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ORCIDDan Gladwin
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- affiliation: University of Sheffield, UK
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2020 – today
- 2022
[c39]A. Abdulkarim, Daniel T. Gladwin:
Maximizing energy availability for a Dynamic Regulation Frequency Response Service for Battery Energy Storage Systems. IECON 2022: 1-6- [c38]Andrew J. Hutchinson
, Daniel T. Gladwin:
Suitability Assessment of Flywheel Energy Storage Systems for providing new Frequency Response Services in the UK. ISGT Asia 2022: 495-499 - [c37]Andrew J. Hutchinson, Daniel T. Gladwin:
A Bespoke Frequency Response Service suitable for delivery by Flywheel Energy Storage Systems. ISGT-Europe 2022: 1-5 - [c36]Andrew J. Hutchinson, Daniel T. Gladwin:
Genetic Algorithm Optimisation of Hybrid Energy Storage System providing Dynamic Frequency Response. ISIE 2022: 98-103 - 2021
- [j6]Matthew Thomas Watson, Daniel T. Gladwin, Tony J. Prescott:
Collinear Mecanum Drive: Modeling, Analysis, Partial Feedback Linearization, and Nonlinear Control. IEEE Trans. Robotics 37(2): 642-658 (2021) - [c35]A. Abdulkarim, Daniel T. Gladwin:
A Sensitivity Analysis on Power to Energy Ratios for Energy Storage Systems providing both Dynamic Firm and Dynamic Containment Frequency Response Services in the UK. IECON 2021: 1-6 - [c34]Thomas Fantham, Daniel T. Gladwin:
In-situ Parameter Identification of Cells in Grid-Connected Batteries. IECON 2021: 1-6 - [c33]Zhuo Wang, Daniel T. Gladwin, Matthew J. Smith, Thomas Fantham:
Data-selection for state estimation of large-scale battery systems. IECON 2021: 1-6 - [c32]Andrew J. Hutchinson, Daniel T. Gladwin:
Techno-Economic Analysis of a Flywheel Energy Storage System performing a Dynamic Frequency Response Service. ISIE 2021: 1-6 - 2020
- [j5]Xiaolin Mou, Daniel T. Gladwin, Rui Zhao, Hongjian Sun, Zhile Yang:
Coil Design for Wireless Vehicle-to-Vehicle Charging Systems. IEEE Access 8: 172723-172733 (2020) - [j4]Shahab Nejad, Daniel Thomas Gladwin:
Online Battery State of Power Prediction Using PRBS and Extended Kalman Filter. IEEE Trans. Ind. Electron. 67(5): 3747-3755 (2020) - [c31]Andrew J. Hutchinson, Daniel T. Gladwin:
Sensitivity analysis of a wind farm with integrated flywheel energy storage. ICIT 2020: 549-553
2010 – 2019
- 2019
- [c30]Hammad Alnuman, Daniel T. Gladwin, Martin P. Foster:
Novel Control Method for Improving Energy Efficiency of DC Electric Railways. ICCA 2019: 91-96 - [c29]Matthew J. Smith, Daniel Thomas Gladwin, David A. Stone:
A Comparison of the Effects of Charging Strategies on Lithium-ion Cell Performance in High Temperature Environments. ICIT 2019: 1107-1112 - [c28]Xiaolin Mou, Rui Zhao, Daniel T. Gladwin:
Vehicle-to-Vehicle charging system fundamental and design comparison. ICIT 2019: 1628-1633 - [c27]Matthew Thomas Watson, Daniel T. Gladwin, Tony J. Prescott, Sebastian O. Conran:
Velocity Constrained Trajectory Generation for a Collinear Mecanum Wheeled Robot. ICRA 2019: 4444-4450 - [c26]Hammad Alnuman, Daniel T. Gladwin, Martin P. Foster, Thomas Fantham:
Adaptive Control Method to Manage SOC for Energy Storage in DC Electric Railways. IECON 2019: 261-266 - [c25]James Scoltock, Daniel T. Gladwin:
Payment Analysis for a BESS Providing Dynamic Frequency Response in the Irish Grid. IECON 2019: 2452-2457 - [c24]Xiaolin Mou, Rui Zhao, Yingcheng Wang, Daniel T. Gladwin:
Angular Offset Analysis in Wireless Vehicle to Vehicle (V2V) Charging System. IECON 2019: 4293-4297 - [c23]Yingcheng Wang, Daniel T. Gladwin:
Power management of EV car parks. IECON 2019: 4316-4322 - [c22]Simon J. Royston, Daniel T. Gladwin, David A. Stone, Richard Ollerenshaw, Patrick Clark:
Development and Validation of a Battery Model for Battery Electric Multiple Unit Trains. IECON 2019: 4563-4568 - 2018
- [j3]Burcu Mantar Gundogdu, Shahab Nejad, Daniel Thomas Gladwin, Martin P. Foster, David A. Stone:
A Battery Energy Management Strategy for U.K. Enhanced Frequency Response and Triad Avoidance. IEEE Trans. Ind. Electron. 65(12): 9509-9517 (2018) - [c21]Burcu Mantar Gundogdu, Daniel Thomas Gladwin, Martin P. Foster, David A. Stone:
A forecasting battery state of charge management strategy for frequency response in the UK system. ICIT 2018: 1726-1731 - [c20]James Scoltock, Baljit S. Riar, Daniel Thomas Gladwin:
