The systematization, development, and application of grid-system technologies
Pages 12 - 21
Abstract
This article systemizes grid systems of different types according to their main categories and features that determine their technical and functional possibilities. It considers intelligent grid systems and itemizes the directions by which the present-day models, algorithms, and tools of the software for grid systems, including those with elements of artificial intelligence, are developed. It supplies information about the implemented intelligent software-hardware systems for monitoring and the appraisals of the technical condition of objects in national and regional networks of the mainline power supply.
References
[1]
Proc. IEEE, 2011, vol. 99, pp. 928---951, 952---956, 977---997, 998---1027, 1028---1045,1074---1082, 1098---1115, 1046---1062.
[2]
Chair of Informatics. Nanotechnology and Informatics Faculty, Mos. Fiz. Tekh. Inst., 2007. http://www.fnti.kiae.ru/.
[3]
NIST Framework and Roadmap for Smart grid Interoperability Standards, Release 1.0, Office of the National Coordinator for Smart grid Interoperability. http:/www.nist.gov/public_affairs/releases/upload/smartgrid_interoperability_final.pdf
[4]
Khorashadi, B., et al., Distributed automated incident detection with Vgrid, IEEE Wireless Commun., 2011, vol.18, pp. 64---73.
[5]
Rudin, C., Waltz, D., Anderson, R., et al., Machine learning for the New York city power grid, IEEE Trans. Pattern Anal. Mach. Intell., 2012, vol.34, pp. 328---345.
[6]
Chang, R., Yu, Yu., Hairong, L.V., et al., Selling the smart grid. Part 1, IEEE Consum. Electron. Mag., 2012, vol.1, pp. 24---31.
[7]
Proidakov, E.M. and Teplitskii, L.A., English-Russian Explanatory Dictionary of Terms and Abbreviations on Computer Engineering, Internet and Programming. Computers (En-Ru) (to ABBYY Lingvo x3 Version), 5th ed., Moscow, 2007.
[8]
Hewitt, C., ORGs for scalable, robust, privacy-friendly client cloud computing, IEEE Internet Comput., 2008, vol.12, pp. 76---99.
[9]
Kalyaev, A.I., On one method of solution of incoming flow of joint problems in multiagent GRID, in Problemy upravleniya i modelirovaniya v slozhnykh sistemakh: sb. trudov (Problems of Management and Modeling in Complex Systems. Coll. Papers), Taganrog, 2013, pp. 409---413.
[10]
Fogarti, K., Cloud Computations: Determinations and Solutions, Direktor Inform. Sluzhby, 2011, no. 3. http://www.osp.ru/cio/2011/03/13007508/
[11]
SETI@home (Search for Extra Terrestrial Intelligence at home). http://setiathome.berkeley.edu/
[12]
Folding@home distributed computing project. http://folding.stanford.edu/
[13]
DIMES -- a distributed scientific research project. http://www.netdimes.org/new/
[14]
The Clean Energy project. http://cleanenergy.harvard.edu/
[15]
Hydrogen@Home. http://hydrogenathome.org/
[16]
World Community grid. http://www.worldcommunitygrid.org/
[17]
Planet Quest. http://www.planetquest.org/
[18]
Zhabelova, G. and Vyatkin, V., Multiagent smart grid automation architecture based on IEC 61850/61499 intelligent logical nodes, IEEE Trans. Ind. Electron., 2012, vol. 59, pp. 2351---2362.
[19]
Mo, Y., Kim H.-J., Brancik, K., et al., Cyber-physical security of a smart grid infrastructure, Proc. IEEE, 2012, vol. 100, pp. 195---209.
[20]
Alam, M.R., Reaz, M.B.I., and Mohd Ali, M.A., SPEED: An Inhabitant Activity Prediction Algorithm for Smart Homes, IEEE Trans. Syst., Man. Cybern., A., 2012, vol. 42, pp. 985---990.
[21]
Fyhn, K., Jacobsen, R.M., Popovski, P., and Torben, L., Fast capture-recapture approach for mitigating the problem of missing RFID tags, IEEE Trans. Mobile Comput., 2012, vol. 11, pp. 518---528.
[22]
Niculita, R. and Tapus, N., Model for a grid infrastructure based on Java, Sci. Bull. C, 2009, vol. 71, pp. 113---124.
[23]
Fukuda, M. and Miyauchi, J., An implementation of parallel file distribution in an agent hierarchy, J. Supercomput., 2009, vol. 47, pp. 255---285.
[24]
Nadarajan, R., Applying SD-tree for object-oriented query processing, Informatica (Slovenia), 2009, vol. 33, pp. 169---179.
[25]
Li, D., et al., IPBGA: A hybrid P2P based grid architecture by using information pool protocol, J. Supercomput., 2009, vol. 49, pp. 159---189.
[26]
Chao, I., Ardaiz, O., and Sanguesa, R., A group selection pattern applied to grid resource management, Knowl. Eng. Rev., 2009, vol. 3, pp. 91---103.
[27]
Ranaldo, N. and Zimeo, E., Time and cost-driven scheduling of data parallel tasks in grid workflows, IEEE Syst. J., 2009, vol. 3, pp. 104---120.
[28]
Roy, S. and Mukherjee, N., Adaptive execution of jobs in computational grid environment, J. Comput. Sci. Technol., 2009, vol. 24, pp. 925---938.
