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Sensorless Tracking Control Based on Sliding Mode for the “Full-Bridge Buck Inverter–DC Motor” System Fed by PV Panel. (2023). Garcia-Chavez, Rogelio Ernesto ; Garcia-Cortes, Rocio ; Silva-Ortigoza, Ramon ; Villarreal-Cervantes, Miguel Gabriel ; Marciano-Melchor, Magdalena ; Garcia-Sanchez, Jose Rafael ; Orta-Quintana, Angel Adrian.
In: Sustainability.
RePEc:gam:jsusta:v:15:y:2023:i:13:p:9858-:d:1175751.

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  1. Ahmad, M.A.; Ismail, R.M.T.R.; Ramli, M.S. Control strategy of Buck converter driven DC motor: A comparative assessment. Austral. J. Basic Appl. Sci. 2010, 4, 4893–4903.
    Paper not yet in RePEc: Add citation now
  2. Alajmi, B.; Ahmed, N.A.; Al-Othman, A.K. Small-signal analysis and hardware implementation of Boost converter fed PMDC motor for electric vehicle applications. J. Eng. Res. 2021, 9, 189–208. . [CrossRef]
    Paper not yet in RePEc: Add citation now
  3. Alexandridis, A.T.; Konstantopoulos, G.C. Modified PI speed controllers for series-excited DC motors fed by DC/DC Boost converters. Control Eng. Pract. 2014, 23, 14–21. [CrossRef]
    Paper not yet in RePEc: Add citation now
  4. Ali, M.N.; Mahmoud, K.; Lehtonen, M.; Darwish, M.M.F. An efficient fuzzy-logic based variable-step incremental conductance MPPT method for grid-connected PV systems. IEEE Access 2021, 9, 26420–26430. [CrossRef]
    Paper not yet in RePEc: Add citation now
  5. Arshad, M.H.; Abido, M.A. Hierarchical control of DC motor coupled with Cuk converter combining differential flatness and sliding mode control. Arab. J. Sci. Eng. 2021, 46, 9413–9422. [CrossRef]
    Paper not yet in RePEc: Add citation now
  6. Bingöl, O.; Paçaci, S. A virtual laboratory for neural network controlled DC motors based on a DC-DC Buck converter. Int. J. Eng. Educ. 2012, 28, 713–723.
    Paper not yet in RePEc: Add citation now
  7. Chang, E.-C.; Cheng, C.-A.; Wu, R.-C. Robust optimal tracking control of a full-bridge DC-AC converter. Appl. Sci. 2021, 11, 1211. [CrossRef]
    Paper not yet in RePEc: Add citation now
  8. Chi, X.; Quan, S.; Chen, J.; Wang, Y.-X.; He, H. Proton exchange membrane fuel cell-powered bidirectional DC motor control based on adaptive sliding-mode technique with neural network estimation. Int. J. Hydrog. Energy 2020, 45, 20282–20292. [CrossRef]
    Paper not yet in RePEc: Add citation now
  9. Chouya, A. Adaptive sliding mode control with chattering elimination for Buck converter driven DC motor. WSEAS Trans. Syst. Control 2023, 22, 19–28. [CrossRef]
    Paper not yet in RePEc: Add citation now
  10. Demir, M.H.; Demirok, M. Designs of particle-swarm-optimization-based intelligent PID controllers and DC/DC Buck converters for PEM fuel-cell-powered four-wheeled automated guided vehicle. Appl. Sci. 2023, 13, 2919. [CrossRef]
    Paper not yet in RePEc: Add citation now

  11. Devarakonda, A.K.; Karuppiah, N.; Selvaraj, T.; Balachandran, P.K.; Shanmugasundaram, R.; Senjyu, T. A Comparative analysis of maximum power point techniques for solar photovoltaic systems. Energies 2022, 15, 8776. [CrossRef]

  12. Egidio, L.N.; Deacto, G.S.; Jungers, R.M. Stabilization of rank-deficient continuous-time switched affine systems. Automatica 2022, 143, 110426. [CrossRef]
    Paper not yet in RePEc: Add citation now

  13. Elkholy, M.H.; Senjyu, T.; Lotfy, M.E.; Elgarhy, A.; Ali, N.S.; Gaafar, T.S. Design and implementation of a real-time smart home management system considering energy saving. Sustainability 2022, 14, 13840. [CrossRef]

