AI Article Synopsis
- Forensic entomology uses fly species on corpses to help estimate the time of death, but current identification methods are labor-intensive and costly due to a lack of specialists.
- This paper suggests using computer vision and deep learning techniques to classify flies into specific families and genera, which could streamline the process and improve accuracy, especially when using drones for remote searches.
- Two deep learning models, MobileNetV3-Large and VGG19, were evaluated, achieving high accuracy rates of 99.39% and 99.79%, with MobileNetV3-Large being faster in processing time, indicating great potential for these technologies in forensic and emergency situations.
Article Abstract
Forensic entomology can help estimate the postmortem interval in criminal investigations. In particular, forensically important fly species that can be found on a body and in its environment at various times after death provide valuable information. However, the current method for identifying fly species is labor intensive, expensive, and may become more serious in view of a shortage of specialists. In this paper, we propose the use of computer vision and deep learning to classify adult flies according to three different families, Calliphoridae, Sarcophagidae, Rhiniidae, and their corresponding genera Chrysomya, Lucilia, Sarcophaga, Rhiniinae, and Stomorhina, which can lead to efficient and accurate estimation of time of death, for example, with the use of camera-equipped drones. The development of such a deep learning model for adult flies may be particularly useful in crisis situations, such as natural disasters and wars, when people disappear. In these cases drones can be used for searching large areas. In this study, two models were evaluated using transfer learning with MobileNetV3-Large and VGG19. Both models achieved a very high accuracy of 99.39% and 99.79%. In terms of inference time, the MobileNetV3-Large model was faster with an average time per step of 1.036 seconds than the VGG19 model, which took 2.066 seconds per step. Overall, the results highlight the potential of deep learning models for the classification of fly species in forensic entomology and search and rescue operations.
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|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11620585 | PMC |
| http://journals.plos.org/plosone/article?id=10.1371/journal.pone.0314533 | PLOS |
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