[[1] Stones, J., Collinson, A. (2001). Power quality. Power Engineering Journal, 15 (2), 58-64.10.1049/pe:20010201]Search in Google Scholar
[[2] Ghandehari, R., Jalilian, A. (2004). Economical impacts of power quality in power systems. In 39th International Universities Power Engineering Conference (UPEC 2004), 6-8 September 2004. IEEE, Vol. 2, 893-897.]Search in Google Scholar
[[3] Thapar, A., Saha, T.K., Zhao, Y.D. (2004). Investigation of power quality categorisation and simulating its impact on sensitive electronic equipment. In IEEE Power Engineering SocietyGeneral Meeting, 6-10 June 2004. IEEE, Vol. 1, 528-533.]Search in Google Scholar
[[4] Sermon, R.C. (2005). An overview of power quality standards and guidelines from the end-user's point-of view. In Rural Electric Power Conference, 8-10 May 2005. IEEE, B1/1-B1/5.10.1109/REPCON.2005.1436304]Search in Google Scholar
[[5] Broshi, A. (2007). Monitoring power quality beyond EN 50160 and IEC 61000-4-30. In 9th International Conference on Electrical Power Quality and Utilisation (EPQU 2007), 9-11 October 2007. IEEE, 1-6.]Search in Google Scholar
[[6] Kuhlmann, V., Sinton, A., Dewe, M., Arnold, C. (2007). Effects of sampling rate and ADC width on the accuracy of amplitude and phase measurements in power-quality monitoring. IEEE Transactions on Power Delivery, 22 (2), 758-764.10.1109/TPWRD.2007.893389]Search in Google Scholar
[[7] European Committee for Standardization. (1999). Voltage Characteristics of Electricity Supplied by Public Distribution Systems. European Standard EN 50160.]Search in Google Scholar
[[8] Mandache, L., Al-Haddad, K. (2005). New high precision harmonic analysis method for power quality assessment. In Canadian Conference on Electrical and Computer Engineering (CCECE 2005), 1-4 May 2005. IEEE, 1958-1961.10.1109/CCECE.2005.1557366]Search in Google Scholar
[[9] Szmajda, M., Gorecki, K., Mroczka, J. (2007). DFT algorithm analysis in low-cost power quality measurement systems based on a DSP processor. In 9th International Conference on Electrical Power Quality and Utilisation (EPQU 2007), 9-11 October 2007. IEEE, 1-6.10.1109/EPQU.2007.4424081]Search in Google Scholar
[[10] Moo, C.S., Chang, Y.N., Mok, P.P. (1995). A digital measurement scheme for time-varying transient harmonics. IEEE Transactions on Power Delivery, 10 (2), 588-594.10.1109/61.400874]Search in Google Scholar
[[11] Karimi-Ghartemani, M., Iravani, M.R. (2005). Measurement of harmonics/inter-harmonics of timevarying frequencies. IEEE Transactions on PowerDelivery, 20 (1), 23-31.]Search in Google Scholar
[[12] Yoon, W.K., Devaney, M.J. (2000). Reactive power measurement using the wavelet transform. IEEE Transactions on Instrumentation and Measurement, 49 (2), 246-252.10.1109/19.843057]Search in Google Scholar
[[13] Espel, P., Poletaeff, A., Ndilimabaka, H. (2010). Traceability of voltage measurements for nonsinusoidal waveforms. Measurement Science Review, 10 (6), 200-204.]Search in Google Scholar
[[14] Vujicic, V.V., Milovancev, S.S., Pesaljevic, M.D., Pejic, D.V., Zupunski, I.Z. (1999). Low-frequency stochastic true RMS instrument. IEEE Transactions onInstrumentation and Measurement, 48 (2), 467-470.10.1109/19.769630]Search in Google Scholar
[[15] Vujicic, V.V. (2001). Generalized low frequency stochastic true RMS instrument. IEEE Transactions on Instrumentation and Measurement, 50, 1089-1092.10.1109/19.963164]Search in Google Scholar
[[16] Pjevalica, V., Vujicic, V. (2005). Further generalization of the low-frequency true-RMS instrument. In Proceedings of the IEEE Instrumentation and Measurement Technology Conference, May 2005. IEEE, 1008-1011.10.1109/IMTC.2005.1604291]Search in Google Scholar