  14. Elnaghi, B.E.; Abelwhab, M.N.; Ismaiel, A.M.; Mohammed, R.H. Solar hydrogen variable speed control of induction motor based on chaotic billiards optimization technique. Energies 2023, 16, 1110. [CrossRef] Sustainability 2023, 15, 9858 27 of 27

  15. Erenturk, K. Hybrid control of a mechatronic system: Fuzzy logic and grey system modeling approach. IEEE/ASME Trans. Mechatron. 2007, 12, 703–710. [CrossRef]
    Paper not yet in RePEc: Add citation now
  16. Esram, T.; Chapman, P.L. Comparison of photovoltaic array maximum power point tracking techniques. IEEE Trans. Energy Convers. 2007, 22, 439–449. [CrossRef]
    Paper not yet in RePEc: Add citation now

  17. Ganesan, S.; David, P.W.; Balachandran, P.K.; Samithas, D. Intelligent starting current-based fault identification of an induction motor operating under various power quality issues. Energies 2021, 14, 304. [CrossRef]

  18. García-Rodríguez, V.H.; Pérez-Cruz, J.H.; Ambrosio-Lázaro, R.C.; Tavera-Mosqueda, S. Analysis of DC/DC Boost converter–fullbridge Buck inverter system for AC generation. Energies 2023, 16, 2509. [CrossRef]
    Paper not yet in RePEc: Add citation now
  19. García-Sánchez, J.R.; Hernández-Márquez, E.; Ramírez-Morales, J.; Marciano-Melchor, M.; Marcelino-Aranda, M.; Taud, H.; Silva-Ortigoza, R. A robust differential flatness-based tracking control for the “MIMO DC/DC Boost converter–Inverter–DC motor” system: Experimental results. IEEE Access 2019, 7, 84497–84505. [CrossRef]
    Paper not yet in RePEc: Add citation now
  20. Ghazali, M.R.; Ahmad, M.A.; Raja Ismail, R.M.T. Adaptive safe experimentation dynamics for data-driven Neuroendocrine-PID control of MIMO systems. IETE J. Res. 2022, 68, 1611–1624. [CrossRef]
    Paper not yet in RePEc: Add citation now
  21. Govindharaj, A.; Mariappan, A. Design and analysis of novel Chebyshev neural adaptive backstepping controller for Boost converter fed PMDC motor. Int. J. Autom. Control 2020, 14, 694–712. [CrossRef]
    Paper not yet in RePEc: Add citation now
  22. Guerrero-Ramírez, E.; Martínez-Barbosa, A.; Contreras-Ordaz, M.A.; Guerrero-Ramírez, G.; Guzman-Ramirez, E.; Barahonavalos, J.L.; Adam-Medina, M. DC motor drive powered by solar photovoltaic energy: An FPGA-based active disturbance rejection control approach. Energies 2022, 15, 6595. [CrossRef]
    Paper not yet in RePEc: Add citation now
  23. Guerrero-Ramírez, E.; Martínez-Barbosa, A.; Guzmán-Ramírez, E.; Barahona-valos, J.L. Design methodology for digital active disturbance rejection control of the DC motor drive. E-Prime-Adv. Electr. Eng. Electron. Energy 2022, 2, 100050. [CrossRef]
    Paper not yet in RePEc: Add citation now
  24. Guerrero, E.; Guzmán, E.; Linares, J.; Martínez, A.; Guerrero, G. FPGA-based active disturbance rejection velocity control for a parallel DC/DC Buck converter–DC motor system. IET Power Electron. 2020, 13, 356–367.
    Paper not yet in RePEc: Add citation now
  25. Gurumoorthy, K.; Balaraman, S. Controlling the speed of renewable-sourced DC drives with a series compensated DC to DC converter and sliding mode controller. Automatika 2023, 64, 114–126. [CrossRef]
    Paper not yet in RePEc: Add citation now
  26. Hanif, M.I.F.M.; Suid, M.H.; Ahmad, M.A. A piecewise affine PI controller for Buck converter generated DC motor. Int. J. Power Electron. Drive Syst. 2019, 10, 1419–1426. [CrossRef]
    Paper not yet in RePEc: Add citation now

