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Colorimetric assays are an important tool in point-of-care testing that offers several advantages to traditional testing methods such as rapid response times and inexpensive costs. A factor that currently limits the portability and accessibility of these assays are methods that can objectively determine the results of these assays. Current solutions consist of creating a test reader that standardizes the conditions the strip is under before being measured in some way. However, this increases the cost and decreases the portability of these assays. The focus of this study is to create a machine learning algorithm that can objectively determine results of colorimetric assays under varying conditions. To ensure the flexibility of a model to several types of colorimetric assays, three models were trained on the same convolutional neural network with different datasets. The images these models are trained on consist of positive and negative images of ETG, fentanyl, and HPV Antibodies test strips taken under different lighting and background conditions. A fourth model is trained on an image set composed of all three strip types. The results from these models show it is able to predict positive and negative results to a high level of accuracy.
- Fisher, Rachel (Author)
- Blain Christen, Jennifer (Thesis director)
- Anderson, Karen (Committee member)
- School of Life Sciences (Contributor)
- Harrington Bioengineering Program (Contributor)
- Barrett, The Honors College (Contributor)
- 2021-04-17 12:26:49
- 2021-08-11 04:09:57
- 3 years 2 months ago