Showing 38 publications by Mayela Zamora
Bioelectronic Zeitgebers: targeted neuromodulation to re-establish circadian rhythms
deli A, Zamora M, Fleming J, Divanbeighi Zand AP, Benjaber M et al. (2024), Proceedings of the IEEE International Conference on Systems, Man, and Cybernetics (SMC 2023), 2023, 2301-2308
BibTeX
@article{bioelectronicze-2024/1,
title={Bioelectronic Zeitgebers: targeted neuromodulation to re-establish circadian rhythms},
author={deli A, Zamora M, Fleming J, Divanbeighi Zand AP, Benjaber M et al.},
journal={Proceedings of the IEEE International Conference on Systems, Man, and Cybernetics (SMC 2023)},
volume={2023},
pages={2301-2308},
publisher={IEEE},
year = "2024"
}
An embedded intracranial seizure monitor for objective outcome measurements and rhythm identification
Fleming J, Benjaber M, Toth R, Zamora M, Landin K et al. (2023), Proceedings of the 45th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC 2023), 1-6
BibTeX
@inproceedings{anembeddedintra-2023/12,
title={An embedded intracranial seizure monitor for objective outcome measurements and rhythm identification},
author={Fleming J, Benjaber M, Toth R, Zamora M, Landin K et al.},
booktitle={45th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC 2023)},
pages={1-6},
year = "2023"
}
ID: 221007 Bioelectronic Zeitgebers: Towards Neuromodulation Devices Synchronized to Biological Rhythms
Fleming J, Noone T, Deli A, Zamora M, Zand AD et al. (2023), Neuromodulation Technology at the Neural Interface, 26(4), s123
BibTeX
@article{idbioelectronic-2023/6,
title={ID: 221007 Bioelectronic Zeitgebers: Towards Neuromodulation Devices Synchronized to Biological Rhythms},
author={Fleming J, Noone T, Deli A, Zamora M, Zand AD et al.},
journal={Neuromodulation Technology at the Neural Interface},
volume={26},
pages={s123},
publisher={Elsevier},
year = "2023"
}
Regulation of arousal and performance of a healthy non-human primate using closed-loop central thalamic deep brain stimulation
Baker JL, Toth R, Deli A, Zamora M, Fleming JE et al. (2023), 2023 11th International IEEE/EMBS Conference on Neural Engineering (NER)
BibTeX
@inproceedings{regulationofaro-2023/5,
title={Regulation of arousal and performance of a healthy non-human primate using closed-loop central thalamic deep brain stimulation},
author={Baker JL, Toth R, Deli A, Zamora M, Fleming JE et al.},
booktitle={11th International IEEE EMBS Conference on Neural Engineering (NER 2023)},
year = "2023"
}
The design of brainstem interfaces: characterisation of physiological artefacts and implications for closed-loop algorithms
Deli A, Toth R, Zamora M, Zand APD, Green AL et al. (2023), Proceedings of the 11th International IEEE/EMBS Conference on Neural Engineering (NER 2023), 1-5
BibTeX
@inproceedings{thedesignofbrai-2023/4,
title={The design of brainstem interfaces: characterisation of physiological artefacts and implications for closed-loop algorithms},
author={Deli A, Toth R, Zamora M, Zand APD, Green AL et al.},
booktitle={11th International IEEE/EMBS Conference on Neural Engineering (NER)},
pages={1-5},
year = "2023"
}
Bioelectronic Zeitgebers: targeted neuromodulation to re-establish circadian rhythms
Deli A, Zamora M, Fleming J, Zand AD, Benjaber M et al. (2023)
BibTeX
@misc{bioelectronicze-2023/,
title={Bioelectronic Zeitgebers: targeted neuromodulation to re-establish circadian rhythms},
author={Deli A, Zamora M, Fleming J, Zand AD, Benjaber M et al.},
year = "2023"
}
The Design of Brainstem Interfaces: Characterisation of Physiological Artefacts and Implications for Closed-loop Algorithms
Deli A, Toth R, Zamora M, Divanbeighi Zand A, Green A et al. (2023)
BibTeX
@misc{thedesignofbrai-2023/,
title={The Design of Brainstem Interfaces: Characterisation of Physiological Artefacts and Implications for Closed-loop Algorithms},
author={Deli A, Toth R, Zamora M, Divanbeighi Zand A, Green A et al.},
year = "2023"
}
Computationally efficient neural network classifiers for next generation closed loop neuromodulation therapy - a case study in epilepsy
Kavoosi A, Toth R, Benjaber M, Zamora M, Valentin A et al. (2022), 2022 44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC)
BibTeX
@inproceedings{computationally-2022/9,
title={Computationally efficient neural network classifiers for next generation closed loop neuromodulation therapy - a case study in epilepsy},
author={Kavoosi A, Toth R, Benjaber M, Zamora M, Valentin A et al.},
booktitle={44th Annual International Conference of the IEEE Engineering in Medicine & Biology Society (EMBC 2022)},
year = "2022"
}
Computationally efficient neural network classifiers for next generation closed loop neuromodulation therapy -- a case study in epilepsy
Kavoosi A, Toth R, Benjaber M, Zamora M, Valentin A et al. (2022)
BibTeX
@misc{computationally-2022/4,
title={Computationally efficient neural network classifiers for next generation closed loop neuromodulation therapy -- a case study in epilepsy},
author={Kavoosi A, Toth R, Benjaber M, Zamora M, Valentin A et al.},
year = "2022"
}
Embedding digital chronotherapy into bioelectronic medicines
Fleming J, Kremen V, Gilron R, Gregg N, Zamora M et al. (2022), iScience, 25(4)
BibTeX
@article{embeddingdigita-2022/3,
title={Embedding digital chronotherapy into bioelectronic medicines},
author={Fleming J, Kremen V, Gilron R, Gregg N, Zamora M et al.},
journal={iScience},
volume={25},
number={104028},
publisher={Cell Press},
year = "2022"
}
Embedding digital chronotherapy into bioelectronic medicines.