  27. Hazil, O.; Allouani, F.; Bououden, S.; Chadli, M.; Chemachema, M.; Boulkaibet, I.; Neji, B. A robust model predictive control for a photovoltaic pumping system subject to actuator saturation Nonlinearity. Sustainability 2023, 15, 4493. [CrossRef]

  28. Hernández-Márquez, E.; Avila-Rea C.A.; García-Sánchez, J.R.; Silva-Ortigoza, R.; Silva-Ortigoza, G.; Taud, H.; Marcelino-Aranda, M. Robust tracking controller for a DC/DC Buck–Boost converter–inverter–DC motor system. Energies 2018, 11, 2500. [CrossRef]
    Paper not yet in RePEc: Add citation now
  29. Hernández-Márquez, E.; García-Sánchez, J.R.; Silva-Ortigoza, R.; Antonio-Cruz, M.; Hernández-Guzmán, V.M.; Taud, H.; Marcelino-Aranda, M. Bidirectional tracking robust controls for a DC/DC Buck converter–DC motor system. Complexity 2018, 2018, 1260743. [CrossRef]
    Paper not yet in RePEc: Add citation now

  30. Hoyos Velasco, F.E.; Candelo-Becerra, J.E; Rincón Santamaria, A. Dynamic analysis of a permanent magnet DC motor using a Buck converter controlled by ZAD-FPIC. Energies 2018, 11, 3388. [CrossRef]

  31. Hoyos, F.E.; Candelo-Becerra, J.E.; Hoyos Velasco, C.I. Application of zero average dynamics and fixed point induction control techniques to control the speed of a DC motor with a Buck converter. Appl. Sci. 2020, 10, 1807. [CrossRef]
    Paper not yet in RePEc: Add citation now
  32. Hoyos, F.E.; Candelo-Becerra, J.E.; Rincón, A. Zero average dynamic controller for speed control of DC motor. Appl. Sci. 2021, 11,
    Paper not yet in RePEc: Add citation now

  33. Hoyos, F.E.; Rincón, A.; Taborda, J.A.; Toro, N.; Angulo, F. Adaptive quasi-sliding mode control for permanent magnet DC motor. Math. Probl. Eng. 2013, 2013, 693685. [CrossRef]

  34. Ismail, A.A.A.; Elnady, A. Advanced drive system for DC motor using multilevel DC/DC Buck converter circuit. IEEE Access 2019, 7, 54167–54178. [CrossRef]
    Paper not yet in RePEc: Add citation now

  35. Jouili, K.; Madani, A. Nonlinear Lyapunov control of a photovoltaic water pumping system. Energies 2023, 16, 2241. [CrossRef]

  36. Kazemi, M.G.; Montazeri, M. Fault detection of continuous time linear switched systems using combination of bond graph method and switching observer. ISA Trans. 2019, 94, 338–351. [CrossRef] [PubMed]
    Paper not yet in RePEc: Add citation now
  37. Khubalkar, S.; Chopade, A.; Junghare, A.; Aware, M.; Das, S. Design and realization of stand-alone digital fractional order PID controller for Buck converter fed DC motor. Circuits Syst. Signal Process. 2016, 35, 2189–2211.
    Paper not yet in RePEc: Add citation now
  38. Khubalkar, S.W.; Junghare, A.S.; Aware, M.V.; Chopade, A.S.; Das, S. Demonstrative fractional order – PID controller based DC motor drive on digital platform. ISA Trans. 2018, 82, 79–93. [CrossRef]
    Paper not yet in RePEc: Add citation now
  39. Konstantopoulos, G.C.; Alexandridis, A.T. Enhanced control design of simple DC-DC Boost converter-driven DC motors: Analysis and implementation. Electr. Power Compon. Syst. 2015, 43, 1946–1957. [CrossRef]
    Paper not yet in RePEc: Add citation now
  40. Kumar, S.G.; Thilagar, S.H. Sensorless load torque estimation and passivity based control of Buck converter fed DC motor. Sci. World J. 2015, 2015, 132843. [CrossRef]
    Paper not yet in RePEc: Add citation now
  41. Linares-Flores, J.; Barahona-Avalos, J.L.; Sira-Ramírez, H.; Contreras-Ordaz, M.A. Robust passivity-based control of a Buck– Boost-converter/DC-motor system: An active disturbance rejection approach. IEEE Trans. Ind. Appl. 2012, 48, 2362–2371. [CrossRef] Sustainability 2023, 15, 9858 26 of 27
    Paper not yet in RePEc: Add citation now
  42. Linares-Flores, J.; Reger, J.; Sira-Ramírez, H. Load torque estimation and passivity-based control of a Boost-converter/DC-motor combination. IEEE Trans. Control Syst. Technol. 2010, 18, 1398–1405. [CrossRef]
    Paper not yet in RePEc: Add citation now
  43. Linares-Flores, J.; Sira-Ramírez, H.; Cuevas-López, E.F.; Contreras-Ordaz, M.A. Sensorless passivity based control of a DC motor via a solar powered Sepic converter-full bridge combination. J. Power Electron. 2011, 11, 743–750. . [CrossRef]
    Paper not yet in RePEc: Add citation now
  44. Lyshevski, S.E. Electromechanical Systems, Electric Machines and Applied Mechatronics; CRC Press: Boca Raton, FL, USA, 2000; ISBN 0-8493-2275-8.
    Paper not yet in RePEc: Add citation now
  45. Madonski, R.; Łakomy, K.; Stankovic, M.; Shao, S.; Yang, J.; Li, S. Robust converter-fed motor control based on active rejection of multiple disturbances. Control Eng. Pract. 2021, 107, 104696. [CrossRef]
    Paper not yet in RePEc: Add citation now
  46. Malek, S. A new nonlinear controller for DC-DC Boost converter fed DC motor. Int. J. Power Electron. 2015, 7, 54–71. [CrossRef]
    Paper not yet in RePEc: Add citation now

