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John Taylor 0002
Person information
- affiliation: University of Bath, Department of Electronic and Electrical Engineering, UK
Other persons with the same name
- John Taylor — disambiguation page
- John Taylor 0001 — University of Brighton, Visual Modelling Group, UK
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2020 – today
- 2023
- [c34]Nick Donaldson, Timea Grego, Henry Lancashire, Jonathan Prager, Nicolas Granger, Benjamin Metcalfe, John Taylor:
A Multielectrode Nerve Cuff for Chronic Velocity Selective Recording in a sheep model. EMBC 2023: 1-4 - 2022
- [j12]Shamin Sadrafshari, Benjamin Metcalfe, Nick Donaldson, Nicolas Granger, Jonathan Prager, John Taylor:
The Design of a Low Noise, Multi-Channel Recording System for Use in Implanted Peripheral Nerve Interfaces. Sensors 22(9): 3450 (2022) - 2021
- [c33]Benjamin Metcalfe, Nicolas Granger, Jonathan Prager, Leen Jabban, John Taylor, Shamin Sadrafshari, Nick Donaldson:
Urinary Bladder Innervation within the Sacral Roots of a Sheep. NER 2021: 605-608 - 2020
- [c32]John Taylor, Shamin Sadrafshari, Nick Donaldson, Nicolas Granger, Jonathan Prager, Benjamin Metcalfe:
The Effects of the Presence of Multiple Conduction Velocities in the Analysis of Electrically-Evoked Compound Action Potentials (eCAPs). EMBC 2020: 3477-3480 - [c31]Benjamin Metcalfe, Nicolas Granger, Jonathan Prager, Shamin Sadrafshari, Timea Grego, John Taylor, Nick Donaldson:
Selective Recording of Urinary Bladder Fullness from the Extradural Sacral Roots*. EMBC 2020: 3873-3876
2010 – 2019
- 2018
- [c30]Benjamin Metcalfe, Thomas Nielsen, John Taylor:
Velocity Selective Recording: A Demonstration of Effectiveness on the Vagus Nerve in Pig. EMBC 2018: 1-4 - 2017
- [j11]Chris Clarke, Robert Rieger, Martin Schuettler, Nick Donaldson, John Taylor:
An implantable ENG detector with in-system velocity selective recording (VSR) capability. Medical Biol. Eng. Comput. 55(6): 885-895 (2017) - 2015
- [c29]John Taylor, Benjamin Metcalfe, Chris Clarke, Daniel Chew, Thomas Nielsen, Nick Donaldson:
A Summary of Current and New Methods in Velocity Selective Recording (VSR) of Electroneurogram (ENG). ISVLSI 2015: 221-226 - 2014
- [j10]Assad I. Al-Shueli, Christopher T. Clarke, Nick Donaldson, John Taylor:
Improved Signal Processing Methods for Velocity Selective Neural Recording Using Multi-Electrode Cuffs. IEEE Trans. Biomed. Circuits Syst. 8(3): 401-410 (2014) - [c28]Robert Rieger, John Taylor:
Delay-line-based signal processing ASIC for velocity selective nerve recording. APCCAS 2014: 205-208 - [c27]Benjamin Metcalfe, Daniel Chew, Chris Clarke, Nick Donaldson, John Taylor:
Fibre-selective discrimination of physiological ENG using velocity selective recording: Report on pilot rat experiments. EMBC 2014: 2645-2648 - [c26]Benjamin Metcalfe, Daniel Chew, Chris Clarke, Nick Donaldson, John Taylor:
An enhancement to velocity selective discrimination of neural recordings: Extraction of neuronal firing rates. EMBC 2014: 4111-4114 - 2013
- [j9]Robert Rieger, John Taylor:
A Switched-Capacitor Front-End for Velocity-Selective ENG Recording. IEEE Trans. Biomed. Circuits Syst. 7(4): 480-488 (2013) - 2012
- [j8]John Taylor, Martin Schuettler, Chris Clarke, Nick Donaldson:
The theory of velocity selective neural recording: a study based on simulation. Medical Biol. Eng. Comput. 50(3): 309-318 (2012) - [c25]Robert Rieger, John Taylor, Chris Clarke:
Signal processing for velocity selective recording systems using analogue delay lines. ISCAS 2012: 2195-2198 - 2011
- [c24]Martin Schuettler, Vipin Seetohul, Nico J. M. Rijkhoff, Flemming V. Moeller, Nick Donaldson, John Taylor:
Fibre-selective recording from peripheral nerves using a multiple-contact cuff: Report on pilot pig experiments. EMBC 2011: 3103-3106 - [c23]John Taylor, Martin Schuettler, Chris Clarke, Nick Donaldson:
A summary of the theory of velocity selective neural recording. EMBC 2011: 4649-4652
2000 – 2009
- 2008
- [j7]Nick Donaldson, Robert Rieger, Martin Schuettler, John Taylor:
Noise and selectivity of velocity-selective multi-electrode nerve cuffs. Medical Biol. Eng. Comput. 46(10): 1005-1018 (2008) - [c22]John Taylor, Robert Rieger:
A low noise front-end for multiplexed ENG recording using CMOS technology. ICECS 2008: 754-757 - [c21]Christopher T. Clarke, John Taylor, Xianhong Xu:
Analogue/digital interface and communications aspects in a multi-channel ENG recording asic. ISCAS 2008: 1116-1119 - 2007