[[17] Weierstrass, K. (1885). Über die analytische Darstellbarkeit sogenannter willkürlicher Functionen einer reellen Veränderlichen. In Sitzungsberichte der Königlich Preußischen Akademie der Wissenschaftenzu Berlin.]Search in Google Scholar
[[18] Stone, M.H. (1948). The generalized Weierstrass approximation theorem. Mathematics Magazine, 21 (4), 167-184; 21 (5), 237-254.]Search in Google Scholar
[[19] Kamenský, M., Kováč, K. (2011). Correction of ADC errors by additive iterative method with dithering. Measurement Science Review, 11 (1), 15-18.10.2478/v10048-011-0004-3]Search in Google Scholar
[[20] Hegeduš, H., Mostarac, P., Malarić, R. (2011). Comparison of RMS value measurement algorithms of non-coherent sampled signals. Measurement Science Review, 11 (3), 79-84.10.2478/v10048-011-0019-9]Search in Google Scholar
[[21] Antic, B., Pjevalica, N. (2006). A new approach to power grid measurements - measuring in frequency domain. In Second Regional Conference andExhibition on Electricity Distribution, October 17-20 2006. Book of Abstracts, 37-38.]Search in Google Scholar
[[22] Agrež, D. (2010). Estimation and tracking of the power quality disturbances in the frequency domain. Measurement Science Review, 10 (6), 189-194.10.2478/v10048-010-0032-4]Search in Google Scholar
[[23] Acton, F.S. (1990). Numerical Methods that Work (2nd ed.). Washington, DC: Mathematical Association of America, 161-163.]Search in Google Scholar
[[24] Intel Corporation. (2012). Support for processors. http://www.intel.com/p/en_US/support/processors]Search in Google Scholar
[[25] Advanced Micro Devices, Inc. (2012). Products and technologies. http://www.amd.com/us/products/Pages/products.aspx]Search in Google Scholar
[[26] Altera Corporation. (2011). Altera floating point megafunctions. http://www.altera.com/literature/ug/ ug_altfp_mfug.pdf[27] Advanced Micro Devices, Inc. (2012). AMD opteronprocessors comparison. http://sites.amd.com/us/Documents/49747D_HPC_Processor_Comparison_v3_July2012.pdf]Search in Google Scholar
[[28] Texas Instruments. (2012). Embedded processors. http://www.ti.com/lsds/ti/dsp/embedded_processor.page]Search in Google Scholar
[[29] Hindriksen, V. (2012). Processors that can do 20+GFLOPS per Watt. http://www.streamcomputing.eu/blog/2012-08-27/processors-that-can-do-20-gflopswatt/]Search in Google Scholar
[[30] Kundur, P., Paserba, J., Ajjarapu, V., et al. (2004). Definition and classification of power system stability IEEE/CIGRE joint task force on stability terms and definitions. IEEE Transactions on Power Systems, 19 (2), 1387-1401.]Search in Google Scholar
[[31] Horne, J., Flynn, D., Littler, T. (2004). Frequency stability issues for islanded power systems. In IEEEPES Power Systems Conference and Exposition, 10-13 October 2004. IEEE, Vol. 1, 299-306.]Search in Google Scholar
[[32] Cai, Z.X., Ni, Y.X. (2000). A direct method for frequency stability assessment of power systems. In International Conference on Advances in PowerSystem Control, Operation and Management(APSCOM-00), 30 October - 1 November 2000. IEEE, Vol. 1, 285-289.]Search in Google Scholar
[[33] Antic, B.M., Vujicic, V.V. (2007). An improved version of the stochastic harmonic instrument. In Proceedings of the Metrology Congress 2007, 26-28 September 2007.]Search in Google Scholar
[[34] Tomic, J. (2004). Integrated Instrument for HarmonicsMeasurement. Unpublished M.Sc. thesis, University of Novi Sad, Faculty of Technical Sciences, Novi Sad, Serbia.]Search in Google Scholar