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A fast fault classification technique for power systems (2014)
Journal Article
Nouri, H., & Wang, C. (2014). A fast fault classification technique for power systems. https://doi.org/10.15662/ijareeie.2014.0311065

This paper proposes a fast fault classification technique using three phase current signals for power systems. Digital Fourier Transform, the ‘Least Square’ method or the Kalman Filtering technique are used to extract fundamental frequency components... Read More about A fast fault classification technique for power systems.

Sliding mode control with self-turning law for uncertain nonlinear systems with time-delay and external disturbances (2014)
Journal Article
Zhen, R., Chen, J., Wu, X., Zhu, Q., Nouri, H., Wu, X., & Zhang, J. (2014). Sliding mode control with self-turning law for uncertain nonlinear systems with time-delay and external disturbances. Lecture Notes in Control and Information Sciences, 452, 159-169. https://doi.org/10.1007/978-3-642-36385-6_8

This study proposes a novel sliding mode control with self-turning law for nonlinear systems with time-delay and external disturbances possessing uncertain parameters. The adjustable control gain and a bipolar sigmoid function are online tuned to for... Read More about Sliding mode control with self-turning law for uncertain nonlinear systems with time-delay and external disturbances.

U-shaped energy loss curves utilization for distributed generation optimization in distribution networks (2013)
Journal Article
Ebrahimi, R., Ehsan, M., & Nouri, H. (2013). U-shaped energy loss curves utilization for distributed generation optimization in distribution networks. Journal of Zhejiang University Science C, 14(11), 887-898. https://doi.org/10.1631/jzus.C1200282

We propose novel techniques to find the optimal location, size, and power factor of distributed generation (DG) to achieve the maximum loss reduction for distribution networks. Determining the optimal DG location and size is achieved simultaneously u... Read More about U-shaped energy loss curves utilization for distributed generation optimization in distribution networks.

Comparison between suppressing approaches of very fast transients in gas-insulated substations (GIS) (2013)
Journal Article
Tavakoli, A., Gholami, A., Nouri, H., & Negnevitsky, M. (2013). Comparison between suppressing approaches of very fast transients in gas-insulated substations (GIS). IEEE Transactions on Power Delivery, 28(1), 303-310. https://doi.org/10.1109/TPWRD.2012.2221748

In this paper, first transient waves in the gas-insulated substation (GIS) are analyzed and methods for suppression of very fast transients (VFTs) in GISs are introduced. For suppressing VFTs, four methods are presented, including suppression by term... Read More about Comparison between suppressing approaches of very fast transients in gas-insulated substations (GIS).

A profit-centric strategy for distributed generation planning considering time varying voltage dependent load demand (2013)
Journal Article
Nouri, H., Ebrahimi, R., Ehsan, M., & Nouri, H. (2013). A profit-centric strategy for distributed generation planning considering time varying voltage dependent load demand. International Journal of Electrical Power and Energy Systems, 44(1), 168-178. https://doi.org/10.1016/j.ijepes.2012.07.039

This paper proposes a new algorithm to determine the best connection of multiple distributed generations (DGs) on distribution networks according to type of customers. The considered DG technology is combined heat and power (CHP) in various sizes whi... Read More about A profit-centric strategy for distributed generation planning considering time varying voltage dependent load demand.

Single end feeder arcing fault location using mutual inductance (2012)
Journal Article
Alamuti, M. M., & Nouri, H. (2012). Single end feeder arcing fault location using mutual inductance. European Transactions on Electrical Power, 22(8), 1136-1145. https://doi.org/10.1002/etep.633

Impedance-based fault location methods to date are able to locate only permanent and linear faults. Current fault location methods assume that arc resistance is constant to locate the fault. However, because of the variable nature of the arc resistan... Read More about Single end feeder arcing fault location using mutual inductance.

A new procedure for multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control: Implementation and analysis (2012)
Journal Article
Cheng, L., Zheng, X. J., Wu, H. Y., Zhu, Q. M., Wang, Y. J., & Nouri, H. (2012). A new procedure for multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control: Implementation and analysis. International Journal of Modelling, Identification and Control, 16(1), 50-59. https://doi.org/10.1504/IJMIC.2012.046695

This is the second of a two-part paper that investigates the multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control. In this part, a multiple mobile robot simulation system based on MuRoS is used to simu... Read More about A new procedure for multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control: Implementation and analysis.

A new procedure for multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control: Mode description and integration principle (2012)
Journal Article
Cheng, L., Xu, W. X., Wu, H. Y., Zhu, Q. M., Wang, Y. J., & Nouri, H. (2012). A new procedure for multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control: Mode description and integration principle. International Journal of Modelling, Identification and Control, 15(1), 39-47. https://doi.org/10.1504/IJMIC.2012.043939

This is the first of two-part paper that investigates the multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control. To provide a new procedure to avoid collisions and obstacles in the process of multi-robo... Read More about A new procedure for multi-mode sequential flocking with application to multiple non-holonomic mobile robot motion control: Mode description and integration principle.