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G. Radomski

References J. Holtz, "Pulsewidth modulation - a survey", IEEE Transactions on Industrial Electronics 39 (5), 410-420 (1992). H. Pinheiro, F. Botterón, C. Reh, L. Schuch, R. F. Camargo, H. L. Hey, H. A. Grundling, and R. J. Pinheiro, "Space vector modulation for voltage-source inverters: a unified approach", IECON 02 1, 5-8 (2002). P. Antoniewicz and M. P. Kaźmierkowski, "Predictive direct power control of three-phase boost rectifier", Bull. Pol. Ac.: Tech. 54 (3), 287

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Amin Akrami, Mohsen Gitizadeh, Majid Nayeripour and Mohammad Ghaderi

. F. Z. Peng, "Z-source inverter," IEEE Trans. Ind. Appl. , vol. 39, no. 2, pp. 504-510, Mar./Apr. 2003. J. W. Jung, M. Dai, and A. Keyhani, "Modeling and control of a fuel cell based Z-source converter," in Proc. 22th Annu. IEEE Appl. Power Electron. Conf. (APEC), Expo , Austin, TX, 2005, pp. 1112-1118. J. Anderson and F.Z. Peng, "Four Quasi-Z-Source Inverters," Power Electronics Specialists Conference 2008 PESC '08 39th IEEE 15-19, June 2008, pp. 2743-2749. J. H. Park, H. G. Kimy, E. C

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Vojtĕch Blahník, Zdenĕk Peroutka and Jakub Talla

, Pilsen, 2008., pp. 13-16. [4] HOLMES, D. G.-MARTIND. A. : Implementation of a Direct Digital Predictive Current Controller for Single and Three Phase Voltage Source Inverters, in Proc. IEEE IAS Annu. Meeting, 1996, pp. 906-913. [5] RUFER, A.-BAHRANI, B.-KENZELMANN, S.-LOPES, L. : Vector Control of Single-Phase Voltage Source Converters based on Fictive Axis Emulation, ECCE 2009, pp. 2689-2695. [6] HONG-SEOK SONG-KEIL, R.-MUTSCHLER, P.-Van Der WEEM, J.-KWANGHEE NAM: Advanced Control Scheme for a Single-Phase PWM Rectifier

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A. Górecka-Drzazga, B. Cichy, P. Szczepańska, R. Walczak and J. Dziuban

classification of porcine/bovine oocytes", Procedia Chemistry 1, 341-344 (2009). B. Cichy, A. Górecka-Drzazga, and J. A. Dziuban, "Fieldemission light sources utilizing carbon nanotubes and composite phosphor made of SiO 2 nanospheres covered with Y2O 3 : Eu", J. Vac. Sci. Technol. B 27, 757-780 (2009). N. Vu, T. K. Anh, G. C. Yi, and W. Stręk, "Photoluminescence and cathodoluminescence properties of Y 2 O 3 : Eu nanophosphors prepared by combustion synthesis", J. Luminescence 122-123, 776-779 (2007

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Hrvoje Jasak

of a generalized grid interface for turbomachinery simulations with OpenFOAM. In: open Source CFD International Conference. Berlin, Germany 4-5 December 2008.

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László Neukirchner and Attila Magyar

References [1] Espelage, P.; Nowak, J.M.; Walker, L.H.: Symmetrical GTO current source inverter for wide speed range control of 2300 to 4160 V, 350 to 7000 hp induction motors, IEEE Ind. Appl. Soc. Conf. (IAS) 1988 1, 302-307 DOI 10.1109/IAS.1988.25079 [2] Wu, B.: High-power converters and AC drives (Wiley-IEEE Press, New Jersey, USA) 2006 [3] Ma, J.; Wu, B.; Rizzo, S.: A space vector modulated CSI-based AC drive for multi-motor applications, IEEE Trans. Power Electron., 1999 16(4), 535-544 DOI: 10.1109/APEC

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Abdellah Kouzou and Haitham Abu-Rub

References [1] F.Z. PENG: Z-source inverter. 37th IAS Annual Meeting, Industry Applications Conf. , 2 (2002), 775-781 [2] F.Z. PENG: Z-source inverter. IEEE Trans. Ind. Appl. , 39(2), (2003), 504-510. [3] F.Z. PENG, X. YUAN, X. FANG and Z.Q. PENG: Z-source inverter for adjustable speed drives inverter. IEEE Power Electronics Letters , 99(2), (2003), 33-35. [4] K. NIRAIMATHY RM AND S. KRITHIGA: A new adjustable-speed drives (ASD) system based on high-performance Z-source inverter. 1st

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Jordan Tzvetkov

−1285, pp. 87−100. https://pubs.usgs.gov/of/2007/1285/contents.html Zakšek K., Oštir K., Kokalj Ž., 2011, Sky-view factor as a relief visualization technique. “Remote Sensing” Vol. 3, no. 2, pp. 398−415. Internet sources Jenny B., Räber S., 2002, Relief Shading . Zürich, Institute of Cartography, ETH. http://www.relief-shading.com/ Kennelly P., 2017, Terrain representation. Wilson J.P. (ed.). The Geographic Information Science & Technology Body of Knowledge. (4th Quarter 2017 Edition). https

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David Cywiak, Daniel Cárdenas-García and Hugo Rodriguez-Arteaga

References [1] Pušnik, I., Grgić, G., Drnovšek, J. (2004). Calculated uncertainty of temperature due to the size-of-source effect in commercial radiation thermometers. Int. J Thermophys, 29(21), 322-329. [2] Yoo, Y.S., Kim, B.H., Park, C.W., Lee, D.H., Park, S.N. (2009). Size of source effect of a transfer reference thermometer suitable for international comparisons near to room temperature Fundamental and Applied Metrology, XIX IMEKO World Congress, 1493-1496. [3] Saunders, P., Edgar, H. (2008). On the

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Praveen Ailawalia, Sunil Kumar and Devinder Singh Pathania

-306. [15] Muller, I. M. The Coldness, Universal Function in Thermoelastic Bodies. Rational Mechanics Analysis, 41 (1971), 319-332. [16] Green, A. E., N. Laws. On the Entropy Production Inequality. Archives of Rational Mechanics and Analysis, 45 (1972), 45-47. [17] Green, A. E., K. A. Lindsay. Thermoelasticity. Journal of Elasticity, 2 (1972), 1-7. [18] Suhubi, E. S. Thermoelastic Solids in Continuum Physics, New York, 1975. [19] Barber, J. R. Thermoelastic Displacements and Stresses due to a Heat Source