A Comparison of Extrapolation Techniques for Model Predictive Direct Current Control. IECON 2018: 853-858 - [c19]Alexander Petersen, David A. Stone, Martin P. Foster, Daniel Thomas Gladwin:
An Investigation into the Thermal Benefits of Multilevel Converters. IECON 2018: 1017-1022 - [c18]Rui Zhao, Daniel Thomas Gladwin, Xiaolin Mou, David A. Stone:
A Non-Isolated Bipolar Gate Driver with Self-Driven Negative Bias Generator in High-Side-Only Application. IECON 2018: 1362-1367 - [c17]Xiaolin Mou, Rui Zhao, Daniel Thomas Gladwin:
Vehicle to Vehicle Charging (V2V) Bases on Wireless Power Transfer Technology. IECON 2018: 4862-4867 - [c16]Matthew J. Smith, Daniel Thomas Gladwin, David A. Stone:
An Experimental Analysis of the Effect of Cell Degradation on Dynamic Charge Acceptance in Lead-Acid Cells. ISIE 2018: 187-192 - 2017
- [c15]Alexander Petersen, David A. Stone, Martin P. Foster, Daniel Thomas Gladwin:
Switching loss optimisation of cascaded H-bridge converters for bidirectional grid-tie battery energy storage systems. IECON 2017: 1598-1603 - [c14]Rui Zhao, Daniel T. Gladwin, David A. Stone:
A hybrid wireless PLL for phase shift control based maximum efficiency point tracking in resonant wireless power transmission systems. IECON 2017: 5301-5306 - [c13]Matthew J. Smith, Daniel Thomas Gladwin, David A. Stone:
Experimental analysis of the influence of high-frequency ripple currents on dynamic charge acceptance in lead-acid batteries. IECON 2017: 7140-7145 - [c12]Burcu Mantar Gundogdu, Daniel Thomas Gladwin, David A. Stone:
Battery SOC management strategy for enhanced frequency response and day-ahead energy scheduling of BESS for energy arbitrage. IECON 2017: 7635-7640 - [c11]Shahab Nejad, Daniel Thomas Gladwin, Martin P. Foster, David A. Stone:
Parameterisation and online states estimation of high-energy lithium-titanate cells. IECON 2017: 7660-7665 - [c10]Burcu Mantar Gundogdu, Shahab Nejad, Daniel Thomas Gladwin, David A. Stone:
A battery energy management strategy for UK enhanced frequency response. ISIE 2017: 26-31 - 2016
- [c9]Shahab Nejad, Daniel Thomas Gladwin, David A. Stone:
A hybrid battery parameter identification concept for lithium-ion energy storage applications. IECON 2016: 1980-1985 - [c8]Matthew J. Smith, Daniel Thomas Gladwin, David A. Stone:
Experimental analysis of dynamic charge acceptance test conditions for lead-acid cells. IECON 2016: 2046-2051 - [c7]Rui Zhao, Daniel Thomas Gladwin, David A. Stone:
Phase shift control based Maximum Efficiency Point Tracking in resonant wireless power system and its realization. IECON 2016: 4541-4546 - [c6]Shahab Nejad, Daniel Thomas Gladwin, David A. Stone:
On-chip implementation of Extended Kalman Filter for adaptive battery states monitoring. IECON 2016: 5513-5518 - 2015
- [c5]Shahab Nejad, Daniel T. Gladwin, David A. Stone:
Enhanced state-of-charge estimation for lithium-ion iron phosphate cells with flat open-circuit voltage curves. IECON 2015: 3187-3192 - [c4]Rui Zhao, Daniel T. Gladwin, David A. Stone:
Wireless power system appling a microcontroller dominated matrix converter. IECON 2015: 3405-3410 - 2014
- [c3]Shahab Nejad, Daniel Thomas Gladwin, David A. Stone:
Sensitivity of lumped parameter battery models to constituent parallel-RC element parameterisation error. IECON 2014: 5660-5665 - 2013
- [c2]Daniel Thomas Gladwin, Christopher R. Gould, David A. Stone, Martin P. Foster:
Viability of "second-life" use of electric and hybridelectric vehicle battery packs. IECON 2013: 1922-1927 - 2011
- [j2]Dan Gladwin, Paul J. Stewart, Jill Stewart:
A controlled migration genetic algorithm operator for hardware-in-the-loop experimentation. Eng. Appl. Artif. Intell. 24(4): 586-594 (2011) - [j1]Dan Gladwin, Paul J. Stewart, Jill Stewart:
Internal combustion engine control for series hybrid electric vehicles by parallel and distributed genetic programming/multiobjective genetic algorithms. Int. J. Syst. Sci. 42(2): 249-261 (2011)
2000 – 2009
- 2009
- [b1]Daniel Thomas Gladwin:
Automated Control Structure Design and optimisation using Evolutionary Computing. University of Sheffield, UK, 2009 - 2007
- [c1]Paul J. Stewart, Dan Gladwin, Matt Parr, Jill Stewart:
A Multiobjective G.A./Fuzzy Logic Augmented Flight Controller for an F16 Aircraft. FUZZ-IEEE 2007: 1-6
Coauthor Index
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