  47. Manikandan, C.T.; Sundarrajan, G.T.; Krishnan, V.G.; Ofori, I. Performance analysis of two-loop interleaved Boost converter fed PMDC-motor system using FLC. Math. Probl. Eng. 2022, 2022, 1639262. [CrossRef]

  48. Mishra, P.; Banerjee, A.; Ghosh, M.; Baladhandautham, C.B. Digital pulse width modulation sampling effect embodied steady-state time-domain modeling of a Boost converter driven permanent magnet DC brushed motor. Int. Trans. Elect. Energy Syst. 2021, 31, e12970. [CrossRef]
    Paper not yet in RePEc: Add citation now

  49. Niestrój, R.; Rogala, T.; Skarka, W. An energy consumption model for designing an AGV energy storage system with a PEMFC STACK. Energies 2020, 13, 3435. [CrossRef]

  50. Nizami, T.K.; Chakravarty, A.; Mahanta, C. Design and implementation of a neuro-adaptive backstepping controller for Buck converter fed PMDC-motor. Control Eng. Pract. 2017, 58, 78–87. [CrossRef]
    Paper not yet in RePEc: Add citation now
  51. Nizami, T.K.; Chakravarty, A.; Mahanta, C.; Iqbal, A.; Hosseinpour, A. Enhanced dynamic performance in DC–DC converterPMDC motor combination through an intelligent non-linear adaptive control scheme. IET Power Electron. 2022, 15, 1607–1616. . [CrossRef]
    Paper not yet in RePEc: Add citation now
  52. Nizami, T.K.; Gangula, S.D.; Reddy, R.; Dhiman, H.S. Legendre neural network based intelligent control of DC-DC step down converter-PMDC motor combination. IFAC 2022, 55, 162–167. [CrossRef]
    Paper not yet in RePEc: Add citation now

  53. Obaideen, K.; Olabi, A.G.; Al Swailmeen, Y.; Shehata, N.; Abdelkareem, M.A.; Alami, A.H.; Rodriguez, C.; Sayed, E.T. Solar energy: Applications, trends analysis, bibliometric analysis and research contribution to sustainable development goals (SDGs). Sustainability 2023, 15, 1418. [CrossRef]

  54. Patil, M.D.; Vadirajacharya, K.; Khubalkar, S.W. Design and tuning of digital fractional-order PID controller for permanent magnet DC motor. IETE J. Res. 2021, 1–11. [CrossRef]
    Paper not yet in RePEc: Add citation now
  55. Poompavai, T.; Kowsalya, M. Control and energy management strategies applied for solar photovoltaic and wind energy fed water pumping system: A review. Renew. Sustain. Energy Rev. 2019, 107, 108–122. [CrossRef]
    Paper not yet in RePEc: Add citation now

