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2020 – today
- 2024
[j14]Giulia Di Capua
, Francesco Porpora, Filippo Milano, Nunzio Oliva, Antonio Maffucci:
Behavioral Models for Lithium Batteries Based on Genetic Programming. IEEE Access 12: 108275-108290 (2024)- [c46]Giulia Di Capua, Antonio Maffucci, Domenico Capriglione, Gennaro Di Mambro, Nicola Femia, Nunzio Oliva, Luca De Guglielmo:
Mutual Inductance Modeling for the Analysis of the Impact on Wireless Power Transfer Systems. M&N 2024: 1-6 - [c45]Khitem Lahbacha, Giulia Di Capua, Gianfranco Miele, Antonio Maffucci, Andrea Gaetano Chiariello, Thi Dao Pham, Djamel Allal:
Measurement-Based Signal Integrity Analysis of Coupled Thin-Film Microstrip Lines. M&N 2024: 1-6 - [c44]Giulia Di Capua, Nicola Femia, Nunzio Oliva, Luca De Guglielmo:
Method, Test Procedure and System for the Experimental Characterization of Power Inductors. SMACD 2024: 1-4 - [c43]Giulia Di Capua, Antonio Maffucci, Nicola Femia, Andrea Gaetano Chiariello:
Analysis of Capacitive Coupling and Crosstalk in the PCB of Switch-Mode Power Supplies. SMACD 2024: 1-4 - 2023
- [c42]Giulia Di Capua, Carmine Bourelly, Claudio De Stefano, Francesco Fontanella, Filippo Milano, Mario Molinara, Nunzio Oliva, Francesco Porpora:
Using Genetic Programming to Learn Behavioral Models of Lithium Batteries. EvoApplications@EvoStar 2023: 461-474 - [c41]Giulia Di Capua, Nunzio Oliva, Filippo Milano, Carmine Bourelly, Francesco Porpora, Antonio Maffucci, Nicola Femia:
A Behavioral Model for Lithium Batteries based on Genetic Programming. ISCAS 2023: 1-5 - [c40]Filippo Milano, Giulia Di Capua, Nunzio Oliva, Francesco Porpora, Carmine Bourelly, Luigi Ferrigno, Marco Laracca:
An Analytical Model for Lithium-Ion Batteries Based on Genetic Programming Approach. MetroAutomotive 2023: 35-40 - [c39]Giulia Di Capua, Nicola Femia:
GaN Power Transistors Behavioral Modeling. SMACD 2023: 1-4 - [c38]Nicola Femia, Hamidreza Jafarian, Giulia Di Capua:
Power Losses Analysis of SiC MOSFETs in DC-DC Converters with High-Ripple-Current Inductors. SMACD 2023: 1-4 - 2022
- [j13]Alberto Delgado, Giulia Di Capua, Kateryna Stoyka, Lixin Shi, Nicola Femia, Antonio Maffucci, Salvatore Ventre, Pedro Alou, Jesús Ángel Oliver, José Antonio Cobos:
Self and Mutual Inductance Behavioral Modeling of Square-Shaped IPT Coils With Air Gap and Ferrite Core Plates. IEEE Access 10: 7476-7488 (2022) - [j12]Alessandro Sardellitti, Giulia Di Capua, Marco Laracca, Antonello Tamburrino, Salvatore Ventre, Luigi Ferrigno:
A Fast ECT Measurement Method for the Thickness of Metallic Plates. IEEE Trans. Instrum. Meas. 71: 1-12 (2022) - [c37]Djamel Allal, R. Bannister, Koen Buisman, Domenico Capriglione, Giulia Di Capua, Martín García-Patrón, Thomas Gatzweiler, Frauke Gellersen, Thomas Harzheim, Holger Heuermann, Johannes Hoffmann, A. Izbrodin, Karsten Kuhlmann, Khitem Lahbacha, Antonio Maffucci, Gianfranco Miele, Faisal Ali Mubarak, Martin J. Salter, Thi Dao Pham, Ahmed Sayegh, Dilbagh Singh, Friederike Stein, Markus Zeier:
RF Measurements for Future Communication Applications: an Overview. M&N 2022: 1-6 - [c36]Giulia Di Capua, Nicola Femia, Nunzio Oliva:
Exploiting Saturable Inductors in SEPIC Regulators. SMACD 2022: 1-4 - [c35]Gennaro Di Mambro, Riccardo Antonini, Nunzio Oliva, Luca De Guglielmo, Giulia Di Capua, Nicola Femia, Antonio Maffucci, Salvatore Ventre:
Control-Oriented Optimization of Coil Pair Design in Dynamic WPT Systems for Electrical Vehicles. SMACD 2022: 1-4 - [c34]Giulia Di Capua, Mario Molinara, Francesco Fontanella, Claudio De Stefano, Nunzio Oliva, Nicola Femia:
Modeling of Ferrite Inductors Power Loss Based on Genetic Programming and Neural Networks. WIVACE 2022: 245-253 - 2021
- [j11]Giulia Di Capua, Nicola Femia:
