AI Article Synopsis
- Hyperspectral imaging (HSI) is being used in the medical field for cancer detection, initially with rigid endoscopy and now evolving to flexible endoscopy for better access to difficult areas.
- The use of flexible endoscopes introduces a honeycomb pattern that interferes with imaging, making it crucial to remove this pattern without losing important data on pixel variations.
- A new filtering technique has been developed that effectively eliminates the honeycomb pattern, enhancing classification accuracy while retaining essential image details when comparing it to traditional methods.
Article Abstract
Hyperspectral imaging (HSI) is increasingly gaining acceptance in the medical field. Up until now, HSI has been used in conjunction with rigid endoscopy to detect cancer in vivo. The logical next step is to pair HSI with flexible endoscopy, since it improves access to hard-to-reach areas. While the flexible endoscope's fiber optic cables provide the advantage of flexibility, they also introduce an interfering honeycomb-like pattern onto images. Due to the substantial impact this pattern has on locating cancerous tissue, it must be removed before the HS data can be further processed. Thereby, the loss of information is to minimize avoiding the suppression of small-area variations of pixel values. We have developed a system that uses flexible endoscopy to record HS cubes of the larynx and designed a special filtering technique to remove the honeycomb-like pattern with minimal loss of information. We have confirmed its feasibility by comparing it to conventional filtering techniques using an objective metric and by applying unsupervised and supervised classifications to raw and pre-processed HS cubes. Compared to conventional techniques, our method successfully removes the honeycomb-like pattern and considerably improves classification performance, while preserving image details.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5017453 | PMC |
| http://dx.doi.org/10.3390/s16081288 | DOI Listing |
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