Μανόλης Κουμπαράκης
Θέση: Καθηγητής
Γραφείο: N/A
Τηλέφωνο: +30-210-7275242
Φαξ:
Email: koubarak
di.uoa.gr
Προσωπική Σελίδα: http://cgi.di.uoa.gr/~koubarak/
Γραφείο: N/A
Τηλέφωνο: +30-210-7275242
Φαξ:
Email: koubarak
di.uoa.gr Προσωπική Σελίδα: http://cgi.di.uoa.gr/~koubarak/
Μικρό Βιογραφικό
Ο Μανόλης Κουμπαράκης είναι Αναπληρωτής Καθηγητής στο Τμήμα Πληροφορικής και Τηλεπικοινωνιών στο Εθνικό και Καποδιστριακό Πανεπιστήμιο Αθηνών, ΕλλάδαΕκπαίδευση
- 1994: Διδακτορικό Δίπλωμα στην Επιστήμη Υπολογιστών από το Τμήμα Ηλεκτρολόγων Μηχανικών & Μηχανικών Υπολογιστών του Εθνικού Μετσόβιου Πολυτεχνείου.
Τίτλος: "Foundations of Temporal Constraint Databases" [gzipped postscript] - 1988: Μεταπτυχιακό Δίπλωμα Ειδίκευσης στην Επιστήμη Υπολογιστών, Department of Computer Science, University of Toronto.
Τίτλος: "An Implementation of CML (Telos)". Δεν είναι διαθέσιμο σε ηλεκτρονική μορφή. Μπορείτε όμως να δείτε τη βασική δημοσίευση του Telos.
Ερευνητικά Ενδιαφέροντα
- Ευφυείς Πράκτορες
We are interested in the theory and practice of intelligent agents. We have applied our results to the following applications: Information retrieval,Information dissemination over wide-area networks, Electronic commerce, Peer-to-Peer Computing, Business Process Modelling and Design. This work is done in the context of project DIET funded by the European Community under IST/FET.
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- Υπολογισμοί P2P και Υπολογισμοί Πλέγματος
We are interested in the new and exciting area of P2P and Grid computing. Our work on P2P computing is done in the context of project DIET and utilises ideas from agent systems, distributed computing, natural ecosystems and economics. Our work on Grid computing emphasizes aspects similar to the ones we study for P2P computing (e.g., resource allocation), but we are also especially interested in the role of Grid computing in bioinformatics. Our work on bioinformatics is currently funded by project BRIDGEMAP.
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- Βιοπληροφορική
The research of our group in bioinformatics aims at the development of tools that manage biological data and assist biologists in their research. To do this, we utilize our expertise in modern technologies such as data and knowledge-base management systems, intelligent agents, P2P computing and computational grids. Currently we are developing the bioinformatics toolkit for the comparative genomics project BRIDGEMAP.
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- Συστήματα Γνώσης και Πληροφόρισης
The Knowledge Representation Language Telos. The Scheme of Indefinite Constraint Databases. Spatial and Temporal Database Management.
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- Προγραµµατισµός µε Περιορισμούς
Cardinal Direction Constraints. Tractable Disjunctive Constraints. Temporal Disjunctive Constraints. The Scheme of Indefinite Constraint Databases.
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Δημοσιεύσεις
Χρηματοδότηση
- OntoGrid: Paving the way for Knowledgeable Grid Services and Systems
One of the greatest challenges we now face in Grid Computing regards the ability to explicitly share and deploy knowledge to be used for the development of innovative Grid infrastructure, and for Grid applications – the Semantic Grid. To address this challenge the OntoGrid project will produce the technological infrastructure for the rapid prototyping and development of knowledge-intensive distributed open services for the Semantic Grid. Designing Grid applications that make use of a Semantic Grid requires a new and sound methodology which OntoGrid will develop. The results are aimed at developing grid systems that optimize cross-process, cross-company and cross-industry collaboration, which OntoGrid will show by adopting a use case-guided development and evaluation strategy based on two test case applications of differing, yet stereotypical, Grid characterisation. A principle of OntoGrid is to adopt and influence standards in Semantic Grid and Grid Computing, in particular the Open Grid Service Architecture.
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- EVERGROW: Ever-growing global scale-free networks, their provisioning, repair and unique functions
The vision of EVERGROW - ever-growing global networks, their provisioning, repair and unique functions - is to invent methods and systems, and build infrastructure for measurement, mock-up and analysis of network traffic, topology and logical structure, so that we can start now to address the opportunities presented by the Internet of 2025.
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- GCB: Getting Cretan Businesses On-Line and Doing E-Business
The role of this laboratory is to train consultants that will advise Cretan businesses about the benefits of getting on-line and doing e-business
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- BRIDGE-MAP: An integrated genomic approach toward genetic improvement of aquacultured fish species
The role of this laboratory in BridgeMap is to design and implement the bionformatics component of the project (database and related tools).
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- DIET: Decentralised Information Ecosystem Technologies
The DIET project proposes to specify, design, implement and validate a novel information processing and management framework via a bottom-up, ecosystem approach. DIET would provide a set of new technologies including a complex information ecosystem tool suite with infohabitants exhibiting self-organising and emergent behaviour. The whole ecosystem simulation will be validated by getting different societies of infohabitants to interact within a rich information environment (the WWW) whilst providing useful information management services for human infohabitants. DIET would also provide intelligent, interactie simulation and visualisation tools to facilitate understanding the complex interactions in the ecosystem. DIET ultimately aims to develop technologies which will replace brittle, expensive, unadaptive software with robust, inexpensive and adaptable solutions to ever increasing complexity in a more networked era.
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