Browse > Article
http://dx.doi.org/10.3745/KTCCS.2015.4.9.297

Design and Prototyping of Scientific Collaboration Platform over KREONET  

Kwon, Yoonjoo (한국과학기술정보연구원 첨단연구망센터)
Hong, Wontaek (한국과학기술정보연구원 첨단연구망센터)
Publication Information
KIPS Transactions on Computer and Communication Systems / v.4, no.9, 2015 , pp. 297-306 More about this Journal
Abstract
Cloud computing has been increasingly used in various fields due to its flexibility, scalability, cost effectiveness, etc. Recently, many scientific communities have been attempting to use cloud computing as a way to deal with difficulties in constructing and operating a research infrastructure. Especially, since they need various collaborations based on networking, such as sharing experimental data, redistributing experimental results, and so forth, cloud computing environment that supports high performance networking is required for scientific communities. To address these issues, we propose RealLab, a high performance cloud platform for collaborative research that provides virtual experimental research environment and data sharing infrastructure over KREONET/GLORIAD. Additionally, we describe some RealLab use cases for showing the swift creation of experimental environment and explain how massive experimental data can be transferred and shared among the community members.
Keywords
Cloud; KREONET/GLORIAD; OpenStack; Scientific Collaboration;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Grossman, Robert L, "The case for cloud computing," IT Professional, Vol.11, Issue.2, pp.23-27, 2009.   DOI
2 Vinay Augustine and Brian Robinson, "Using virtual machines for collaborative research," ACM-IEEE International Symposium on Empirical Software Engineering and Measurement (ESEM'10), New York, NY, US.
3 Keahey, Kate, et al. "Science clouds: Early experiences in cloud computing for scientific applications," Cloud computing and applications 2008, pp.825-830, 2008.
4 Grossman, Robert L., et al. "Compute and storage clouds using wide area high performance networks," Future Generation Computer Systems, Vol.25, Issue.2, pp.179-183, 2009.   DOI
5 Ramakrishnan, Lavanya, et al. "Magellan: experiences from a science cloud," Proceedings of the 2nd international workshop on Scientific cloud computing, ACM, 2011.
6 N. Nagar and U. Suman, "Architectural Comparison and Implementation of Cloud Tools and Technologies," International Journal of Future Computer and Communication, Vol.3, No.3, Jun., 2014.
7 Chard, Ryan, Kris Bubendorfer, and Bryan Ng, "Network Health and e-Science in Public Clouds," e-Science (e-Science), 2014 IEEE 10th International Conference on, Vol.1, IEEE, 2014.
8 GEANT project white paper, "Milestone MS101(MJ1.2.1): Network Architectures for Cloud Services," Mar., 2014.
9 OpenCloud [Internet], http://www.opencloud.us/.
10 Yokoyama, Shigetoshi, and Nobukazu Yoshioka. "Ondemand Cloud Architecture for Academic Community Cloud." CLOSER2014, 4th International Conference on cloud computing and Service Science. 2014.
11 Jang Ho Lee, "A Software Architecture for Supporting Dynamic Collaboration Environment on the Internet," Journal of KIISE, Vol.9, No.2, pp.146-157, Apr., 2003.
12 Sonnenwald, Diane H., Mary C. Whitton, and Kelly L. Maglaughlin, "Evaluating a scientific collaboratory: Results of a controlled experiment," ACM Transactions on Computer-Human Interaction (TOCHI), Vol.10, Issue.2, pp.150-176, 2003.   DOI
13 Stewart, Craig A., et al. "What is cyberinfrastructure," Proceedings of the 38th annual ACM SIGUCCS fall conference, ACM, 2010.
14 Globus online [Internet], https://www.globus.org/.
15 OpenStack [Internet], http://www.openstack.org/.