RELIABLE/COST-EFFECTIVE OPTIMIZATION FRAMEWORK FOR PRECISE PHASOR MEASUREMENT LOCATIONS

Manoharan Hariprasath, Srikrishna Subramanian, Sivarajan Ganesan, and Manoharan Abirami

References

1. [1] N.M. Manousakis, G.N. Korres, and P.S. Georgilakis, Taxon-omy of PMU placement methodologies, IEEE Transactions onPower Systems, 27, 2012, 1070–1077.
2. [2] B. Gou, Optimal placement of PMUs by integer linear pro-gramming, IEEE Transactions on Power Systems, 23, 2008,1525–1526.
3. [3] D. Dua, S. Dambhare, R. Gajbhiye, and S.A. Soman, Optimalmultistage scheduling of PMU placement: An ILP approach,IEEE Transactions on Power Delivery, 23, 2008, 1812–1820.
4. [4] F. Aminifar, A. Khodaei, M. Fotuhi-Firuzabad, andM. Shahidehpour, Contingency-constrained PMU placementin power networks, IEEE Transactions on Power Systems, 25,2010, 516–523.
5. [5] R. Sodhi, S.C. Srivastava, and S.N. Singh, Multi-criteriadecision-making approach for multistage optimal placement ofphasor measurement units, IET Transactions on Generation,Transmission and Distribution, 5(2), 2011, 181–190.
6. [6] R. Kavasseri and S.K. Srinivasan, Joint placement of phasor andpower flow measurements for observability of power systems,IEEE Transactions on Power Systems, 26, 2011, 1929–1936.
7. [7] B.K. Saha Roy, A.K. Sinha, and A.K. Pradhan, An optimalPMU placement technique for power system observability,Electrical Power and Energy Systems, 42, 2012, 71–77.
8. [8] S.M. Mahaei and M.T. Hagh, Minimizing the number of PMUsand their optimal placement in power systems, Electric PowerSystems Research, 83, 2012, 66–72.
9. [9] S. Azizi, G.B. Gharehpetian, and A.S. Dobakhshari, Optimalintegration of phasor measurement units in power systemsconsidering conventional measurements, IEEE Transactionson Smart Grid, 28(4), 2013, 1113–1121.
10. [10] N.H. Abbasy and H.M. Ismail, A unified approach for theoptimal PMU location for power system state estimation, IEEETransactions on Power Systems, 24, 2009, 806–813.
11. [11] Enshaee, R.A. Hooshmand, and F.H. Fesharaki, A new methodfor optimal placement of phasor measurement units to maintainfull network observability under various contingencies, ElectricPower Systems Research, 89(1), 2012, 1–10.
12. [12] S. Chakrabarti, E. Kyriakides, and D.G. Eliades, Placementof synchronized measurements for power system observability,IEEE Transactions on Power Delivery, 24, 2009, 12–19.
13. [13] N.P. Theodorakatos, N.M. Manousakis, and G.N. Korres,Optimal placement of phasor measurement units with linear andnon-linear models, Electric Power Components and Systems,43, 2015, 357–373.
14. [14] N.M. Manousakis and G.N. Korres, A weighted least squaresalgorithm for optimal PMU placement, IEEE Transactions onPower Systems, 28, 2013, 3499–3500.
15. [15] T.L. Baldwin, L. Mili, M.B. Boisen, and R. Adapa, Powersystem observability with minimal phasor measurement placement, IEEE Transactions on Power Systems, 8, 1993, 707–715.
16. [16] B. Milosevic and M. Begovic, Non-dominated sorting geneticalgorithm for optimal phasor measurement placement, IEEETransactions on Power Systems, 18(1), 2003, 69–75.
17. [17] J. Peng, Y. Sun, and H.F. Wang, Optimal PMU placementfor full network observability using Tabu search algorithm,Electrical Power and Energy Systems, 28, 2006, 223–231.
18. [18] S. Chakrabarti and E. Kyriakides, Optimal placement ofphasor measurement units for power system observability,IEEE Transactions on Power Systems, 23, 2008, 1433–1440.
19. [19] F. Aminifar, C. Lucas, A. Khodaei, and M. Fotuhi-Firuzabad,Optimal placement of phasor measurement units using immunity genetic algorithm, IEEE Transactions on Power Delivery,24, 2009, 1014–1020.
20. [20] A. Ahmadi, Y. Alinejad-Beromi, and M. Moradi, Optimal PMUplacement for power system observability using binary particleswarm optimization and considering measurement redundancy,Expert Systems with Applications, 38, 2011, 7263–7269.
21. [21] R. Babu and B. Bhattacharyya, Optimal allocation of phasormeasurement unit for full observability of the connected powernetwork, Electrical Power and Energy systems, 79, 2016, 89–97.
22. [22] S.M. Mazhari, H. Monsef, H. Lesani, and A. Fereidunian,A multi-objective PMU placement method considering measurement redundancy and observability value under contingencies, IEEE Transactions on Power Systems, 28, 2013,2136–2146.
23. [23] A.Mahari and H. Seyedi, Optimal PMU placement for powersystem observability using BICA, considering measurementredundancy, Electric Power Systems Research, 103, 2013,78–85.
24. [24] N.C. Koutsoukis, N.M. Manousakis, P.S. Georgilakis, andG.N. Korres, Numerical observability method for optimal phasor measurement units placement using recursive tabu searchmethod, IET Generation, Transmission and Distribution, 7,2013, 1–10.
25. [25] M. Dalali and H. Kazemi Karegar, Optimal PMU placement forfull observability of the power network with maximum redundancy using modified binary cuckoo optimisation algorithm,IET Generation, Transmission and Distribution, 10(11), 2016,2817–2824.
26. [26] K. Arul jeyaraj, V. Rajasekaran, S.K. Nandha Kumar, and K.Chandrasekaran, A multi-objective placement of phasor measurement units using fuzzified artificial bee colony algorithm,considering system observability and voltage stability, Journal of Experimental and Theoretical Artificial Intelligence, 28,2016, 1–2.
27. [27] B. Vedik and A.K. Chandel, Optimal PMU placement forpower system observability using Taguchi binary bat algorithm,Measurement, 95, 2017, 8–20.
28. [28] L. Huang, Y. Sun, J. Xu, W. Gao, J. Zhang, and Z. Wu,Optimal PMU placement considering controlled islanding ofpower system, IEEE Transactions on Power Systems, 29, 2014,742–755.
29. [29] M. Dehghani, L. Goel, and W. Li, PMU based observabilityreliability evaluation in electric power systems, Electric PowerSystems Research, 116, 2014, 347–354.
30. [30] M. Ghamsari-Yazdel and M.Esmali, Reliability-based probabilistic optimal joint placement of PMUs and flow measurements, Electrical Power and Energy Systems, 78, 2016,857–863.
31. [31] S. Mirjalili, The ant lion optimizer, Advances in Engineering Software, 83, 2015, 80–98.
32. [32] M. Raju, L.C. Saikia, and N. Sinha, Automatic generationcontrol of a multi-area system using ant lion optimizer algorithmbased PID plus second order derivative controller, ElectricalPower and Energy Systems, 80, 2016, 52–63.
33. [33] H.M. Dubey, M. Pandit, and B.K. Panigrahi, Ant lion optimization for short-term wind integrated hydrothermal powergeneration scheduling, Electrical Power and Energy Systems,83, 2016, 158–174.

Important Links:

• Abstract
• DOI: 10.2316/Journal.203.2017.2.203-6357
• From Journal (203) International Journal of Power and Energy Systems - 2017

Go Back