John Tudor
John Tudor
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Cited by
Cited by
Energy harvesting vibration sources for microsystems applications
SP Beeby, MJ Tudor, NM White
Measurement science and technology 17 (12), R175, 2006
A micro electromagnetic generator for vibration energy harvesting
SP Beeby, RN Torah, MJ Tudor, P Glynne-Jones, T O'Donnell, CR Saha, ...
Journal of Micromechanics and microengineering 17 (7), 1257, 2007
An electromagnetic, vibration-powered generator for intelligent sensor systems
P Glynne-Jones, MJ Tudor, SP Beeby, NM White
Sensors and Actuators A: Physical 110 (1-3), 344-349, 2004
Strategies for increasing the operating frequency range of vibration energy harvesters: a review
D Zhu, MJ Tudor, SP Beeby
Measurement Science and Technology 21 (2), 022001, 2009
Self-powered autonomous wireless sensor node using vibration energy harvesting
R Torah, P Glynne-Jones, M Tudor, T O'donnell, S Roy, S Beeby
Measurement science and technology 19 (12), 125202, 2008
Review of the application of energy harvesting in buildings
JW Matiko, NJ Grabham, SP Beeby, MJ Tudor
Measurement Science and Technology 25 (1), 012002, 2013
Design and experimental characterization of a tunable vibration-based electromagnetic micro-generator
D Zhu, S Roberts, MJ Tudor, SP Beeby
Sensors and Actuators A: Physical 158 (2), 284-293, 2010
Optimization of an electromagnetic energy harvesting device
CR Saha, T O'Donnell, H Loder, S Beeby, J Tudor
IEEE Transactions on Magnetics 42 (10), 3509-3511, 2006
Inkjet-printed microstrip patch antennas realized on textile for wearable applications
WG Whittow, A Chauraya, JC Vardaxoglou, Y Li, R Torah, K Yang, ...
IEEE Antennas and Wireless Propagation Letters 13, 71-74, 2014
An investigation of self-powered systems for condition monitoring applications
EP James, MJ Tudor, SP Beeby, NR Harris, P Glynne-Jones, JN Ross, ...
Sensors and Actuators A: Physical 110 (1-3), 171-176, 2004
Design, fabrication and test of integrated micro-scale vibration-based electromagnetic generator
S Kulkarni, E Koukharenko, R Torah, J Tudor, S Beeby, T O’Donnell, ...
Sensors and Actuators A: Physical 145, 336-342, 2008
Inkjet printed dipole antennas on textiles for wearable communications
A Chauraya, WG Whittow, JYC Vardaxoglou, Y Li, R Torah, K Yang, ...
IET Microwaves, Antennas & Propagation 7 (9), 760-767, 2013
The development of screen printed conductive networks on textiles for biopotential monitoring applications
G Paul, R Torah, S Beeby, J Tudor
Sensors and Actuators A: Physical 206, 35-41, 2014
Waterproof and durable screen printed silver conductive tracks on textiles
K Yang, R Torah, Y Wei, S Beeby, J Tudor
Textile Research Journal 83 (19), 2023-2031, 2013
Flexible screen printed thermoelectric generator with enhanced processes and materials
Z Cao, E Koukharenko, MJ Tudor, RN Torah, SP Beeby
Sensors and Actuators A: Physical 238, 196-206, 2016
Screen printed fabric electrode array for wearable functional electrical stimulation
K Yang, C Freeman, R Torah, S Beeby, J Tudor
Sensors and Actuators A: Physical 213, 108-115, 2014
Microelectromechanical systems vibration powered electromagnetic generator for wireless sensor applications
E Koukharenko, SP Beeby, MJ Tudor, NM White, T O’Donnell, C Saha, ...
Microsystem technologies 12, 1071-1077, 2006
Resonant beam pressure sensor fabricated with silicon fusion bonding
K Petersen, F Pourahmadi, J Brown, P Parsons, M Skinner, J Tudor
TRANSDUCERS'91: 1991 International Conference on Solid-State Sensors and …, 1991
A smart textile based facial EMG and EOG computer interface
GM Paul, F Cao, R Torah, K Yang, S Beeby, J Tudor
IEEE sensors journal 14 (2), 393-400, 2013
A credit card sized self powered smart sensor node
D Zhu, SP Beeby, MJ Tudor, NR Harris
Sensors and Actuators A: Physical 169 (2), 317-325, 2011
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