1 Manivasagam R, "Various control strategies for UPQC enhancement to mitigate PQ issues" Anna Univ. 2018
2 Kesler M, "Synchronous-reference-frame-based control methods for UPQC under unbalanced and distorted load conditions" 58 (58): 3967-3975, 2011
3 Do MT, "Sliding mode learning control and its applications" Swinburne University of Technology 2014
4 Khadem KS, "Power quality improvement of distributed generation integrated network with unified power quality conditioner" Dublin Institute of Technology 2016
5 Bhosale SS, "Power quality improvement by using UPQC, a review" 2018
6 Ghosh A, "Power electronics and power systems" Springer 2002
7 Kinhal VG, "Performance investigation of neural-network-based unified power-quality conditioner" 26 (26): 431-437, 2011
8 Koroglu T, "Performance analysis of multi-converter unified power quality conditioner with an EPLL based controller at medium voltage level" 26 (26): 2774-2786, 2016
9 Samira D, "Optimization of parameters of the unified power quality conditioner using genetic algorithm method" 36 (36): 242-245, 2007
10 Zhang Q, "Observer-based terminal sliding mode control of non-affine nonlinear systems: finite-time approach" 355 (355): 7985-8004, 2018
1 Manivasagam R, "Various control strategies for UPQC enhancement to mitigate PQ issues" Anna Univ. 2018
2 Kesler M, "Synchronous-reference-frame-based control methods for UPQC under unbalanced and distorted load conditions" 58 (58): 3967-3975, 2011
3 Do MT, "Sliding mode learning control and its applications" Swinburne University of Technology 2014
4 Khadem KS, "Power quality improvement of distributed generation integrated network with unified power quality conditioner" Dublin Institute of Technology 2016
5 Bhosale SS, "Power quality improvement by using UPQC, a review" 2018
6 Ghosh A, "Power electronics and power systems" Springer 2002
7 Kinhal VG, "Performance investigation of neural-network-based unified power-quality conditioner" 26 (26): 431-437, 2011
8 Koroglu T, "Performance analysis of multi-converter unified power quality conditioner with an EPLL based controller at medium voltage level" 26 (26): 2774-2786, 2016
9 Samira D, "Optimization of parameters of the unified power quality conditioner using genetic algorithm method" 36 (36): 242-245, 2007
10 Zhang Q, "Observer-based terminal sliding mode control of non-affine nonlinear systems: finite-time approach" 355 (355): 7985-8004, 2018
11 Chandrasekaran G, "Minimization of test time in system on chip using artificial intelligence-based test scheduling techniques" 32 : 5303-5312, 2020
12 Mohamed FA, "Microgrid modeling and online management" Helsinki University of Technology 2008
13 Khadem SK, "Intelligent islanding and seamless reconnection technique for micro-grid with UPQC" 3 (3): 483-492, 2015
14 Chakraborty S, "Experimental evaluation of active filtering in a single-phase high-frequency AC microgrid" 24 (24): 673-682, 2009
15 Khadkikar V, "Enhancing electric power quality using UPQC: a comprehensive overview" 27 (27): 2284-2297, 2012
16 Ochoa-Giménez M, "Comprehensive control for unified power quality conditioners" 5 (5): 609-619, 2017
17 da Silva SAO, "Comparative performance analysis involving a three-phase UPQC operating with conventional and dual/inverted power-line conditioning strategies" 35 (35): 11652-11665, 2020
18 Garces-Gomez YA, "Classic discrete control technique and 3D-SVPWM applied to a dual unified power quality conditioner" 9 (9): 5087-5097, 2019
19 Jianxing L, "An extended state observer based sliding mode control for three-phase power converters" 64 (64): 22-31, 2017
20 Niknam T, "A modified honey bee mating optimization algorithm for multi objective placement of renewable energy resources" 88 (88): 4817-4830, 2011
21 Landaeta LM, "A mixed LQRI/PI based control for three-phase UPQCs" 2006