Optimal Coils and Control Matching in Wireless Power Transfer Dynamic Battery Chargers for Electric Vehicles. IEEE Access 9: 166542-166551 (2021) - [j10]Giulia Di Capua, Nicola Femia, Kateryna Stoyka, Gennaro Di Mambro, Antonio Maffucci, Salvatore Ventre, Fabio Villone:
Mutual Inductance Behavioral Modeling for Wireless Power Transfer System Coils. IEEE Trans. Ind. Electron. 68(3): 2196-2206 (2021) - [c33]Nicola Femia, Giulia Di Capua:
Optimum Design of Differential-Mode Input Filters for DC-DC Switching Regulators. ISCAS 2021: 1-5 - 2020
- [j9]Kateryna Stoyka, Nicola Femia, Giulia Di Capua:
Power Inductors Behavioral Modeling Revisited. IEEE Trans. Circuits Syst. 67-I(12): 5636-5649 (2020) - [c32]Nicola Femia, Giulia Di Capua, Kateryna Stoyka:
Saturation and Thermal Stability of Power Inductors. ICECS 2020: 1-4 - [c31]Kateryna Stoyka, Giulia Di Capua, Nicola Femia:
Coupled Inductors Analysis with Saturation and Thermal Effects. ICECS 2020: 1-4 - [c30]Kateryna Stoyka, Luca De Guglielmo, Giulia Di Capua, Nicola Femia:
Transmitter Input Current Modeling in Electric Vehicles Dynamic Charging IPT Systems. ICECS 2020: 1-4 - [c29]Kateryna Stoyka, Giulia Di Capua, Gennaro Di Mambro, Nicola Femia, Fabio Freschi, Antonio Maffucci, Salvatore Ventre:
Behavioral Models for the Analysis of Dynamic Wireless Charging Systems for Electrical Vehicles. ISCAS 2020: 1-5
2010 – 2019
- 2019
- [j8]Pietro Burrascano, Giulia Di Capua, Nicola Femia, Stefano Laureti, Marco Ricci:
A Pulse Compression procedure for power inductors modeling up to moderate non-linearity. Integr. 66: 16-23 (2019) - [j7]Alberto Oliveri, Giulia Di Capua, Kateryna Stoyka, Matteo Lodi, Marco Storace, Nicola Femia:
A Power-Loss-Dependent Inductance Model for Ferrite-Core Power Inductors in Switch-Mode Power Supplies. IEEE Trans. Circuits Syst. I Regul. Pap. 66-I(6): 2394-2402 (2019) - [c28]Kateryna Stoyka, Giulia Di Capua, Nicola Femia:
Normalized Inductance Modeling for Ferrite Power Inductor Families. ICECS 2019: 843-846 - [c27]Pietro Burrascano, Giulia Di Capua, Stefano Laureti, Marco Ricci:
Neural Models of Ferrite Inductors Non-Linear Behavior. ISCAS 2019: 1-5 - [c26]Nicola Femia, Giulia Di Capua:
On Buck-Boost Converter Power Inductor Matching. ISCAS 2019: 1-5 - [c25]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Impact of Inductors Saturation on DC-DC Switching Regulators. RTSI 2019: 254-259 - [c24]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Design of Differential-Mode Input Filters for DC-DC Switching Regulators. SMACD 2019: 165-168 - [c23]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Sensitivity Analysis of Inductive Power Transfer Systems for Electric Vehicles Battery Charging. SMACD 2019: 173-176 - 2018
- [j6]Giulia Di Capua, Nuno Horta, Francisco V. Fernández, Günhan Dündar, Salvatore Pennisi, Gaetano Palumbo, Massimo Alioto, Gianluca Giustolisi:
Guest Editorial Special Issue on Selected Papers from PRIME 2017 and SMACD 2017. Integr. 63: 273-274 (2018) - [j5]Erhan Ozalevli, Nicola Femia, Giulia Di Capua, Rajaram Subramonian, Dingkun Du, Joseph Sankman, Mustapha El Markhi:
A Cost-Effective Adaptive Rectifier for Low Power Loosely Coupled Wireless Power Transfer Systems. IEEE Trans. Circuits Syst. I Regul. Pap. 65-I(7): 2318-2329 (2018) - [c22]Kateryna Stoyka, Giulia Di Capua, Nicola Femia:
Modeling of Stepped Air-Gap Ferrite Inductors in Switching Power Supplies. ICECS 2018: 401-404 - [c21]Nicola Femia, Giulia Di Capua:
Hysteretic Regulators with Partially-Saturated Inductors. ICECS 2018: 417-420 - [c20]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Loss Behavioral Modeling for Ferrite Inductors. SMACD 2018: 1-9 - [c19]Pietro Burrascano, Giulia Di Capua, Nicola Femia, Stefano Laureti, Marco Ricci:
Pulse Compression for Ferrite Inductors Modeling in Moderate Saturation. SMACD 2018: 229-232 - [c18]Giulia Di Capua, Nicola Femia:
Geometric form Factors-Based Power Transformers Design. SMACD 2018: 245-248 - 2017
- [j4]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