[29]
Shinohara, M. and Kikuchi, T., Space weather news on the Web at NICT, J. Nat. Inst. Inf. Commun. Technol., 2005, vol. 52, pp. 207---214.
[30]
Goel, A., et al., Interacting process classes, ACM, Trans. Software Eng., Methodol., 2009, vol. 18, pp. 13/1---13/47.
[31]
Catherine, M., Bryant, D.J., and Chalmers, B.A., Boundary, purpose, and values in work-domain models: Models of naval command and control, IEEE Trans. Syst., man, and Cybern. -- Part A, Syst. Humans, 2005, vol. 35, pp. 603---617.
[32]
Ke, H., Chen, Y., and Wang, G., Target assignment model of electronic equipment based on GM(1,1) model, The J. Grey Syst. 3 -- Nat. Univ. Defense Technol., 2005, pp. 235---242.
[33]
Liu, X.L. and Liao, G.S., Multi-target localization in bistatic MIMO radar, Electron. Lett., 2010, vol. 46, pp. 945---949.
[34]
IBM. http://www.ibm.com/
[35]
Samsung Electronics. http://www.samsung.com/
[36]
Apple. http://www.apple.com/
[37]
SAP. http://www.sap.com/
[38]
Microsoft Corp., http://www.microsoft.com/
[39]
DIMES -- a distributed scientific research project. http://www.netdimes.org/new/
[40]
The Clean Energy project. http://cleanenergy.harvard.edu/
[41]
Galli, S. and Logvinov, O., Recent development in the standardization of power line communications within the IEEE, IEEE Commun. Mag., 2008, vol. 46, pp. 64---71.
[42]
Gharavi, H. and Ban, K., Multihop sensor network design for wideband communications, Proc. UEEE, 2003, vol. 91, pp. 1221---1234.
[43]
Royer, E. and Perkins, C., Multicast operation of the ad-hoc on-demand distance vector routing protocol, Proc. ACM Mobicom'99, Seattle, WA. 1999, pp. 207---218.
[44]
Sinha, P., Sivakumar, R., and Bharghavan, V., MCE-DAR: Multicast core extraction distributed ad-hoc routing, Proc. Wireless Commun. Netw. Conf., New Orleans, LA, 1999, vol. 3, pp. 1313---1317.
[45]
Zheng, J. and Lee, M.J., A comprehensive performance study of IEEE 802.15.4, Sensor Network operations, hoboken, ch. 4, 2006, pp. 218---237.
[46]
Motegi, J. and Horiuchi, H., AODV-based multipath routing protocol for mobile ad hoc networks, IEICE Trans. Commun., 2004, vol. E87-B, pp. 2477---2483.
[47]
Tsirigos and Haas, Z.J., Multipath routing in the presence of frequent topological changes, IEEE Commun. Mag., 2001, vol. 39, pp. 132---138.
[48]
IEEE Trans. Ind. Inf., 2013, vol. 9, pp. 28---42, 52---61.
[49]
Vaccaro, A., et al., An integrated framework for smart microgrids modeling, monitoring, control, communication, and verification, Proc. IEEE, 2011, pp. 119---132.
[50]
Demichev, A.P., et al., grid architecture for national nanotechnological network, Proc. 4th Int. Conf. on Distributed Computing and grid-Technologies in Science and Education, Dubna, 2010, pp. 352---356.
[51]
Amazon.com. http://www.amazon.com/
[52]
Google. http://www.google.ru/
[53]
Skytap. http://www.skytap.com/skytap-cloud/
[54]
VMWare. http://www.vmware.com/ru/
[55]
Microsoft. http://windows.microsoft.com/ru-RU/
[56]
Programming the grid with g-Lite. http://cgsweb.cern.ch/record/936685/files/egee-tr-2006-001.pdf
[57]
EGEE. http://public.eu-egee.org
[58]
Khan, S. and Ahmad, I., A cooperative game theoretical technique for joint optimization of energy consuption and response time in computational grids, IEEE Trans. Paral. Distrib. Syst., 2009, vol. 20, pp. 346---360.
[59]
Saad, Z.H., Vincent, P., and Tamer, B., Game-theoretic methods for the smart grid, IEEE Signal Proc. Mag., 2012, vol. 29, pp. 86---105.
[60]
Bai, H.F., Wang, B.T., Wang, DS., and Li, M.W., Active-fault-alarm enabled pre-protection scheme in 10G-EPON for smart power grid, J. China Univ. Posts Telecommun., 2012, vol. 19, pp. 106---109.
[61]
Dobber, M., et al., Dynamic load balancing and job replication in a global-scale grid environment: A comparison, IEEE Trans. Paral. Distrib. Syst., 2009, vol. 20, pp. 207---218.
[62]
Lin, L. and Huai, J., Qgrid: An adaptive trust aware resource management framework, IEEE Syst. J., 2009, vol. 3, pp. 78---90.
[63]
den Burger, M. and Kielmann, T., Collective receiver-initiated multicast for grid applications, IEEE Trans. Paral. Distrib. Syst., 2009, vol. 22, pp. 231---244.
- The systematization, development, and application of grid-system technologies
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Copyright © Copyright © 2014 Allerton Press, Inc.
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Published: 01 January 2014
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