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Performance Evaluation of a Wireless Mobile Computational Grid

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Adekunle Adedotun Adeyelu, Tivlumun Ge, Musa Egahi. Published in Wireless.

Performance Evaluation of a Wireless Mobile Computational Grid
Communications on Applied Electronics
Year of Publication: 2016
Publisher: Foundation of Computer Science (FCS), NY, USA
Series: Volume 4 Number 6
Authors: Adekunle Adedotun Adeyelu, Tivlumun Ge, Musa Egahi
10.5120/cae2016652094
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Adekunle Adedotun Adeyelu, Tivlumun Ge and Musa Egahi. Article: Performance Evaluation of a Wireless Mobile Computational Grid. Communications on Applied Electronics 4(6):8-12, March 2016. Published by Foundation of Computer Science (FCS), NY, USA. BibTeX

@article{key:article,
	author = {Adekunle Adedotun Adeyelu and Tivlumun Ge and Musa Egahi},
	title = {Article: Performance Evaluation of a Wireless Mobile Computational Grid},
	journal = {Communications on Applied Electronics},
	year = {2016},
	volume = {4},
	number = {6},
	pages = {8-12},
	month = {March},
	note = {Published by Foundation of Computer Science (FCS), NY, USA}
}

Abstract

This work developed and simulated a mathematical model for a mobile wireless computational Grid architecture using networks of queuing theory. This was in order to evaluate the performance of the load-balancing three tier hierarchical configuration. The throughput and resource utilization metrics were measured and the results discussed using descriptive statistics.

References

  1. Foster I., Kesselman C., and Tuecke S. 2001 The anatomy of the grid, enabling scalable virtual organization , International Journal on Supercomputer Applications, vol. 15, no. 3, 2001.
  2. Foster I., Kesselman C., Nick J. M., and Tuecke S. 2002 The physiology of the grid, an open grid services architecture for distributed systems integration , Open Grid Service Infrastructure WG, Global Grid Forum.
  3. Kurkovsky, S., Bhagyavati and Arris, R. 2004. Emerging Issues in Wireless Computational Grids for Mobile devices. In Proceedings of the 8th Multiconference on Systemic, Cybernetics, and Informatics, Seattle, WA
  4. McKnight, L.W. and Howison, J. 2003. Towards a Sharing Protocol for Wireless Grids. Proceedings of International Conference on Computer Communication and Control Technologies (CCCT ’03), Orlando FL.
  5. Agarwal, A., Norman, D. O. and Gupta, A. 2004. Wireless Grids: Approaches, Architectures, and Technical Challenges. A working paper 4459-04, MIT Sloan School of Management.
  6. Manvi, S. and Birje, M. 2010. A Review on Wireless Grid Computing. International Journal of Computer and Electrical Engineering, 2(3): 469-473.
  7. Adeyelu, A., Olajubu E., Aderounmu A., Ge T. 2013. A Model for Coordinating Jobs on Mobile Wireless Computational Grids. International Journal of Computer Applications, 84(13): 17-24.
  8. Stallings, W. (2000). ‘Queuing Analysis’, [Online, Available: williamsStallings.com/ StudentSupport. .html [accessed on 15th May 2014].
  9. Hiller, F.S. and Lieberman, G.J. 1995. ‘Introduction to Operations Research’, McGrawHill Series in Industrial Engineering and Management Science, sixth Edition: 709-713.
  10. Jain, R. 1991. ‘The Art of Computer Systems Performance Analysis, Techniques for Experimental Design, Measurement, Simulation, and Modeling’. John Wiley and Sons Incorporated, USA.
  11. Carter, N. 2002. ‘Computer Architecture’, Schaums Outline Series, Tata McGraw- Hill, New Delhi: 279-287.
  12. Banks, J. 1998.’Handbook of Simulation: Principles, Methodology, Advances, Applications and Practice, Engineering and Management Press, USA: 23-25.

Keywords

Wireless Computational Grid, Queuing Theory, Load-Balancing, Hierarchical, Descriptive Statistics