ANALIZA PRIMENE AMI SISTEMA U CLOUD OKRUŽENJU
Ključne reči:
AMI sistem, Cloud
Apstrakt
U ovom radu opisana je AMI arhitektura i predstavljen je problem rukovanja velikom količinom podataka. Nakon toga, prezentovano je softversko rešenje AMI sistema, gde se deo aplikacija nalazi na Cloud-u. Na kraju rada prikazani su i analizirani rezultati testiranja izabranog skupa funkcionalnosti implementiranog rešenja.
Reference
[1] JP Elektroprivreda Srbije, “Funkcionalni zahtevi i tehničke specifikacije AMI/MDM sistema”, 2014.
[2] G. R. Barai, S. Krishnan, and B. Venkatesh, “Smart metering and functionalities of smart meters in smart grid - A review”, Electrical Power and Energy Conference (EPEC), 2015.
[3] J. Feng, “An analytics of electricity consumption characteristics based on principal component analysis”, IOP Conference Series: Earth and Environmental Science, pp. 0–6, 2018.
[4] U.S. Department of Energy, “Advanced Metering Infrastructure and Customer Systems: Results from the Smart Grid Investment Grant Program”, Off. Electr. Deliv. Energy Reliab., pp. 1–98, 2016.
[5] H. Bai, “Programming Microsoft Azure Service Fabric”, Microsoft Press, 2016.
[6] R. Q. Hu, J. Zhou, R. Q. Hu, and S. Member, “Scalable Distributed Communication Architectures to Support Advanced Metering Infrastructure in Smart Grid”, IEEE Transactions on Parallel and Distributed Systems, vol. 23, no. 9, pp. 1632–1642, 2012.
[7] M. Yigit, V. C. Gungor, and S. Baktir, “Cloud Computing for Smart Grid applications”, Comput. Networks, vol. 70, pp. 312–329, 2014.
[2] G. R. Barai, S. Krishnan, and B. Venkatesh, “Smart metering and functionalities of smart meters in smart grid - A review”, Electrical Power and Energy Conference (EPEC), 2015.
[3] J. Feng, “An analytics of electricity consumption characteristics based on principal component analysis”, IOP Conference Series: Earth and Environmental Science, pp. 0–6, 2018.
[4] U.S. Department of Energy, “Advanced Metering Infrastructure and Customer Systems: Results from the Smart Grid Investment Grant Program”, Off. Electr. Deliv. Energy Reliab., pp. 1–98, 2016.
[5] H. Bai, “Programming Microsoft Azure Service Fabric”, Microsoft Press, 2016.
[6] R. Q. Hu, J. Zhou, R. Q. Hu, and S. Member, “Scalable Distributed Communication Architectures to Support Advanced Metering Infrastructure in Smart Grid”, IEEE Transactions on Parallel and Distributed Systems, vol. 23, no. 9, pp. 1632–1642, 2012.
[7] M. Yigit, V. C. Gungor, and S. Baktir, “Cloud Computing for Smart Grid applications”, Comput. Networks, vol. 70, pp. 312–329, 2014.
Objavljeno
2018-12-11
Sekcija
Elektrotehničko i računarsko inženjerstvo