Fleming JE, Kremen V, Gilron R, Gregg NM, Zamora M et al. (2022), iScience, 25(4), 104028
BibTeX
@article{embeddingdigita-2022/3,
title={Embedding digital chronotherapy into bioelectronic medicines.},
author={Fleming JE, Kremen V, Gilron R, Gregg NM, Zamora M et al.},
journal={iScience},
volume={25},
number={ARTN 104028},
pages={104028},
publisher={Elsevier BV},
year = "2022"
}
DyNeuMo Mk-1: Design and pilot validation of an investigational motion-adaptive neurostimulator with integrated chronotherapy.
Zamora M, Toth R, Morgante F, Ottaway J, Gillbe T et al. (2022), Experimental Neurology, 351
BibTeX
@article{dyneumomkdesign-2022/1,
title={DyNeuMo Mk-1: Design and pilot validation of an investigational motion-adaptive neurostimulator with integrated chronotherapy.},
author={Zamora M, Toth R, Morgante F, Ottaway J, Gillbe T et al.},
journal={Experimental Neurology},
volume={351},
number={113977},
publisher={Elsevier},
year = "2022"
}
Case report: Embedding "digital chronotherapy" into medical devices -- A canine validation for controlling status epilepticus through multi-scale rhythmic brain stimulation
Zamora M, Meller S, Kajin F, Sermon JJ, Toth R et al. (2021), Frontiers in Neuroscience, 15
BibTeX
@article{casereportembed-2021/9,
title={Case report: Embedding "digital chronotherapy" into medical devices -- A canine validation for controlling status epilepticus through multi-scale rhythmic brain stimulation},
author={Zamora M, Meller S, Kajin F, Sermon JJ, Toth R et al.},
journal={Frontiers in Neuroscience},
volume={15},
number={734265},
publisher={Frontiers Media},
year = "2021"
}
Embedding digital chronotherapy into medical devices -- A canine validation for controlling status epilepticus through multi-scale rhythmic brain stimulation
Zamora M, Meller S, Kajin F, Sermon JJ, Toth R et al. (2021)
BibTeX
@misc{embeddingdigita-2021/7,
title={Embedding digital chronotherapy into medical devices -- A canine validation for controlling status epilepticus through multi-scale rhythmic brain stimulation},
author={Zamora M, Meller S, Kajin F, Sermon JJ, Toth R et al.},
year = "2021"
}
Circadian and infradian rhythms and deep brain stimulation in status epilepticus - a canine case study
Meller S, Zamora M, Toth R, Wendt K, Kajin F et al. (2021), EPILEPSIA, 62, 262-263
BibTeX
@inproceedings{circadianandinf-2021/,
title={Circadian and infradian rhythms and deep brain stimulation in status epilepticus - a canine case study},
author={Meller S, Zamora M, Toth R, Wendt K, Kajin F et al.},
pages={262-263},
year = "2021"
}
Field experience of well testing using a coriolis-based three-phase flow meter
Henry M, Tombs , Zhou FB & Zamora ME (2015), International Flow Measurement Conference
BibTeX
@inproceedings{fieldexperience-2015/7,
title={Field experience of well testing using a coriolis-based three-phase flow meter},
author={Henry M, Tombs , Zhou FB & Zamora ME},
year = "2015"
}
Drive techniques for a digital flowmeter
Henry M & Zamora ME (2015)
BibTeX
@misc{drivetechniques-2015/4,
title={Drive techniques for a digital flowmeter},
author={Henry M & Zamora ME},
year = "2015"
}
Coriolis mass flow metering for three-phase flow: A case study
Henry M, Tombs M, Zamora M & Zhou F (2013), Flow Measurement and Instrumentation, 30, 112-122
BibTeX
@article{coriolismassflo-2013/4,
title={Coriolis mass flow metering for three-phase flow: A case study},
author={Henry M, Tombs M, Zamora M & Zhou F},
journal={Flow Measurement and Instrumentation},
volume={30},
pages={112-122},
year = "2013"
}
Three-phase flow measurement using coriolis mass flow metering
Henry M, Tombs M, Zhou F & Zamora M (2013), 16th International Flow Measurement Conference 2013, FLOMEKO 2013, 524-527