A generalized numerical method for ferrite inductors analysis in high current ripple operation. Integr. 58: 473-484 (2017) - [c17]Giulia Di Capua, Nicola Femia, Mario Migliaro, Anna Rizzo, Olga Sacco, Diana Sannino, Kateryna Stoyka, Vincenzo Vaiano:
Photocatalytic reactor with multiphase digital control of luminous radiation. ICIT 2017: 177-182 - [c16]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Validation of inductors sustainable-saturation-operation in switching power supplies design. ICIT 2017: 242-247 - [c15]Giulia Di Capua, Nicola Femia, Kateryna Stoyka, Matteo Lodi, Alberto Oliveri, Marco Storace:
Ferrite inductor models for switch-mode power supplies analysis and design. SMACD 2017: 1-4 - [c14]Nicola Femia, Giulia Di Capua:
Impact of receiver conversion configuration on the efficiency of Wireless Power Transfer Systems. SMACD 2017: 1-4 - [c13]Nicola Femia, Giulia Di Capua, Ricieri Akihito Pessinatti Ohashi:
Harmonic analysis of diode-bridge rectifiers in Wireless Power Transfer System. SMACD 2017: 1-4 - [c12]Kateryna Stoyka, Nicola Femia, Giulia Di Capua:
Optimizing power converters with partially saturated inductors by evolutionary algorithms. SMACD 2017: 1-4 - 2016
- [j3]Giulia Di Capua, Nicola Femia, Gianpaolo Lisi:
Impact of losses and mismatches on power and efficiency of Wireless Power Transfer Systems with controlled secondary-side rectifier. Integr. 55: 384-392 (2016) - [c11]Giulia Di Capua, Nicola Femia, Mario Migliaro, Kateryna Stoyka:
Genetic programming approach for identification of ferrite inductors power loss models. IECON 2016: 1112-1117 - [c10]Nicola Femia, Giulia Di Capua, Gianpaolo Lisi:
Power vs efficiency analysis in high-frequency wireless power transfer systems - Part I: Model. RTSI 2016: 1-5 - [c9]Nicola Femia, Giulia Di Capua, Gianpaolo Lisi, Dingkun Du, Rajaram Subramonian:
Power vs efficiency analysis in high-frequency wireless power transfer systems - Part II: Applications. RTSI 2016: 1-5 - [c8]Giulia Di Capua, Nicola Femia, Gianpaolo Lisi, Giovanni Petrone:
Impact of semiconductors on the performance of Wireless Power Transfer Systems. SMACD 2016: 1-4 - [c7]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
An improved algorithm for the analysis of partially saturated ferrite inductors in switching power supplies. SMACD 2016: 1-4 - 2015
- [c6]Giulia Di Capua, Nicola Femia:
Switching power supplies operating with partially saturated inductors. ICIT 2015: 1205-1210 - [c5]Massimiliano De Cristofaro, Giulia Di Capua, Nicola Femia, Giovanni Petrone, Giovanni Spagnuolo, Davide Toledo:
Models and methods for energy productivity analysis of PV systems. INDIN 2015: 1153-1158 - [c4]Giulia Di Capua, Nicola Femia, Kateryna Stoyka:
Differential evolution algorithm-based identification of Ferrite Core Inductors saturation curves. INDIN 2015: 1636-1641 - [c3]Kateryna Stoyka, Giulia Di Capua, Antonio Della Cioppa, Nicola Femia, Giovanni Spagnuolo:
Identification of ferrite core inductors parameters by evolutionary algorithms. INDIN 2015: 1648-1653 - 2014
- [j2]Giulia Di Capua, Nicola Femia:
A Critical Investigation of Coupled Inductors SEPIC Design Issues. IEEE Trans. Ind. Electron. 61(6): 2724-2734 (2014) - [c2]Giulia Di Capua, Nicola Femia, Davide Toledo, L. Abbatelli, Gaetano Bazzano:
Analysis and characterization of power MOSFETs for power converters energy&reliability-aware-design. ISIE 2014: 410-415 - 2013
- [j1]Antonietta De Nardo, Giulia Di Capua, Nicola Femia:
Transformer Design for Isolated Switching Converters Based on Geometric Form Factors of Magnetic Cores. IEEE Trans. Ind. Electron. 60(6): 2158-2166 (2013) - [c1]Andrea Cantillo, Giulia Di Capua, Nicola Femia, Giovanni Spagnuolo, Walter Zamboni:
Stability limit analysis for peak-current-controlled Ćuk converter. IECON 2013: 1284-1289
Coauthor Index
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