Special Database System Design Using Sector Organization and Server Clustering Techniques

Qiu Dong Sun; Jian Cun Zuo; Yu Feng Shao; Lin Gui

doi:10.4028/www.scientific.net/AMR.915-916.1377

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Quality Assessment of the Retrieval System Based on Web-Related Degree
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Regional Education Development Research Based on Robust Principal Component Analysis
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Research and Design of SaaS-Based Conference Service Platform
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Scenic Management System Based on Number of Visitors
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Special Database System Design Using Sector Organization and Server Clustering Techniques
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Task Scheduling and Resource Allocation of Cloud Computing Based on QoS
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The Design and Implementation of Data Independence in the CSP Model of Security Protocol
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The Research of Energy Consumption Control of Tobacco Information Based on Cloud Computing
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The Research of Oil Fields Heterogeneous Data Management Technology
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 915-916Special Database System Design Using Sector...

Special Database System Design Using Sector Organization and Server Clustering Techniques

Abstract:

In order to reform the shortcomings of common database with a slower access speed and lower security level, this paper applied sector operating directly instead of general file access, and used the distributed computing and clustering techniques to form an information server cluster as the special database system. Firstly, the layout and sector segmentation methods were provided for data access in sector based database. And then some management methods were given to control information servers in the cluster. Finally, to more efficiently schedule the tasks for storing data and querying information, a dynamic and self-adaptive scheduling algorithm was introduced into the application server of cluster. The practice shows that the system developed by this design strategy has good efficiency and security, and the access speed of the special database system is almost 25 times than that of common database.

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Periodical:

Advanced Materials Research (Volumes 915-916)

Pages:

1377-1381

DOI:

https://doi.org/10.4028/www.scientific.net/AMR.915-916.1377

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Online since:

April 2014

Authors:

Qiu Dong Sun*, Jian Cun Zuo, Yu Feng Shao, Lin Gui

Keywords:

Design Scheme, Distributed Computing, Information Server Clustering Technique, Sector Operation, Special Database System, Task Scheduling

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References

[1] E. Stoyanov, A. MacWilliams and Dieter Roller: Architecture for Distributed Component Management in Heterogeneous Software Environments. Innovations and Advanced Techniques in Computer and Information Sciences and Engineering (2007), pp.167-172.

DOI: 10.1007/978-1-4020-6268-1_31

Google Scholar

[2] Stefan Kirn, Otthein Herzog, Peter Lockemann and Otto Spaniol, in: International Handbooks on Information Systems— Multiagent Engineering (Architectural Design). Springer Berlin Heidelberg (2006), pp.405-429.

DOI: 10.1007/3-540-32062-8

Google Scholar

[3] Peter McBrien: Design of distributed applications based on the OSI model. Lecture Notes in Computer Science, Vol. 1250 (1997), pp.361-373.

Google Scholar

[4] P. K. Rajesh and B. MageshBabu: Web-based collaborative conceptual design: an XML approach. The International Journal of Advanced Manufacturing Technology, Vol. 38 (2008), No. 5-6, pp.433-440.

DOI: 10.1007/s00170-007-1113-x

Google Scholar

[5] X. R. Wu: A Dynamic and Self-adaptive Task Scheduling Mechanism. Computer and Modernization, (2007), No. 148, pp.65-67.

Google Scholar

[6] Simon Gallagher, Simon Herbert, in: PowerBuilder 6. 0 Unleased. Sams Pub. (1996).

Google Scholar

[7] X. N. Tong, W. N. Shu and Z. M. Li: Load balancing and task scheduling of heterogeneous multiprocessor system. Optics and Precision Engineering, Vol. 15 (2007), No. 12, p.1969-(1973).

Google Scholar

[8] X. H. Kong, W. B. Xu and J. Sun: Research on Distributed Multiprocessor Scheduling Based on the Ant Colony Algorithm. Computer Engineering & Science, Vol. 29 (2007), No. 3, pp.63-65, 83.

Google Scholar

[9] A. Z. Liu, J. Z. Wang, H. L. Jia, S. Z. Wang and L. Y. Chen: Genetic algorithm for mobile Agent tasks scheduling. Computer Applications, Vol. 27 (2007), No. 11, pp.2830-2833.

Google Scholar

[10] Y. Zhang and X. H. Zhang: Research of multiprocessors scheduling policy based on improved ant colony algorithm. Computer Engineering and Applications, Vol. 43 (2007), No. 35, pp.74-76.

Google Scholar