eprintid: 10056971
rev_number: 19
eprint_status: archive
userid: 608
dir: disk0/10/05/69/71
datestamp: 2018-09-28 09:52:53
lastmod: 2020-02-17 05:02:49
status_changed: 2018-09-28 09:52:53
type: article
metadata_visibility: show
creators_name: Zafeiropoulos, GC
creators_name: Papadimitriou, KI
creators_name: Drakakis, EM
title: Performance ANd ACcuracy in Electrical BioActivity Recordings (PANACEA): A high-performance, wireless, multi-instrument for potentiometric and amperometric recording of biosignals
ispublished: pub
divisions: UCL
divisions: A01
divisions: B04
divisions: C05
keywords: High-performance, Wireless, Biosignal, Potentiometry,
Amperometry, EEG, ECoG, ECG, EMG, ZigBee Protocol
note: This version is the author accepted manuscript. For information on re-use, please refer to the publisher’s terms and conditions.
abstract: This paper presents the design, testing and quantitative evaluation of a high-performance, low-power, portable multi-instrument (107×79mm2), capable of recording important biosignals accurately and in real-time. This highly versatile system has the ability to transmit the captured bio-data back to the user either in a wired (HDMI cable) or wireless (ZigBee protocol) manner, depending on the targeted application. The biological information that can be recorded by the proposed instrument spans a wide range of bio-potentials and bio-amperometric signals. The proposed instrument is split into two complementary “sub-instruments” where one is operating as the front-end device, responsible for the accurate, low-noise signal detection and transmission, while the second “sub-instrument” is operating as the “base station” responsible for the collection and further processing of the captured data. For wired transmission (e.g to the user's PC) the front end module can operate independently, however, for wireless transmission both “sub-instruments” are required (transmitter-base station architecture). For wireless transmission, each of the two “sub-instruments” is equipped with dedicated 2 Mbps ZigBee radio transceivers and both parts are controlled by a small area embedded FPGA module. The front-end device features two distinct sections: (a) a current/voltage to voltage section comprising six potentiometry and two transimpedance amplifier-based amperometry channels. These eight in total analogue channels are converted into digital form by means of a 24 bit, voltage input, Analogue-to-Digital Converter (ADC) and (b) a four channel, commercially available switched-capacitor-based ADC Integrated Circuit (IC), which converts input charge to digital data with 16 or 20 bit resolution at 3.125 kSPS. The paper presents a plethora of measured wired and wireless experimental results, corresponding to most well-known biomedical and other biological/physical signals including: EEG, ECoG, EMG, ECG, PPG, intracardiac atrial fibrillation (AF) signals, cell media/tissue biopotential, drosophila H1-cell spiking signals and pH sensing using commercially available electrodes. The portable/wearable poly-instrument is suitable for Intensive Care Unit (ICU), High Dependancy Unit (HDU) as well as home monitoring.
date: 2018-12-01
date_type: published
official_url: http://dx.doi.org/10.1016/j.measurement.2018.05.115
oa_status: green
full_text_type: other
language: eng
primo: open
primo_central: open_green
article_type_text: Journal Article
verified: verified_manual
elements_id: 1570471
doi: 10.1016/j.measurement.2018.05.115
lyricists_name: Papadimitriou, Konstantinos
lyricists_id: KPAPA49
actors_name: Papadimitriou, Konstantinos
actors_name: Turnbull, Sarah
actors_id: KPAPA49
actors_id: SLTUR91
actors_role: owner
actors_role: impersonator
full_text_status: public
publication: Measurement: Journal of the International Measurement Confederation
volume: 129
pagerange: 128-141
issn: 0263-2241
citation:        Zafeiropoulos, GC;    Papadimitriou, KI;    Drakakis, EM;      (2018)    Performance ANd ACcuracy in Electrical BioActivity Recordings (PANACEA): A high-performance, wireless, multi-instrument for potentiometric and amperometric recording of biosignals.                   Measurement: Journal of the International Measurement Confederation , 129    pp. 128-141.    10.1016/j.measurement.2018.05.115 <https://doi.org/10.1016/j.measurement.2018.05.115>.       Green open access   
 
document_url: https://discovery.ucl.ac.uk/id/eprint/10056971/1/Manuscript_Accepted_Preprint.pdf