  56. Radhakrishnan, R.K.G.; Marimuthu, U.; Balachandran, P.K.; Shukry, A.M.M.; Senjyu, T. An intensified marine predator algorithm (MPA) for designing a solar-powered BLDC motor used in EV systems. Sustainability 2022, 14, 14120. [CrossRef]

  57. Rauf, A.; Li, S.; Madonski, R.; Yang, J. Continuous dynamic sliding mode control of converter-fed DC motor system with high order mismatched disturbance compensation. Trans. Inst. Meas. Control 2020, 42, 2812–2821. [CrossRef]
    Paper not yet in RePEc: Add citation now
  58. Rauf, A.; Zafran, M.; Khan, A.; Tariq, A.R. Finite-time nonsingular terminal sliding mode control of converter-driven DC motor system subject to unmatched disturbances. Int. Trans. Elect. Energy Syst. 2021, 31, e13070. [CrossRef]
    Paper not yet in RePEc: Add citation now
  59. Ravikumar, D.; Srinivasan, G.K. Implementation of higher order sliding mode control of DC–DC Buck converter fed permanent magnet DC motor with improved performance. Automatika 2022, 64, 162–177. . [CrossRef]
    Paper not yet in RePEc: Add citation now
  60. Rigatos, G.; Siano, P.; Ademi, S.; Wira, P. Flatness-based control of DC-DC converters implemented in successive loops. Electr. Power Compon. Syst. 2018, 46, 673–687. [CrossRef]
    Paper not yet in RePEc: Add citation now
  61. Rigatos, G.; Siano, P.; Sayed-Mouchaweh, M. Adaptive neurofuzzy H-infinity control of DC-DC voltage converters. Neural Comput. Appl. 2020, 33, 2507–2520. [CrossRef]
    Paper not yet in RePEc: Add citation now
  62. Rigatos, G.; Siano, P.; Wira, P.; Sayed-Mouchaweh, M. Control of DC–DC converter and DC motor dynamics using differential flatness theory. Intell. Ind. Syst. 2016, 2, 371–380. [CrossRef]
    Paper not yet in RePEc: Add citation now
  63. Sönmez, Y.; Dursun, M.; Güvenç, U.; Yilmaz, C. Start up current control of Buck–Boost convertor-fed serial DC motor. Pamukkale Univ. J. Eng. Sci. 2009, 15, 278–283.
    Paper not yet in RePEc: Add citation now
  64. Shneen, S.W.; Shuraiji, A.L.; Hameed, K.R. Simulation model of proportional integral controller-PWM DC-DC power converter for DC motor using matlab. Indones. J. Electr. Eng. Comput. Sci. 2023, 29, 725–734. [CrossRef]
    Paper not yet in RePEc: Add citation now
  65. Silva-Ortigoza, R.; Hernández-Guzmán, V.M.; Antonio-Cruz, M.; Muñoz-Carrillo, D. DC/DC Buck power converter as a smooth starter for a DC motor based on a hierarchical control. IEEE Trans. Power Electron. 2015, 30, 1076–1084. [CrossRef]
    Paper not yet in RePEc: Add citation now
  66. Sira-Ramírez, H. Sliding Mode Control: The Delta-Sigma Modulation Approach; Birkhäuser: Basel, Switzerland, 2015. Disclaimer/Publisher’s Note: The statements, opinions and data contained in all publications are solely those of the individual author(s) and contributor(s) and not of MDPI and/or the editor(s). MDPI and/or the editor(s) disclaim responsibility for any injury to people or property resulting from any ideas, methods, instructions or products referred to in the content.
    Paper not yet in RePEc: Add citation now
  67. Sira-Ramírez, H.; Oliver-Salazar, M.A. On the robust control of Buck-converter DC-motor combinations. IEEE Trans. Power Electron. 2013, 28, 3912–3922. [CrossRef]
    Paper not yet in RePEc: Add citation now
  68. Srinivasan, G.K.; Srinivasan, H.T.; Rivera, M. Low-cost implementation of passivity-based control and estimation of load torque for a Luo converter with dynamic load. Electronics 2020, 9, 1914. [CrossRef]
    Paper not yet in RePEc: Add citation now
  69. Srinivasan, G.K.; Srinivasan, H.T.; Rivera, M. Sensitivity analysis of exact tracking error dynamics passive output control for a flat/partially flat converter Systems. Electronics 2020, 9, 1942. [CrossRef]
    Paper not yet in RePEc: Add citation now
  70. Stanković, M.R.; Madonski, R.; Shao, S.; Mikluc, D. On dealing with harmonic uncertainties in the class of active disturbance rejection controllers. Int. J. Control 2021, 94, 2795–2810. [CrossRef]
    Paper not yet in RePEc: Add citation now
  71. Velasco-Muñoz, H.; Candelo-Becerra, J.E.; Hoyos, F.E.; Rincón, A. Speed regulation of a permanent magnet DC motor with sliding mode control based on washout filter. Symmetry 2022, 14, 728. [CrossRef]
    Paper not yet in RePEc: Add citation now
  72. Wei, F.; Yang, P.; Li, W. Robust adaptive control of DC motor system fed by Buck converter. Int. J. Control Autom. 2014, 7, 179–190. [CrossRef]
    Paper not yet in RePEc: Add citation now
  73. Xiao, X.; Lv, J.; Chang, Y.; Chen, J.; He, H. Adaptive sliding mode control integrating with RBFNN for proton exchange membrane fuel cell power conditioning. Appl. Sci. 2022, 12, 3132. [CrossRef] Sustainability 2023, 15, 9858 25 of 27
    Paper not yet in RePEc: Add citation now
  74. Yang, J.; Wu, H.; Hu, L.; Li, S. Robust predictive speed regulation of converter-driven DC motors via a discrete-time reduced-order GPIO. IEEE Trans. Ind. Electron. 2019, 66, 7893–7903. [CrossRef]
    Paper not yet in RePEc: Add citation now

