Effective Navigation Query Results Based on Biomedical Database

Effective Navigation Query Results Based on Biomedical Database

 
 		 International Journal of Biotech Trends and Technology (IJBTT)
 
© 2012 by IJBTT Journal
Volume - 2 Issue - 4                          
Year of Publication : 2012
Authors :P.Ramya and Dr.Nalini

Citation

P.Ramya and Dr.Nalini "Effective Navigation Query Results Based on Biomedical Database",International Journal of Biotech Trends and Technology (IJBTT), V2(4):10-13 October - December 2012. Published by Seventh Sense Research Group.

Abstract

Search queries on biomedical databases, such as Pub Med, frequently return a large number of results, only a small subset of which is applicable to the user. Classification and cataloging, which can also be united, have been suggested to improve this information overload problem. Result optimization and results categorization for biomedical databases are the focus of this work. A natural way to establish biomedical credentials is affording to their Mesh annotations. Mesh is a inclusive concept hierarchy used by Pub Med. In this paper, we present the BioIntelR (BIR) system, adopts the BioNav system enables the user to revolve large number of query results by organizing them using the Mesh concept hierarchy. First, BioIntelR (BIR) system prompts the user for the exploration criteria and the system automatically connects to a middle layer created at the application level which directs the query to the proper valid query path to select correct criteria of the search result from the biomedical database. The query results are organized into navigation tree. At each node expansion step, BIR system exposes only a small subset of the concept nodes, preferred such that the predictable user navigation cost is minimized. In disparity, to the previous systems, the BIR system outdoes and optimizes the query result time and reduces query result set for easy user navigation, Data Warehousing.

References

[1] J S. Agrawal, S. Chaudhuri, G. Das and A. Gionis: Automated Ranking of Database Query Results. In Proceedings of First Biennial Conference on Innovative Data Systems Research (CIDR), 2003.
[2] K. Chakrabarti, S. Chaudhuri and S.W. Hwang: Automatic Categorization Of Query Results. SIGMOD Conference 2004: 755-766.
[3] Z. Chen and T. Li: Addressing Diverse User Preferences in SQLQuery- Result Navigation. SIGMOD Conference 2007: 641-652.
[4] L. Comet: Advanced Combinatory: The Art of Finite and Infinite Expansions, rev. enl. ed. Dordrecht, Netherlands: Reidel, pp. 176- 177, 1974.
[5] R. Delfs, A. Doms, A. Kozlenkov and M. Schroeder: Go PubMed: Ontology-Based Literature Search Applied to Gene Ontology and PubMed. German Conference on Bioinformatics 2004: 169-178.
[6] D. Demner-Fushman and Jimmy Lin: Answer Extraction, Semantic Clustering and Extractive Summarization for Clinical Question Answering. International Conference on Computational Linguistics And the Annual Meeting of the Association for Computational Linguistics, 2006: 841-848.
[7] (2008) Entrez Programming Utilities. [Online]. Available: http://www.ncbi.nlm.nih.gov/entrez/query/static/eutils_help.html.
[8] U. Feige, D. Peleg and G. Kortsarz: The Dense k-Sub graph Problem. Algorithmica 29 (2001) 410-421.
[9] V. Hristidis and Y. Papakonstantinou: DISCOVER: Keyword Search in Relational Databases. In Proc. of VLDB Conference, 2002.
[10] R. Hoffman and A. Valencia: A gene network for navigating the literature. Nature Genetics, 36(7):664, 2004.

Keywords
Cooperating Data reflection and finding, Exploration Procedure, Graphical User Interfaces, Interface Styles.