BibTeX
@inproceedings{threephaseflowm-2013/1,
title={Three-phase flow measurement using coriolis mass flow metering},
author={Henry M, Tombs M, Zhou F & Zamora M},
pages={524-527},
year = "2013"
}
Coriolis-based three-phase flow metering for upstream oil and gas
Henry MP, Tombs MS, Zamora ME, Zhou FB & Casimiro R (2012), The Americas Flow Measurement Conference
BibTeX
@inproceedings{coriolisbasedth-2012/4,
title={Coriolis-based three-phase flow metering for upstream oil and gas},
author={Henry MP, Tombs MS, Zamora ME, Zhou FB & Casimiro R},
year = "2012"
}
US patent no. 7,904,256 B2: Startup techniques for a digital flowmeter
Henry M & Zamora ME (2011)
BibTeX
@misc{uspatentnobstar-2011/3,
title={US patent no. 7,904,256 B2: Startup techniques for a digital flowmeter},
author={Henry M & Zamora ME},
year = "2011"
}
An FPGA implementation of frequency output
Zamora M, Wu H & Henry MP (2009), IEEE Transactions on Industrial Electronics, 56(3), 648-653
BibTeX
@article{anfpgaimplement-2009/4,
title={An FPGA implementation of frequency output},
author={Zamora M, Wu H & Henry MP},
journal={IEEE Transactions on Industrial Electronics},
volume={56},
pages={648-653},
year = "2009"
}
US patent no. 7,509,219 B2: Correcting frequency in flowtube measurements
Henry M & Zamora ME (2009)
BibTeX
@misc{uspatentnobcorr-2009/3,
title={US patent no. 7,509,219 B2: Correcting frequency in flowtube measurements},
author={Henry M & Zamora ME},
year = "2009"
}
US patent no. 7,505,854 B2: Startup techniques for a digital flowmeter
Henry M & Zamora ME (2009)
BibTeX
@misc{uspatentnobstar-2009/3,
title={US patent no. 7,505,854 B2: Startup techniques for a digital flowmeter},
author={Henry M & Zamora ME},
year = "2009"
}
Two-phase flow metering using a large coriolis mass flow meter applied to ship fuel bunkering
Gregory D, West M, Paton R, Casimiro R, Boo S et al. (2008), Measurement and Control, 41(7), 208-212
BibTeX
@article{twophaseflowmet-2008/9,
title={Two-phase flow metering using a large coriolis mass flow meter applied to ship fuel bunkering},
author={Gregory D, West M, Paton R, Casimiro R, Boo S et al.},
journal={Measurement and Control},
volume={41},
pages={208-212},
year = "2008"
}
An FPGA implementation of a digital Coriolis mass flow metering drive system
Zamora M & Henry MP (2008), IEEE Transactions on Industrial Electronics, 55(7), 2820-2831
BibTeX
@article{anfpgaimplement-2008/7,
title={An FPGA implementation of a digital Coriolis mass flow metering drive system},
author={Zamora M & Henry MP},
journal={IEEE Transactions on Industrial Electronics},
volume={55},
pages={2820-2831},
year = "2008"
}
FPGA implementation of frequency output and input using Handel-C
Zamora M & Henry M (2007), IEEE International Symposium on Industrial Electronics, 2313-2318
BibTeX
@inproceedings{fpgaimplementat-2007/12,
title={FPGA implementation of frequency output and input using Handel-C},
author={Zamora M & Henry M},
pages={2313-2318},
year = "2007"
}
US patent no. 7,146,280 B2: Startup and operational techniques for a digital flowmeter
Henry M & Zamora ME (2006)
BibTeX
@misc{uspatentnobstar-2006/12,
title={US patent no. 7,146,280 B2: Startup and operational techniques for a digital flowmeter},
author={Henry M & Zamora ME},
year = "2006"
}
The dynamic performance of a new ultra-fast response Coriolis flow meter
Clark C, Zamora M, Cheesewright R & Henry M (2006), Flow Measurement and Instrumentation, 17(6), 391-398
BibTeX
@article{thedynamicperfo-2006/12,
title={The dynamic performance of a new ultra-fast response Coriolis flow meter},
author={Clark C, Zamora M, Cheesewright R & Henry M},
journal={Flow Measurement and Instrumentation},
volume={17},
