What is he best known for?
The fields of study he is best known for:
- Control theory
- Voltage
- Electrical engineering
His primary areas of investigation include Control theory, Induction motor, Torque, Stator and Inverter.
The study incorporates disciplines such as Vector control, Pulse-width modulation, Voltage, Control engineering and Electromagnetic coil in addition to Control theory.
His Pulse-width modulation research focuses on subjects like Total harmonic distortion, which are linked to Ripple and Harmonic analysis.
His Voltage research incorporates themes from Electronic engineering and Modulation.
Martin Jones interconnects Direct torque control and Harmonics in the investigation of issues within Torque.
His Inverter research focuses on Transposition and how it connects with Voltage source inverter, Power electronics and Control system.
His most cited work include:
- A novel concept of a multiphase, multimotor vector controlled drive system supplied from a single voltage source inverter (204 citations)
- Post-fault operation of an asymmetrical six-phase induction machine with single and two isolated neutral points (184 citations)
- FCS-MPC-Based Current Control of a Five-Phase Induction Motor and its Comparison with PI-PWM Control (161 citations)
What are the main themes of his work throughout his whole career to date?
Martin Jones mainly focuses on Control theory, Inverter, Pulse-width modulation, Stator and Voltage.
The concepts of his Control theory study are interwoven with issues in Vector control, Induction motor, Phase and Electromagnetic coil.
His Inverter research is multidisciplinary, relying on both Rotating reference frame, Algorithm, Series and parallel circuits and Harmonics.
Martin Jones combines subjects such as Total harmonic distortion, Voltage source and Electronic engineering, Harmonic analysis with his study of Pulse-width modulation.
His Stator study combines topics in areas such as Stationary Reference Frame and Synchronous motor.
In general Voltage, his work in Converters is often linked to Harmonic linking many areas of study.
He most often published in these fields:
- Control theory (74.83%)
- Inverter (44.37%)
- Pulse-width modulation (39.74%)
What were the highlights of his more recent work (between 2017-2021)?
- Control theory (74.83%)
- Electromagnetic coil (29.14%)
- Stator (31.79%)
In recent papers he was focusing on the following fields of study:
His main research concerns Control theory, Electromagnetic coil, Stator, Torque and Three-phase.
His research investigates the connection between Control theory and topics such as Point that intersect with issues in Modulation.
As a part of the same scientific study, Martin Jones usually deals with the Electromagnetic coil, concentrating on Power rating and frequently concerns with Decoupling.
His research in Stator tackles topics such as Magnet which are related to areas like Synchronous motor.
His Torque research incorporates elements of Vector control and Rotor.
His work is dedicated to discovering how Vector control, Induction generator are connected with Topology and other disciplines.
Between 2017 and 2021, his most popular works were:
- Arbitrary Power Sharing Among Three-Phase Winding Sets of Multiphase Machines (25 citations)
- Analysis of a Symmetrical Nine-phase Machine with Highly Non-Sinusoidal Back-Electromotive Force (10 citations)
- A Novel Synthetic Loading Method for Multiple Three-Phase Winding Electric Machines (10 citations)
In his most recent research, the most cited papers focused on:
- Electrical engineering
- Voltage
- Control theory
His primary scientific interests are in Control theory, Three-phase, Torque, Rotor and Stator.
The Control theory study combines topics in areas such as Vector control and Power rating.
His Vector control research includes themes of Generator, Point, Induction generator and Topology.
His research integrates issues of Decoupling and Synchronous motor in his study of Power rating.
His study in Stator is interdisciplinary in nature, drawing from both Magnet and Electromagnetic coil.
He incorporates a variety of subjects into his writings, including Physics, Torque density, Harmonics and Counter-electromotive force.
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