| 1 |
Reachability analysis of linear dynamic systems with constant, arbitrary, and Lipschitz continuous inputs
Pico HNV, Aliprantis DC
Automatica, 95, 293, 2018 |
| 2 |
Voltage Ride-Through Capability Verification of DFIG-Based Wind Turbines Using Reachability Analysis
Pico HNV, Aliprantis DC
IEEE Transactions on Energy Conversion, 31(4), 1387, 2016 |
| 3 |
Voltage Ride-Through Capability Verification of Wind Turbines With Fully-Rated Converters Using Reachability Analysis
Pico HNV, Aliprantis DC
IEEE Transactions on Energy Conversion, 29(2), 392, 2014 |
| 4 |
Modeling light-duty plug-in electric vehicles for national energy and transportation planning
Wu D, Aliprantis DC
Energy Policy, 63, 419, 2013 |
| 5 |
Synchronous Machine Model With Voltage-Behind-Reactance Formulation of Stator and Field Windings
Cramer AM, Loop BP, Aliprantis DC
IEEE Transactions on Energy Conversion, 27(2), 391, 2012 |
| 6 |
Analysis of Squirrel-Cage Induction Generator With Vienna Rectifier for Wind Energy Conversion System
Chen H, Aliprantis DC
IEEE Transactions on Energy Conversion, 26(3), 967, 2011 |
| 7 |
A voltage-behind-reactance synchronous machine model with saturation and arbitrary rotor network representation
Aliprantis DC, Wasynczuk O, Valdez CDR
IEEE Transactions on Energy Conversion, 23(2), 499, 2008 |
| 8 |
A brushless exciter model incorporating multiple rectifier modes and Preisach's hysteresis theory
Aliprantis DC, Sudhoff SD, Kuhn BT
IEEE Transactions on Energy Conversion, 21(1), 136, 2006 |
| 9 |
Genetic algorithm-based parameter identification of a hysteretic brushless exciter model
Aliprantis DC, Sudhoff SD, Kuhn BT
IEEE Transactions on Energy Conversion, 21(1), 148, 2006 |
| 10 |
A synchronous machine model with saturation and arbitrary rotor network representation
Aliprantis DC, Sudhoff SD, Kuhn BT
IEEE Transactions on Energy Conversion, 20(3), 584, 2005 |
