development of a digital library technology based on redundancy elimination and semantic elevation,...
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Development of a Digital Library Development of a Digital Library Technology Technology
Based on Redundancy Elimination Based on Redundancy Elimination and Semantic Elevation, With Special and Semantic Elevation, With Special
Emphasis Emphasis on Trust Management and Security on Trust Management and Security
MaximizationMaximization
M. Bajec, D. Trcek, M. Krisper,S. Nektarijevic, G. Rakocevic, V. Milutinovic (SRB)
with L. Luic (CRO) + M. Rudolf (SLO)
Objective ICT-2009.4.1:Digital Libraries and Digital Preservation
a) Scalable systems and services for preserving digital content: handling the whole workflow for different types of digital resources, guaranteeing their long term integrity and authenticity. Research should demonstrate the feasibility of systems and services proposed, and assess their use by organizations in large scale testbeds (e.g., science, business and financial records, public records, multimedia/audiovisual and performing arts).
Our Competitive Advantage: New Algorithms and Workflow Enhancements on Top of All Above
Our approach concentrates on all issues underlined above, plus an added value of crucial importance: (a) New algorithms for redundancy elimination, entity resolution, semantic elevation, and concept modeling, which are aware of trust and security needs, (b) Workflow enhancement mechanisms related to image processing and sensor networks. Appropriate PoC implementations with contents from two-dimensional art (with special emphasis on Slovenian cultural heritage) and comparative language translation (with special emphasis on languages of EU). Special emphasis on research methodology oriented to rich statistical analyses.
Systems and Services Systems and Services
IntegrativeCollaborative
Nota Benne:
InterfaceInteraction
WorkflowWorkflowSharing data:
Infrastructure for institutional networking
Sharing knowledge:DataMining + SemanticWeb + ConceptModeling
New Security Aware AlgorithmsNew Security Aware Algorithms
Example #1: Krisper + Trcek + Bajec Example #2: Tomazic
Compatible with Existing Methods and Compatible with Existing Methods and Standards (Terminologies, Ontologies, Mark-up Standards (Terminologies, Ontologies, Mark-up Languages) Languages) Like Those Used by the VPH Network of Like Those Used by the VPH Network of Excellence:Excellence:Tentative list of core participants:
Our Competitive Advantage: Our Competitive Advantage: New Algorithms and Workflow Enhancements New Algorithms and Workflow Enhancements on Top of 4.1.a (Added Value)on Top of 4.1.a (Added Value)
Search enhancement algorithms for 2D art (image processing, sensor nets, etc.)
Language translation for EU tongues (using the eSperanto pricipals, etc.)
FRI/LJFRI/LJ Crucial problems of digital libraries are:
(a) Efficient redundancy elimination (RE), (b) Effective entity resolution (ER), (c) Appropriate semantic elevation (SE),(d) Adequate concept modelling (CM). Solutions to these problems bring the following benefits: (a) Storage minimization, which indirectly impacts the retrieval speed and storage cost, (b) Elimination of absurd scenarios, which are a consequence of opposing expert opinions,(c) Matching of semantic levels of typical inquiries and the knowledge in the database, which makes the retrieval more accurate,(d) Elimination of ambiguities due to the existence of words with identical spelling and conceptually different meanings, which often times makes the retrieved information useless.
FE/LJFE/LJ Crucial problems of language translation are:
(a) Speed of translation(b) Storage size for the vocabulary (c) Resolution of ambiguities,(d) Determination of the concept involved
Solutions to these problems bring the following benefits: (a) Better speed of translation (b) Storage minimization, which indirectly impacts the retrieval speed and storage cost, (c) Matching of semantic levels of typical inquiries and the knowledge in the database, which makes the retrieval more accurate,(d) Elimination of ambiguities due to the existence of words with identical spelling and conceptually different meanings, which often times makes the retrieved information useless
Use Cases (Examples)Use Cases (Examples)Self-learning search based on
self tagging in cases when tags for specific objects are missing and image processing confirms the existence of such objects
Customer-satisfaction search based on utilization of wireless sensor networks
Search which protects the owner of information form third parties
Search which protects third partiesform the owner of information
PoCPoCImplementationDisseminationAnalysisBeyond
Methodology: Objectives Methodology: Objectives (SC)(SC)
Objective 1: To generate use cases, based on previous research experiences of the entire consortium
Objective 2: To develop the system architecture, based on the previous research experiences of FRI
Objective 3: To develop intelligent algorithms using joint optimization, based on previous experiences of OPTILAB
Objective 4: To develop a PoC software based on the previous experiences of ETF Objective 5: To select the content for the PoC demo, with a reduced set of
functionalities, but large enough for experimenting in selected business scenarios, using the experiences of FHG
Objective 6: To test the demo system in a number of specific business scenaria, in various countries,
to compare experiences, to summarize the lessons learned, and to make improvements
and recommendations for a market oriented prototype, which is not the subject of this proposal (it is supposed to be the subject of a follow-up spin-off activity) - all this for joint optimizations of RE, ER, SE, and CM, using the past experiences of SALERNO
Objective 7: Same as above, for joint optimizations of RE, ER, SE, and CM, using the past experiences of FERRARA
Objective 8: Verification of mathematical rigorousness, using the past experiences of KARLSTAD
Objective 9: Verification of software rigorousity, using the past experiences of BSC
Objective 10: Dissemination, using the past experiences of MAXELER
Methodology: WPs (MS)+ Ts Methodology: WPs (MS)+ Ts + Ds + Ds
The project can be organized in 11 work packages: ◦ WP0 Project management, RR◦ WP1 Definition of use case scenarios, FRI◦ WP2 Development of system architecture, FRI◦ WP3 Development of intelligent algorithms, OPTILAB◦ WP4 Development of PoC software, ETF◦ WP5 Definitions and preparation of digital content, FHG ◦ WP6 Testing in environment A, SALERNO◦ WP7 Testing in environment B, FERRARA◦ WP8 Testing in environment C, KARLSTAD◦ WP9 Final analysis and preparation of recommendations
for clinical practice all over Europe, BSC◦ WP10 Dissemination, MAXELER
Specified work package leaders are tentative
IP
Rich and Holistic Statistical Rich and Holistic Statistical AnalysisAnalysis
WANTED:
Creative Partners From the Region to
perform content research to prove the concept,
so we can perform a huge statistical analysis,
andcover a large plethora of relevant fields
in financially competitive environments