- [c20]Robert Rieger, Yen-Yow Pan, John Taylor:
Design Strategies for Multi-Channel Low-Noise Recording Systems. ISCAS 2007: 561-564 - 2006
- [c19]John Taylor, Delia Masanotti, Vipin Seetohul, Shiying Hao:
Some Recent Developments in the Design of Biopotential Amplifiers for ENG Recording Systems. APCCAS 2006: 486-489 - [c18]Martin Schuettler, Vipin Seetohul, John Taylor, Nick Donaldson:
Velocity-Selective Recording from Frog Nerve Using a Multi-Contact Cuff Electrode. EMBC 2006: 2962-2965 - [c17]Delia Masanotti, Peter J. Langlois, John Taylor:
A Method to Model Neuron Activity. EMBC 2006: 4192-4195 - 2005
- [c16]Peter J. Langlois, John Taylor, Andreas Demosthenous:
Realization of a simple high-value grounded linear resistance in CMOS technology. ESSCIRC 2005: 383-386 - [c15]Chris Clarke, John Taylor, Robert Rieger, Nick Donaldson:
A distributed neural signal sensor system. ISCAS (1) 2005: 145-148 - [c14]Robert Rieger, Dipankar Pal, John Taylor, Chris Clarke, Peter J. Langlois, Nick Donaldson:
10-channel very low noise ENG amplifier system using CMOS technology. ISCAS (1) 2005: 748-751 - [c13]Robert Rieger, Dipankar Pal, John Taylor, Peter J. Langlois:
Two preamplifiers for non-invasive on-chip recording of neural-signals. ISCAS (3) 2005: 2727-2730 - 2004
- [j6]Robert Rieger, Andreas Demosthenous, John Taylor:
A 230-nW 10-s time constant CMOS integrator for an adaptive nerve signal amplifier. IEEE J. Solid State Circuits 39(11): 1968-1975 (2004) - [j5]Andreas Demosthenous, John Taylor, Iasonas F. Triantis, Robert Rieger, Nick Donaldson:
Design of an adaptive interference reduction system for nerve-cuff electrode recording. IEEE Trans. Circuits Syst. I Regul. Pap. 51-I(4): 629-639 (2004) - 2003
- [j4]Robert Rieger, John Taylor, Andreas Demosthenous, Nick Donaldson, Peter J. Langlois:
Design of a low-noise preamplifier for nerve cuff electrode recording. IEEE J. Solid State Circuits 38(8): 1373-1379 (2003) - [c12]Robert Rieger, Andreas Demosthenous, John Taylor:
Continuously tunable, very long time constant CMOS integrator for a neural recording implant. ESSCIRC 2003: 441-444 - 2002
- [j3]Andreas Demosthenous, John Taylor:
A 100-Mb/s 2.8-V CMOS current-mode analog Viterbi decoder. IEEE J. Solid State Circuits 37(7): 904-910 (2002) - [c11]Robert Rieger, John Taylor, Nick Donaldson:
Low noise preamplifier design for nerve cuff electrode recording systems. ISCAS (5) 2002: 193-196 - 2001
- [c10]Iasonas F. Triantis, Robert Rieger, John Taylor, Nick Donaldson:
Adaptive interference reduction in nerve cuff electrode recordings. ICECS 2001: 669-672 - [c9]Andreas Demosthenous, John Taylor:
Effects of analogue ACS implementation errors on the modified feedback decoding algorithm. ICECS 2001: 1235-1238 - 2000
- [j2]Mohamad Rahal, John Taylor, Nick Donaldson:
The effect of nerve cuff geometry on interference reduction: a study by computer modeling. IEEE Trans. Biomed. Eng. 47(1): 136-138 (2000) - [j1]Mohamad Rahal, Jeff Winter, John Taylor, Nick Donaldson:
An improved configuration for the reduction of EMG in electrode cuff recordings: a theoretical approach. IEEE Trans. Biomed. Eng. 47(9): 1281-1284 (2000) - [c8]Andreas Demosthenous, John Taylor, Geoff Morrison:
An analogue approach to the design of motion estimators for digital video encoding. ISCAS 2000: 675-678
1990 – 1999
- 1999
- [c7]Mohamad Rahal, Jeff Winter, John Taylor, Nick Donaldson:
Application of closed-loop control in the reduction of interference in nerve cuff recordings. ICECS 1999: 1039-1042 - [c6]Andreas Demosthenous, John Taylor:
A very high-speed BiCMOS current comparator for use in Viterbi decoders. ICECS 1999: 1065-1068 - [c5]Andreas Demosthenous, John Taylor:
A comparison of CMOS and BiCMOS add-compare-select circuits for maximum likelihood sequence detectors. ICECS 1999: 1073-1076 - [c4]Mohamad Rahal, Jeff Winter, John Taylor, Nick Donaldson:
Interference reduction in nerve cuff electrode recordings-a new approach. ISCAS (6) 1999: 493-496 - 1996
- [c3]Andreas Demosthenous, John Taylor, Sean Smedley:
A High-Speed Scalable CMOS Current-Mode Winner-Take-All Network. ICANN 1996: 371-376 - [c2]Andreas Demosthenous, John Taylor:
Current-mode approaches to implementing hybrid analogue/digital Viterbi decoders. ICECS 1996: 33-36 - [c1]Andreas Demosthenous, Rahim Akbari-Dilmaghani, Sean Smedley, John Taylor:
Enhanced modular CMOS current-mode winner-take-all network. ICECS 1996: 402-405
Coauthor Index
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