KŘENEK, Aleš, Petr HOLUB, Vlastimil HOLER, Daniel KOUŘIL, Filip PROCHÁZKA, Zdeněk HEJNA, Miroslav GURIČAN and František MULLER. 3.5 Million Smartmeters in the Cloud. Online. In Simon Lin. Proceedings ISGC 2013. Trieste: PoS - Proceedings of Science, 2013, p. 180-189. ISSN 1824-8039.
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Basic information
Original name 3.5 Million Smartmeters in the Cloud
Name in Czech 3,5 milionu smartmeteru v cloudu
Authors KŘENEK, Aleš (203 Czech Republic, guarantor, belonging to the institution), Petr HOLUB (203 Czech Republic, belonging to the institution), Vlastimil HOLER (203 Czech Republic, belonging to the institution), Daniel KOUŘIL (203 Czech Republic, belonging to the institution), Filip PROCHÁZKA (203 Czech Republic), Zdeněk HEJNA (203 Czech Republic), Miroslav GURIČAN (703 Slovakia) and František MULLER (203 Czech Republic).
Edition Trieste, Proceedings ISGC 2013, p. 180-189, 10 pp. 2013.
Publisher PoS - Proceedings of Science
Other information
Original language English
Type of outcome Proceedings paper
Field of Study 10201 Computer sciences, information science, bioinformatics
Country of publisher Taiwan
Confidentiality degree is not subject to a state or trade secret
Publication form electronic version available online
WWW URL
RIV identification code RIV/00216224:14610/13:00070320
Organization unit Institute of Computer Science
ISSN 1824-8039
Keywords in English smartmeter cloud simulation
Tags rivok
Tags International impact, Reviewed
Changed by Changed by: Mgr. Marta Novotná Buršíková, učo 15689. Changed: 25/4/2014 15:49.
Abstract
Currently the operator of the Czech national electric power distribution network runs a pilot project of testing deployment of approximately 35,000 smart meters – devices which measure various quantities related to power consumption at the end-user side. The measured data are gath- ered along the distribution to concentrator devices (each serving several hundreds of smart meters typically) which send it further to a cluster of central servers for data processing. The pilot will be followed by deployment of approximately 100x more such devices. However, such deployment is unprecedented with the software in use. Therefore a simulation experiment is required to discover and mitigate potential scaling issues in advance. The simulation is run in the cloud infrastructure of CERIT-SC (managed by the OpenNebula stack). The central servers are deployed on hardware of similar scale and in the same software configuration as intended for the production. The data sources – smart meters are simulated at the level of concentrators. The implementation allows to simulate varying patterns of measurements and patterns of unaccessibility. Unchanged communication protocols between the concentrator and the central server are used then. Because the target setup assumes up to 50,000 concentrators, up to thousands of concentrators must be handled by a single simulator instance. The target environment uses data links of varying qualities, starting even at GPRS links. Therefore the simulator also includes modules which emulate packet loss, delay, and jitter in the network communication in a controlled way. This setup allows testing sensitivity of the entire system on network properties. The cloud is an essential flexible infrastructure to run such an experiment. With the exception of the RDBMS server running on a large SMP machine all the servers (both the central cluster and the data source simulators) are run in virtual machines in the cloud. This allows multiplatform setup (Windows and two Linux flavours are used) and, in particular, servers can be added to various groups (simulators, front-ends, application logic, etc.) easily. On the other hand, resources which are not required in a certain stage of the experiment, can be easily released to other use, which makes even such a large experiment affordable
Links
ED3.2.00/08.0144, research and development projectName: CERIT Scientific Cloud
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