1 Liao, H, "Zonal mitigation of power quality using FACTS devices for provision of differentiated quality of electricity supply in networks with renewable generation" 32 (32): 1975-1985, 2017
2 Jian Han, "Shaonan Gong: Three-Phase UPQC Topology Based on Quadruple-Active-Bridge" 9 : 4049-4058, 2021
3 Kalair, A, "Review of harmonic analysis, modeling and mitigation techniques" 78 : 1152-1187, 2017
4 Nagarajan, A, "Performance comparison of UPQC for improving the power quality with industrial controller techniques" 50 (50): 13-, 2021
5 Nagarajan, A, "Performance comparison of L-UPQC and R-UPQC with FUZZY logic controller for power quality improvement" 11 (11): 92-100, 2018
6 Choi, W, "New configuration of multifunctional grid-connected inverter to improve both currentbased and voltage-based power quality" 54 (54): 6374-6382, 2018
7 Axente, I, "DC link voltage control of UPQC for better dynamic performance" 81 (81): 1815-1824, 2011
8 Alam, S.J, "Control of UPQC based on steady state linear Kalman filter for compensation of power quality problems" 6 (6): 52-65, 2020
9 Rajendran, M, "Comparison of various control strategies for UPQC to mitigate PQ issues" 102 : 19-29, 2020
10 Ikramullah, Ashraf, M, "Comparison of reference current generation techniques for shunt active power filter" 2018
1 Liao, H, "Zonal mitigation of power quality using FACTS devices for provision of differentiated quality of electricity supply in networks with renewable generation" 32 (32): 1975-1985, 2017
2 Jian Han, "Shaonan Gong: Three-Phase UPQC Topology Based on Quadruple-Active-Bridge" 9 : 4049-4058, 2021
3 Kalair, A, "Review of harmonic analysis, modeling and mitigation techniques" 78 : 1152-1187, 2017
4 Nagarajan, A, "Performance comparison of UPQC for improving the power quality with industrial controller techniques" 50 (50): 13-, 2021
5 Nagarajan, A, "Performance comparison of L-UPQC and R-UPQC with FUZZY logic controller for power quality improvement" 11 (11): 92-100, 2018
6 Choi, W, "New configuration of multifunctional grid-connected inverter to improve both currentbased and voltage-based power quality" 54 (54): 6374-6382, 2018
7 Axente, I, "DC link voltage control of UPQC for better dynamic performance" 81 (81): 1815-1824, 2011
8 Alam, S.J, "Control of UPQC based on steady state linear Kalman filter for compensation of power quality problems" 6 (6): 52-65, 2020
9 Rajendran, M, "Comparison of various control strategies for UPQC to mitigate PQ issues" 102 : 19-29, 2020
10 Ikramullah, Ashraf, M, "Comparison of reference current generation techniques for shunt active power filter" 2018
11 Karbasforooshan, M.-S, "An improved reference current generation and digital deadbeat controller for single-phase shunt active power filters" 35 (35): 2663-2671, 2020
12 Elmetwaly, A.H, "An adaptive D-FACTS for power quality enhancement in an isolated microgrid" 8 : 5923-57942, 2020
13 Nagarajan, A, "A study of UPQC: emerging mitigation techniques for the impact of recent power quality issues" 47 (47): 11-21, 2021
14 Chen, D, "A novel fundamental and harmonics detection method based on state-space model for power electronics system" 8 : 170002-170012, 2020
15 Dongre, G.A, "A comparison and analysis of control algorithms for Shunt Active Power Filter" 2015