Deep Neural Network-Based Visual Feedback System for Nasopharyngeal Swab Sampling

Authors
Suhun JungYonghwan, MoonKim JeongryulKim, Keri
Issue Date
2023-10
Publisher
Multidisciplinary Digital Publishing Institute (MDPI)
Citation
Sensors, v.23, no.20
Abstract
During the 2019 coronavirus disease pandemic, robotic-based systems for swab sampling were developed to reduce burdens on healthcare workers and their risk of infection. Teleoperated sampling systems are especially appreciated as they fundamentally prevent contact with suspected COVID-19 patients. However, the limited field of view of the installed cameras prevents the operator from recognizing the position and deformation of the swab inserted into the nasal cavity, which highly decreases the operating performance. To overcome this limitation, this study proposes a visual feedback system that monitors and reconstructs the shape of an NP swab using augmented reality (AR). The sampling device contained three load cells and measured the interaction force applied to the swab, while the shape information was captured using a motion-tracking program. These datasets were used to train a one-dimensional convolution neural network (1DCNN) model, which estimated the coordinates of three feature points of the swab in 2D X-Y plane. Based on these points, the virtual shape of the swab, reflecting the curvature of the actual one, was reconstructed and overlaid on the visual display. The accuracy of the 1DCNN model was evaluated on a 2D plane under ten different bending conditions. The results demonstrate that the x-values of the predicted points show errors of under 0.590 mm from P0, while those of P1 and P2 show a biased error of about -1.5 mm with constant standard deviations. For the y-values, the error of all feature points under positive bending is uniformly estimated with under 1 mm of difference, when the error under negative bending increases depending on the amount of deformation. Finally, experiments using a collaborative robot validate its ability to visualize the actual swab's position and deformation on the camera image of 2D and 3D phantoms.
Keywords
fiducial marker; augmented reality; 1-dimensional convolution neural network; nasopharyngeal swab testing; load cell
ISSN
1424-8220
URI
https://pubs.kist.re.kr/handle/201004/79789
DOI
10.3390/s23208443
Appears in Collections:
KIST Article > 2023
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