Active tuned mass dampers for control of in‐plane vibrations of wind turbine blades B Fitzgerald, B Basu, SRK Nielsen Structural Control and Health Monitoring 20 (12), 1377-1396, 2013 | 149 | 2013 |
Vibration control of spar‐type floating offshore wind turbine towers using a tuned mass‐damper‐inerter S Sarkar, B Fitzgerald Structural Control and Health Monitoring 27 (1), e2471, 2020 | 126 | 2020 |
Improved reliability of wind turbine towers with active tuned mass dampers (ATMDs) B Fitzgerald, S Sarkar, A Staino Journal of Sound and Vibration 419, 103-122, 2018 | 105 | 2018 |
Cable connected active tuned mass dampers for control of in-plane vibrations of wind turbine blades B Fitzgerald, B Basu Journal of Sound and Vibration 333 (23), 5980-6004, 2014 | 105 | 2014 |
Structural control of wind turbines with soil structure interaction included B Fitzgerald, B Basu Engineering Structures 111, 131-151, 2016 | 97 | 2016 |
Tuned mass-damper-inerter (TMDI) for suppressing edgewise vibrations of wind turbine blades Z Zhang, B Fitzgerald Engineering Structures 221, 110928, 2020 | 78 | 2020 |
Individual blade pitch control of floating offshore wind turbines for load mitigation and power regulation S Sarkar, B Fitzgerald, B Basu IEEE Transactions on Control Systems Technology 29 (1), 305-315, 2020 | 64 | 2020 |
An assessment of the potential for Co-located offshore wind and wave farms in Ireland E Gaughan, B Fitzgerald Energy 200, 117526, 2020 | 41 | 2020 |
Damage detection in wind turbine blades using time-frequency analysis of vibration signals B Fitzgerald, J Arrigan, B Basu The 2010 International Joint Conference on Neural Networks (IJCNN), 1-5, 2010 | 41 | 2010 |
Multi-resolution wavelet pitch controller for spar-type floating offshore wind turbines including wave-current interactions S Sarkar, L Chen, B Fitzgerald, B Basu Journal of Sound and Vibration 470, 115170, 2020 | 31 | 2020 |
Active tuned mass damper control of wind turbine nacelle/tower vibrations with damaged foundations B Fitzgerald, B Basu Key engineering materials 569, 660-667, 2013 | 31 | 2013 |
Vibration control of wind turbines: recent advances and emerging trends B Fitzgerald, B Basu International Journal of Sustainable Materials and Structural Systems 4 (2-4 …, 2020 | 29 | 2020 |
Wavelet‐based individual blade pitch control for vibration control of wind turbine blades B Fitzgerald, A Staino, B Basu Structural Control and Health Monitoring 26 (1), e2284, 2019 | 28 | 2019 |
Fluid inerter for optimal vibration control of floating offshore wind turbine towers S Sarkar, B Fitzgerald Engineering Structures 266, 114558, 2022 | 27 | 2022 |
Use of kane’s method for multi-body dynamic modelling and control of spar-type floating offshore wind turbines S Sarkar, B Fitzgerald Energies 14 (20), 6635, 2021 | 16 | 2021 |
A monitoring system for wind turbines subjected to combined seismic and turbulent aerodynamic loads B Fitzgerald, B Basu Structural Monitoring and Maintenance 4 (2), 175-194, 2017 | 16 | 2017 |
Enhancing the reliability of floating offshore wind turbine towers subjected to misaligned wind-wave loading using tuned mass damper inerters (TMDIs) B Fitzgerald, J McAuliffe, S Baisthakur, S Sarkar Renewable Energy 211, 522-538, 2023 | 13 | 2023 |
Mitigation of wind induced accelerations in tall modular buildings J Hickey, B Broderick, B Fitzgerald, H Moore Structures 37, 576-587, 2022 | 8 | 2022 |
Nonlinear model predictive control to reduce pitch actuation of floating offshore wind turbines S Sarkar, B Fitzgerald, B Basu IFAC-PapersOnLine 53 (2), 12783-12788, 2020 | 8 | 2020 |
A Comparison of Soil Structure Interaction Models for Dynamic Analysis of Offshore Wind Turbines B Fitzgerald, D Igoe, S Sarkar Journal of Physics: Conference Series 1618 (5), 052043, 2020 | 6 | 2020 |