pages={391-398},
year = "2006"
}
US patent no. 7,065,455 B2: Correcting frequency in flowtube measurements
Henry M & Zamora ME (2006)
BibTeX
@misc{uspatentnobcorr-2006/6,
title={US patent no. 7,065,455 B2: Correcting frequency in flowtube measurements},
author={Henry M & Zamora ME},
year = "2006"
}
US patent no. 6,950,760 B2: Startup and operational techniques for a digital flowmeter
Henry M & Zamora ME (2005)
BibTeX
@misc{uspatentnobstar-2005/9,
title={US patent no. 6,950,760 B2: Startup and operational techniques for a digital flowmeter},
author={Henry M & Zamora ME},
year = "2005"
}
A radically new dynamic response capability for Coriolis flow meters
Clark C, Cheesewright R, Wang S, Henry M, Zamora M et al. (2005), Sensors and Actuators, A: Physical, 123-124, 54-62
BibTeX
@article{aradicallynewdy-2005/9,
title={A radically new dynamic response capability for Coriolis flow meters},
author={Clark C, Cheesewright R, Wang S, Henry M, Zamora M et al.},
journal={Sensors and Actuators, A: Physical},
volume={123-124},
pages={54-62},
year = "2005"
}
The dynamic response of Coriolis mass flow meters: Theory and applications
Henry M, Zamora M, Clark C, Cheesewright B & Mattar W (2004), Technical Papers of ISA, 454, 31-43
BibTeX
@inproceedings{thedynamicrespo-2004/12,
title={The dynamic response of Coriolis mass flow meters: Theory and applications},
author={Henry M, Zamora M, Clark C, Cheesewright B & Mattar W},
pages={31-43},
year = "2004"
}
Generation of frequency output for instrumentation applications using digital hardware
Zamora M, Henry M & Peter C (2003), Sensor Review, 23(2), 143-149
BibTeX
@article{generationoffre-2003/5,
title={Generation of frequency output for instrumentation applications using digital hardware},
author={Zamora M, Henry M & Peter C},
journal={Sensor Review},
volume={23},
pages={143-149},
year = "2003"
}
Remote condition monitoring and validation of railway points
Zhou F, Archer N, Bowles J, Duta M, Henry M et al. (2002), Computing and Control Engineering Journal, 13(5), 221-230
BibTeX
@article{remotecondition-2002/1,
title={Remote condition monitoring and validation of railway points},
author={Zhou F, Archer N, Bowles J, Duta M, Henry M et al.},
journal={Computing and Control Engineering Journal},
volume={13},
pages={221-230},
year = "2002"
}
Remote condition monitoring and validation of railway points
Zhou F, Archer N, Bowles J, Duta M, Henry M et al. (2002), COMPUTING & CONTROL ENGINEERING JOURNAL, 13(5), 221-230
BibTeX
@article{remotecondition-2002/,
title={Remote condition monitoring and validation of railway points},
author={Zhou F, Archer N, Bowles J, Duta M, Henry M et al.},
journal={COMPUTING & CONTROL ENGINEERING JOURNAL},
volume={13},
pages={221-230},
year = "2002"
}
DyNeuMo Mk-2: an investigational circadian-locked neuromodulator with responsive stimulation for applied chronobiology
Toth R, Zamora M, Knowles C, Sharott A & Denison T (0), Proceedings of the 2020 IEEE International Conference on Systems, Man and Cybernetics
BibTeX
@inproceedings{dyneumomkaninve-/,
title={DyNeuMo Mk-2: an investigational circadian-locked neuromodulator with responsive stimulation for applied chronobiology},
author={Toth R, Zamora M, Knowles C, Sharott A & Denison T},
booktitle={IEEE Systems, Man, Cybernetics}
}
DyNeuMo Mk-1: Design and Pilot Validation of an Investigational Motion-Adaptive Neurostimulator with Integrated Chronotherapy
Zamora M, Toth R, Morgante F, Ottaway J, Gillbe T et al. (0)
BibTeX
@misc{dyneumomkdesign-/,
title={DyNeuMo Mk-1: Design and Pilot Validation of an Investigational Motion-Adaptive Neurostimulator with Integrated Chronotherapy},
author={Zamora M, Toth R, Morgante F, Ottaway J, Gillbe T et al.}
}