Design and test bed experiments of server operation system using virtualization technology

According to current researches, much of the electric power is being consumed by the server cooling system at the Data Center. Moreover, the power consumption rate increases when the number of the equipments and servers expands. Thus, the proposed server operation system has been designed to decrease power consumption rate and CO2 emission volume by minimizing the number of these equipments and simplifying the physical composition of the system. Virtualization technology was adopted in both designing and implementation phases to improve resource efficiency of the system. As a result, significant amount has been saved while constructing the server operation system in this paper. System’s performance has been evaluated using a virtual machine prior to its practical use through test bed experiments and the results confirms our expectation that the virtual hardwares will work as efficiently as actual ones.

[1]  Shaoqiang Wang,et al.  Analysis and application of Wireshark in TCP/IP protocol teaching , 2010, 2010 International Conference on E-Health Networking Digital Ecosystems and Technologies (EDT).

[2]  Yingwei Luo,et al.  Optimizing Interactive Performance for Desktop-Virtualization Environment , 2012, ICPCA/SWS.

[3]  Young-Sik Jeong,et al.  Efficient Server Virtualization using Grid Service Infrastructure , 2010, J. Inf. Process. Syst..

[4]  Jun-Ho Huh,et al.  Development of Competency-oriented Social Multimedia Computer Network Curriculum , 2014 .

[5]  Teruhiko Teraoka,et al.  Organization and exploration of heterogeneous personal data collected in daily life , 2012, Human-centric Computing and Information Sciences.

[6]  Victor C. M. Leung,et al.  IP Multimedia subsystem authentication protocol in LTE-heterogeneous networks , 2012, Human-centric Computing and Information Sciences.

[7]  Indrajit Ray,et al.  Hypervisor Event Logs as a Source of Consistent Virtual Machine Evidence for Forensic Cloud Investigations , 2013, DBSec.

[8]  Jun-Ho Huh,et al.  Implementation of Graphic Based Network Intrusion Detection System for Server Operation , 2015 .

[9]  Gerhard Tröster,et al.  Sensing spatial and temporal coordination in teams using the smartphone , 2014, Human-centric Computing and Information Sciences.

[10]  Radek Martinek,et al.  Development and testing of a visualization application software, implemented with wireless control system in smart home care , 2014, Human-centric Computing and Information Sciences.

[11]  Won-Young Kim,et al.  Client Rendering Method for Desktop Virtualization Services , 2013 .

[12]  Ramakant Nevatia,et al.  Janus - Multi Source Event Detection and Collection System for Effective Surveillance of Criminal Activity , 2014, J. Inf. Process. Syst..

[13]  Jingfeng Guo,et al.  Efficient Greedy Algorithms for Influence Maximization in Social Networks , 2014, J. Inf. Process. Syst..

[14]  Fatos Xhafa,et al.  On the Performance of Oracle Grid Engine Queuing System for Computing Intensive Applications , 2014, J. Inf. Process. Syst..

[15]  Sang-Hwa Chung,et al.  An Efficient Load Balancing Scheme for Multi-Gateways in Wireless Mesh Networks , 2013, J. Inf. Process. Syst..

[16]  Hitoshi Ueno,et al.  Virtage: Server Virtualization with Hardware Transparency , 2009, Euro-Par Workshops.

[17]  Jun-Ho Huh,et al.  Hybrid Advanced Metering Infrastructure Design for Micro Grid Using the Game Theory Model , 2015 .

[18]  Kamal A. ElDahshan,et al.  Automatic evaluation technique for certain types of open questions in semantic learning systems , 2013, Human-centric Computing and Information Sciences.

[19]  Xavier Hesselbach,et al.  Greener networking in a network virtualization environment , 2013, Comput. Networks.

[20]  Sonia Fahmy,et al.  Increasing scalability in network simulation and testbed experiments , 2013 .

[21]  Juan Carlos Augusto,et al.  Flexible context aware interface for ambient assisted living , 2014, Human-centric Computing and Information Sciences.

[22]  Cong Li,et al.  Kernel-based Virtual Machine , 2017 .

[23]  Guo Yu Zhao,et al.  Efficient Inline Deduplication on VM Images in Desktop Virtualization Environment , 2013 .

[24]  Raj Jain,et al.  Network virtualization and software defined networking for cloud computing: a survey , 2013, IEEE Communications Magazine.

[25]  Vangalur S. Alagar,et al.  Publishing and discovering context-dependent services , 2013, Human-centric Computing and Information Sciences.

[26]  D. K. Lobiyal,et al.  Performance evaluation of data aggregation for cluster-based wireless sensor network , 2013, Human-centric Computing and Information Sciences.

[27]  Wolfgang J. Paul,et al.  Theory of Multi Core Hypervisor Verification , 2013, SOFSEM.

[28]  Zhaoquan Cai,et al.  A Hybrid Natural Computing Approach for the VRP Problem Based on PSO, GA and Quantum Computation , 2012 .