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Your search keyword '"Gagnon, Stephane"' showing total 13 results
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13 results on '"Gagnon, Stephane"'

1. Autocorrelated Differential Algorithm for Real-Time Seismocardiography Analysis.

Author

D'Mello, Yannick, Skoric, James, Xu, Shicheng, Akhras, Megan, Roche, Philip J. R., Lortie, Michel A., Gagnon, Stephane, and Plant, David V.

Abstract

We present a novel seismocardiography (SCG)-based approach for real-time cardio-respiratory activity measurement called the Autocorrelated Differential Algorithm (ADA). Measurements were performed on ten male subjects in the supine position for three 7-minute-long sets each, corresponding to 14,619 heartbeats. The ADA utilized temporal variations, windowing, and autocorrelation to produce physiological measurements corresponding to heart rate (HR), and left ventricular ejection time, and estimations of respiration rate, volume, and phase. The versatility of the ADA was investigated in two contexts: physical exertion and heart rate variability. The accuracy of HR measurements at a sampling frequency of 200 Hz resulted in a correlation coefficient ($r^{2}$) of 0.9808 when compared with a manual annotation of all datasets. Its reproducibility was tested on externally obtained SCG and electrocardiography datasets, which produced an $r^{2}$ of 0.8224. The accuracy and computational time were also characterized by different sampling frequencies to quantify performance. The recommended sampling frequency is 200 Hz corresponding to a computation time of 0.05 s per instantaneous measurement using a standard desktop computer. The ADA delivered real-time SCG measurements with a refresh rate that was dependent on the computational time per measurement, which could be decreased by lowering the sampling frequency. The presented algorithm offers a novel tool toward real-time physiological monitoring in clinical and everyday scenarios. [ABSTRACT FROM AUTHOR]

Published
2019
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7. Electrical Impedance Tomographic Imaging of Buried Landmines.

Author

Church, Philip, McFee, John Elton, Gagnon, Stephane, and Wort, Philip

Subjects
ELECTRICAL impedance tomography, FIELD research, ELECTRODES, LAND mines, MINE detection (Military explosives), ANTITANK weapons
Abstract

A prototype confirmation landmine detector, based on electrical impedance tomography (EIT), which can operate under realistic environmental conditions, has been developed. Laboratory and field experiments demonstrated that it is possible to reliably reconstruct, on the scale of the electrode spacing (ES) (in width and depth), conductivity perturbations due to a shallow buried antitank mine or a similar object in a variety of soils (black earth, clay, sand) down to depths equal to the dimensions of the object (1–1.5 ES, equivalent to 14–21 cm for a 64-electrode 1 m × 1 m array). These represent the first EIT images of real landmines computed from measured data. Occasional problems were encountered with the electrical contact in very dry soils, with excessive insertion pressure being required for reliable electrode contact. However, poor contacts could be detected, and the offending probe was either reinserted or compensation was applied. A matched filter detection algorithm based on a replica of the object of interest was developed and shown to effectively reduce the false alarm rate of the detector. EIT is especially suited for wet lands and underwater, where other mine detectors perform poorly. Experiments in a water-and sediment-filled tank have demonstrated that detection of minelike objects in such an environment with a submerged array is feasible. These experiments represent the first EIT measurements of targets using an electrode array submerged underwater. EIT may also have an application in locating intact mines in the berms formed by mine-clearing equipment. The EIT sensor head could be made cheaply enough to be disposable and remotely inserted to improve safety. [ABSTRACT FROM AUTHOR]

Published
2006
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9. Real-Time Cardiac Beat Detection and Heart Rate Monitoring from Combined Seismocardiography and Gyrocardiography.

Author

D'Mello, Yannick, Skoric, James, Xu, Shicheng, Roche, Philip J. R., Lortie, Michel, Gagnon, Stephane, and Plant, David V.

Subjects
HEART beat, HEART rate monitors, SUPINE position, EXERCISE, CARDIAC patients
Abstract

Cardiography is an indispensable element of health care. However, the accessibility of at-home cardiac monitoring is limited by device complexity, accuracy, and cost. We have developed a real-time algorithm for heart rate monitoring and beat detection implemented in a custom-built, affordable system. These measurements were processed from seismocardiography (SCG) and gyrocardiography (GCG) signals recorded at the sternum, with concurrent electrocardiography (ECG) used as a reference. Our system demonstrated the feasibility of non-invasive electro-mechanical cardiac monitoring on supine, stationary subjects at a cost of $100, and with the SCG–GCG and ECG algorithms decoupled as standalone measurements. Testing was performed on 25 subjects in the supine position when relaxed, and when recovering from physical exercise, to record 23,984 cardiac cycles at heart rates in the range of 36–140 bpm. The correlation between the two measurements had r2 coefficients of 0.9783 and 0.9982 for normal (averaged) and instantaneous (beat identification) heart rates, respectively. At a sampling frequency of 250 Hz, the average computational time required was 0.088 s per measurement cycle, indicating the maximum refresh rate. A combined SCG and GCG measurement was found to improve accuracy due to fundamentally different noise rejection criteria in the mutually orthogonal signals. The speed, accuracy, and simplicity of our system validated its potential as a real-time, non-invasive, and affordable solution for outpatient cardiac monitoring in situations with negligible motion artifact. [ABSTRACT FROM AUTHOR]

Published
2019
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12. The Next Web Apps Architecture: Challenges for SaaS Vendors.

Author

Gagnon, Stephane, Nabelsi, Veronique, Passerini, Katia, and Cakici, Kemal

Subjects
WEB-based user interfaces, BUSINESS licenses, BUSINESS models, INDUSTRIAL organization (Economic theory), QUALITY of service, SUPPORT services (Management)
Abstract

Many vendors dream about making it big in the cloud, but licensing Web apps is a fiercely competitive market with rampant risks. Software as a service must overcome several challenges to prove itself as a successful business model. [ABSTRACT FROM AUTHOR]

Published
2011
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13. Application of Expression Microarrays to the Investigation of Fetal Lung Development in a Glucocorticoid Receptor Knockout Mouse Model.

Author

Kaplan, Feige, MacRae, Tara, Comber, Julie, Gagnon, Stephane, Sladek, Robert, Hudson, Thomas J., and Sweezey, Neil B.

Subjects
LUNGS, FETUS, GLUCOCORTICOID receptors, DEVELOPMENTAL biology, DNA microarrays
Abstract

Reports on the use of complementary DNA microarrays (n=3) and Northern blot analysis to identify developmentally regulated genes that are differentially expressed in the lung at fetal day 18 (GRhypo-18) and postnatal day 1 in GRWT and GRhypo mice. Findings that contribute to knowledge about the developmental processes that link glucocorticoid stimulation to critical downstream events in fetal lung maturation.

Published
2002
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