A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection

Research output: Contribution to conferencePaper

Standard

A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection. / Crispin-Bailey, Christopher; Hollier, Garry Phillip; Moulds, Anthony; Freeman, Michael John; Fargus, Alexander Grindell; Austin, James; Lampert, Thomas Andrew.

2014. 84-92 Paper presented at Sensordevices 2014 : The Fifth International Conference on Sensor Device Technologies and Applications, lisbon, Portugal.

Research output: Contribution to conferencePaper

Harvard

Crispin-Bailey, C, Hollier, GP, Moulds, A, Freeman, MJ, Fargus, AG, Austin, J & Lampert, TA 2014, 'A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection' Paper presented at Sensordevices 2014 : The Fifth International Conference on Sensor Device Technologies and Applications, lisbon, Portugal, 16/11/14 - 20/11/14, pp. 84-92.

APA

Crispin-Bailey, C., Hollier, G. P., Moulds, A., Freeman, M. J., Fargus, A. G., Austin, J., & Lampert, T. A. (2014). A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection. 84-92. Paper presented at Sensordevices 2014 : The Fifth International Conference on Sensor Device Technologies and Applications, lisbon, Portugal.

Vancouver

Crispin-Bailey C, Hollier GP, Moulds A, Freeman MJ, Fargus AG, Austin J et al. A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection. 2014. Paper presented at Sensordevices 2014 : The Fifth International Conference on Sensor Device Technologies and Applications, lisbon, Portugal.

Author

Crispin-Bailey, Christopher ; Hollier, Garry Phillip ; Moulds, Anthony ; Freeman, Michael John ; Fargus, Alexander Grindell ; Austin, James ; Lampert, Thomas Andrew. / A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection. Paper presented at Sensordevices 2014 : The Fifth International Conference on Sensor Device Technologies and Applications, lisbon, Portugal.9 p.

Bibtex - Download

@conference{f2a3a9e51ac94c9e842a6e33c1ec7403,
title = "A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection",
abstract = "An improved miniature biosignal data sensor and recorder device is described, (NAT-1-4G) with 3-axis accelerometer, and a 2K Sa/sec all-channel recording capacity of 24 hours or more with a single zinc-air battery cell. Like the previous NAT-1 prototype device, this measures less than 18x22x10mm and weighs less than 2.3 grams, including the battery. In this paper we describe the device in detail, and introduce the presentation of tremor data measurement captured in the context of Parkinson’s disease fore-arm monitoring. The NAT-1-4G device has already achieved translation to commercialization and we expect it to become commercially available in the near future.",
author = "Christopher Crispin-Bailey and Hollier, {Garry Phillip} and Anthony Moulds and Freeman, {Michael John} and Fargus, {Alexander Grindell} and James Austin and Lampert, {Thomas Andrew}",
year = "2014",
month = "11",
day = "16",
language = "English",
pages = "84--92",
note = "Sensordevices 2014 : The Fifth International Conference on Sensor Device Technologies and Applications ; Conference date: 16-11-2014 Through 20-11-2014",

}

RIS (suitable for import to EndNote) - Download

TY - CONF

T1 - A Miniature Multisensor Biosignal Data Recorder and its evaluation for unsupervised Parkinson's Disease Data Collection

AU - Crispin-Bailey, Christopher

AU - Hollier, Garry Phillip

AU - Moulds, Anthony

AU - Freeman, Michael John

AU - Fargus, Alexander Grindell

AU - Austin, James

AU - Lampert, Thomas Andrew

PY - 2014/11/16

Y1 - 2014/11/16

N2 - An improved miniature biosignal data sensor and recorder device is described, (NAT-1-4G) with 3-axis accelerometer, and a 2K Sa/sec all-channel recording capacity of 24 hours or more with a single zinc-air battery cell. Like the previous NAT-1 prototype device, this measures less than 18x22x10mm and weighs less than 2.3 grams, including the battery. In this paper we describe the device in detail, and introduce the presentation of tremor data measurement captured in the context of Parkinson’s disease fore-arm monitoring. The NAT-1-4G device has already achieved translation to commercialization and we expect it to become commercially available in the near future.

AB - An improved miniature biosignal data sensor and recorder device is described, (NAT-1-4G) with 3-axis accelerometer, and a 2K Sa/sec all-channel recording capacity of 24 hours or more with a single zinc-air battery cell. Like the previous NAT-1 prototype device, this measures less than 18x22x10mm and weighs less than 2.3 grams, including the battery. In this paper we describe the device in detail, and introduce the presentation of tremor data measurement captured in the context of Parkinson’s disease fore-arm monitoring. The NAT-1-4G device has already achieved translation to commercialization and we expect it to become commercially available in the near future.

M3 - Paper

SP - 84

EP - 92

ER -