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Guido Ala
Also published under:G. Ala
Affiliation
Department of Engineering, L.E.PR.E. H.V. Laboratory, University of Palermo, Italy
Topic
Partial Discharge,Space Charge,Temperature Gradient,Corona Discharge,Electric Field Distribution,Electric Field Profile,Frequency Spectrum,Electric Distribution,Electric Field Values,High Voltage,Insulation System,Loop Antenna,Magnetic Field,Partial Discharge Detection,Power Grid,Resonance Frequency,Type Of Discharge,Voltage Stress,Activation Release,Charge Accumulation,Charge Density,Clustering Algorithm,Conductive,DC Voltage,Dielectric Layer,Electric Power,Finite Element Method,HVDC Cable,High Frequency Structure Simulator,Measurement Setup,Ultra-wideband,Very High Frequency,Voltage Levels,Acoustic Waves,Activation Function,Amplitude Range,Application Of Voltage,Artificial Defects,Charge Measurements,Charge Profiles,Commercial Sensors,Correlation Matrix,Cross-correlation,Deep Learning,Demand Response Programs,Divertor,Electromotive Force,Experimental Setup,FR4 Substrate,Faraday's Law,
Biography
Guido Ala (Senior Member, IEEE) is currently a Full Professor in electrical engineering—SC 09/E1 from the “Dipartimento di Ingegneria” of the University of Palermo, Palermo, Italy. Since 2012, he has been the Director of the Laboratory for Modeling and Electromagnetic Simulation—MOSEM-Laboratory. He has coauthored several scientific papers in peer reviewed international journals, in peer reviewed international volumes and in proceedings and abstract of international conferences, and in proceedings of the national conferences. His main research interests are in the fields of computational electromagnetics (including MoM, FDTD, application of wavelets, mesh-free innovative numerical approach), electromagnetic transient analysis, lightning, electromagnetic compatibility, optimized design of EMI filters and power electronics converters, partial discharge detection, biomedical engineering (including magnetoencephalography and electroencephalography innovative numerical modeling, and electromagnetic fields effect on humans), electrical systems design for fusion engineering, innovative solutions for sustainable mobility in the smart cities context, and electrical analogies in material’s viscoelasticity behavior.