R URJC PU M24
D1.2.4 Algorithms and implementation techniques for checking intertheory relations R & SW URJC PU M40, M54
D1.3.1 Abstract architecture for service discovery R URJC PU M12
D1.3.2 Efficient distributed service directories R URJC PU M30
D1.3.3 Service detection and matchmaking mechanisms R & SW URJC PU M36
D3.5.1 Design and analysis of organisational structures R URJC PU M18
D3.5.2 Micro-level mechanisms for efficient teamwork R URJC PU M24
D3.5.3 Macro-level mechanisms for efficient teamwork R URJC PU M40
D3.5.4 Implementation of mechanisms for efficient teamwork SW URJC PU M54
D6.1.1 Process development report R URJC PU M18
D6.1.2 Report on meta-models R URJC PU M24
D6.2.1 Survey on development tools for MAS R URJC PU M6
D6.2.2 Rules and mechanisms for translating models R & SW URJC PU M24
D6.2.3 Tool and Integrated Application development environment R & SW URJC PU M24. M40, M48, M60
D7.1.1 Abstract architecture requirements R URJC PU M6
D7.1.2 Abstract architecture design R & SW URJC PU M24, M36, M48, 60
D8.3.1 mHealth Requirements analysis and design R URJC PU M24, M36, M48
D8.3.2 mHealth implementation and testing R & SW URJC PU M30, M39, M51
D8.3.3 mHealth prototype review R URJC PU M33, M42, M54
D8.3.4 mHealth programmers' and demonstrators guide R URJC PU M60
D9.1.1 Dissemination and Exploitation Report R URJC RE M12, yearly updates
D9.1.2 Book R URJC PU M60
AT Workplan: URJC Deliverables
Sascha Ossowski (URJC)
Profile
www.agreement-technologies.org
AT Team “URJC”