  75. Zainol Abidin, M.A.; Mahyuddin, M.N.; Mohd Zainuri, M.A.A. Solar photovoltaic architecture and agronomic management in agrivoltaic system: A review. Sustainability 2021, 13, 7846. [CrossRef]

  76. Zhang, L.; Yang, J.; Li, S. A model-based unmatched disturbance rejection control approach for speed regulation of a converterdriven DC motor using output-feedback. IEEE-CAA J. Autom. Sin. 2022, 9, 365–376. [CrossRef]
    Paper not yet in RePEc: Add citation now
  77. Zhao, Z.; Yang, J.; Li, S.; Yu, X.; Wang, Z. Continuous output feedback TSM control for uncertain systems with a DC–AC inverter example. IEEE Trans. Circuit Syst. II Express Briefs 2018, 65, 71–75. [CrossRef]
    Paper not yet in RePEc: Add citation now

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  13. Experimental and Computational Analysis of Aluminum-Coated Dimple and Plain Tubes in Solar Water Heater System. (2022). Ramachandran, Tholkappiyan ; Saeed, Muhammad Ahsan ; Barik, Debabrata.
    In: Energies.
    RePEc:gam:jeners:v:16:y:2022:i:1:p:295-:d:1016719.

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  14. Harmonic Order Analysis of Cogging Torque for Interior Permanent Magnet Synchronous Motor Considering Manufacturing Disturbances. (2022). Kim, Hae-Joong ; Lee, Chung-Seong.
    In: Energies.
    RePEc:gam:jeners:v:15:y:2022:i:7:p:2428-:d:779726.

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  15. Closed-Loop Adaptive High-Starting Torque Scalar Control Scheme for Induction Motor Variable Speed Drives. (2022). Diaz, Matias ; Duarte-Mermoud, Manuel A ; Travieso-Torres, Juan Carlos ; Hernandez, Francisco ; Contreras-Jara, Camilo.
    In: Energies.
    RePEc:gam:jeners:v:15:y:2022:i:10:p:3489-:d:812317.

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  16. Level Crossing Barrier Machine Faults and Anomaly Detection with the Use of Motor Current Waveform Analysis. (2021). Paweczyk, Roman ; Rybka, Pawe ; Grzechca, Damian.
    In: Energies.
    RePEc:gam:jeners:v:14:y:2021:i:11:p:3206-:d:565848.

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  17. Discrete and Continuous Model of Three-Phase Linear Induction Motors “LIMs” Considering Attraction Force. (2019). Garces-Gomez, Yeison A ; Toro-Garcia, Nicolas ; Hoyos, Fredy E.
    In: Energies.
    RePEc:gam:jeners:v:12:y:2019:i:4:p:655-:d:206914.

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