Most Read Research Articles


Warning: Creating default object from empty value in /var/www/html/sandbox.ijcaonline.org/public_html/modules/mod_mostread/helper.php on line 79

Warning: Creating default object from empty value in /var/www/html/sandbox.ijcaonline.org/public_html/modules/mod_mostread/helper.php on line 79

Warning: Creating default object from empty value in /var/www/html/sandbox.ijcaonline.org/public_html/modules/mod_mostread/helper.php on line 79

Warning: Creating default object from empty value in /var/www/html/sandbox.ijcaonline.org/public_html/modules/mod_mostread/helper.php on line 79

Warning: Creating default object from empty value in /var/www/html/sandbox.ijcaonline.org/public_html/modules/mod_mostread/helper.php on line 79
Call for Paper - May 2015 Edition
IJCA solicits original research papers for the May 2015 Edition. Last date of manuscript submission is April 20, 2015. Read More

Self-Compressive Approach for Distributed System Monitoring

Print
PDF
 
Download Full Text
International Journal of Computer Applications
© 2014 by IJCA Journal
Volume 100 - Number 8
Year of Publication: 2014
Authors:
Akshada T Bhondave
Santoshkumar Biradar
10.5120/17542-8126

Akshada T Bhondave and Santoshkumar Biradar. Article: Self-Compressive Approach for Distributed System Monitoring. International Journal of Computer Applications 100(8):1-5, August 2014. Full text available. BibTeX

@article{key:article,
	author = {Akshada T Bhondave and Santoshkumar Biradar},
	title = {Article: Self-Compressive Approach for Distributed System Monitoring},
	journal = {International Journal of Computer Applications},
	year = {2014},
	volume = {100},
	number = {8},
	pages = {1-5},
	month = {August},
	note = {Full text available}
}

Abstract

Large-Scale distributed hosting infrastructures have become the basic platforms for several real-world production systems. But a challenging task is to achieve both scalability and high precision while monitoring a large number of intra-node attributes that contain information relating to each node and inter-node attribute that denote measurements between different nodes. This paper presents a new distributed monitoring framework Based on video coding techniques of named RBOIC (Replica Based Online Information Compression for Scalable Hosting Infrastructure Monitoring) which uses novel image based approach in which system models snapshots of the monitored distributed system images and applies lightweight online reference block search algorithm to compress monitoring traffic from worker to management node to achieve scalable full coverage monitoring. RBOIC explores the design, implementation of adaptive rood pattern search algorithm to find out optimal or near optimal reference values for each attribute. RBOIC effectively achieve failure-resilient monitoring by restoring monitoring data on replica node. The experimental evaluation of compressive monitoring system has been done using real time monitoring data . The experimental results show that RBOIC can achieve much higher compression ratios with less overhead and adaptive rood pattern search (APRS) achieves better performance by preventing unnecessary intermediate search than diamond search pattern.

References

  • "CoMon. http://comon. cs. princeton. edu/.
  • "IBM Tivoli Monitoring Software "http://www 01. ibm. com/software/Tivoli/2012.
  • R. Van Renesse, K. P. Birman, and W. Vogels, "Astrolabe: A Robust and Scalable Technology for Distributed System Monitoring, Management, and Data Mining," ACM Trans. Computing systems, vol. 21, no. 2, pp. 164-206, 2003.
  • P. Yalagandula and M. Dahlin, "A Scalable Distributed Information Management System," Proc. ACM SIGCOMM, Aug. 2004.
  • Matthew L. Massie, Brent N. Chun, and David E. Culler, "The Ganglia Distributed Monitoring System: Design, Implementation, and Experience", Parallel Computing, 30(7):817 – 840, 2004.
  • J. Liang, X. Gu, and K. Nahrstedt, "Self-Configuring Information Management for Large-Scale Service Overlays," in Proc. IEEEINFOCOM, 2007.
  • N. Jain, D. Kit, P. Mahajan, P. Yalagandula, M. Dahlin, and Y. Zhang, "STAR: Self-Tuning Aggregation for Scalable Monitoring", Proc. Int'l Conf Very Large Data Bases (VLDB), 2007.
  • Y. Zhao, Y. Tan, Z. Gong, X. Gu, and M. Wamboldt, "Self- Correlating Predictive Information Tracking for Large-Scale Production Systems", Proc. Int'l Conf. Autonomic Computing (ICAC), 2009
  • S. Zhu and K. K. Ma, "A New Diamond Search Algorithm for Fast Block- Matching Motion Estimation" IEEE Trans. Image Processing, vol. 9, no. 2, pp. 287-290, Feb. 2000.
  • Yao Nie , Kai-Kung Ma ," Adaptive Rood Pattern Search for Fast Block-Matching Motion Estimation" ,IEEE Transaction On Image Processing ,Vol. 11,no. 12,December. 2002
  • Y. Tan, X. Gu, and V. Venkatesh, "OLIC: Online Information Compression for Scalable Hosting Infrastructure Monitoring," Proc. 19th Int'l Workshop Quality of Service (IWQoS), 2011.
  • Y. Tan, V. Venkatesh, and X. Gu, "Resilient Self Compressive Monitoring for Large-Scale Hosting Infrastructures," IEEE Transactions on Parallel and Distributed Systems, vol. 24, no. 3, pp. 576-. 586, March 2013, doi:10. 1109/TPDS. 2012. 167
  • V. Venkatesh,"Video Coding Approach to Compressive Distributed System, Ph. D. thesis, Department of Computer Science, North Carolina state University, March 2010.
  • Y. Tan, "Online Performance Anomaly Prediction and Prevention for Complex dummy Distributed systems. Ph. D. thesis, Department of Computer science, North Carolina state University, 2012.
  • T. Sikora. Trends and Perspectives in Image and Video Coding. Proceedings of IEEE,93(1):6–17, January 2005.