References: [1] de la Rosa, J. G., Pérez, A. A., Salas, J. C., Fernández, J. M., and Muñoz, A. M. (2012). A Novel Virtual Instrument for Power Quality Surveillance based on Higher-Order Statistics and Case-based Reasoning. Measurement, 45(7), 1824–1835. [2] Montenegro, D., Hernandez, M. E., and Ramos, G. A. (2014). A Realistic Generator of Power Quality Disturbances for Practicing in Courses of Electrical Engineering. Computer Applications in Engineering Education, 23(3), 391-402. [3] Zhu, W., Ma, W. Y., Gui, Y., and Zhang, H. F. (2013). Modelling and Simulation of PQ Disturbance based on Matlab. International Journal of Smart Grid and Clean Energy, 2 (1), 18–24. [4] Lim, Y., Kim, H. M., and Kang, S. (2010). A Design of Wireless Sensor Networks for a Power Quality Monitoring System. Sensors, 10(11), 9712-9725. [5] Akyildiz, I. F., and Vuran, M. C. (2010). Wireless Sensor Networks. John Wiley & Sons. [6] Mahgoub, I., and Ilyas, M. (2006). Smart Dust: Sensor Network Applications, Architecture and Design. CRC Press, Taylor & Francis Group. [7] ISO. (1993). Guide to the Expression of Uncertainty in Measurement. International Standard Organization, Geneva. [8] Simic, M., Kokolanski, Z., Denic, D., Dimcev, V., Živanovic, D., and Taskovski, D. (2017). Design and Evaluation of Computerbased Electrical Power Quality Signal Generator. Measurement, 107, 77-88. [9] Simic, M., Planinšiè, P., Denic, D., Gleich, D., Živanovic, D., and Malajner, M. (2017). Software based Experimental System for Electrical Power Quality Measurement using the Wireless Sensor Network Modules. Facta Universitatis - Series Automatic Control and Robotics, 16 (2), 131-141. [10] Copper Development Association. (2004). Power Quality Application Guide, Voltage Disturbances, PQ Standard EN 50160. [11] National Instruments Corporation. (2014). PCIe NI 6343 Multifunction Data Acquisition Card DAQ - Specifications. [12] Fluke Corporation. (2006). Fluke 8845A/8846A Digital Multimeter – Users Manual, Rev. 3, 3/11, July 2006. |