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Main Authors: Liu, Yixin, Guo, Jiaxin, Dong, Jieyang, Jiang, Luoqian, Ouyang, Haoyuan
Format: Preprint
Published: 2021
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Online Access:https://arxiv.org/abs/2107.05465
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author Liu, Yixin
Guo, Jiaxin
Dong, Jieyang
Jiang, Luoqian
Ouyang, Haoyuan
author_facet Liu, Yixin
Guo, Jiaxin
Dong, Jieyang
Jiang, Luoqian
Ouyang, Haoyuan
contents As infamous invaders to the North American ecosystem, the Asian giant hornet (Vespa mandarinia) is devastating not only to native bee colonies, but also to local apiculture. One of the most effective way to combat the harmful species is to locate and destroy their nests. By mobilizing the public to actively report possible sightings of the Asian giant hornet, the governmentcould timely send inspectors to confirm and possibly destroy the nests. However, such confirmation requires lab expertise, where manually checking the reports one by one is extremely consuming of human resources. Further given the limited knowledge of the public about the Asian giant hornet and the randomness of report submission, only few of the numerous reports proved positive, i.e. existing nests. How to classify or prioritize the reports efficiently and automatically, so as to determine the dispatch of personnel, is of great significance to the control of the Asian giant hornet. In this paper, we propose a method to predict the priority of sighting reports based on machine learning. We model the problem of optimal prioritization of sighting reports as a problem of classification and prediction. We extracted a variety of rich features in the report: location, time, image(s), and textual description. Based on these characteristics, we propose a classification model based on logistic regression to predict the credibility of a certain report. Furthermore, our model quantifies the impact between reports to get the priority ranking of the reports. Extensive experiments on the public dataset from the WSDA (the Washington State Department of Agriculture) have proved the effectiveness of our method.
format Preprint
id arxiv_https___arxiv_org_abs_2107_05465
institution arXiv
publishDate 2021
record_format arxiv
spellingShingle Priority prediction of Asian Hornet sighting report using machine learning methods
Liu, Yixin
Guo, Jiaxin
Dong, Jieyang
Jiang, Luoqian
Ouyang, Haoyuan
Computation and Language
Multimedia
As infamous invaders to the North American ecosystem, the Asian giant hornet (Vespa mandarinia) is devastating not only to native bee colonies, but also to local apiculture. One of the most effective way to combat the harmful species is to locate and destroy their nests. By mobilizing the public to actively report possible sightings of the Asian giant hornet, the governmentcould timely send inspectors to confirm and possibly destroy the nests. However, such confirmation requires lab expertise, where manually checking the reports one by one is extremely consuming of human resources. Further given the limited knowledge of the public about the Asian giant hornet and the randomness of report submission, only few of the numerous reports proved positive, i.e. existing nests. How to classify or prioritize the reports efficiently and automatically, so as to determine the dispatch of personnel, is of great significance to the control of the Asian giant hornet. In this paper, we propose a method to predict the priority of sighting reports based on machine learning. We model the problem of optimal prioritization of sighting reports as a problem of classification and prediction. We extracted a variety of rich features in the report: location, time, image(s), and textual description. Based on these characteristics, we propose a classification model based on logistic regression to predict the credibility of a certain report. Furthermore, our model quantifies the impact between reports to get the priority ranking of the reports. Extensive experiments on the public dataset from the WSDA (the Washington State Department of Agriculture) have proved the effectiveness of our method.
title Priority prediction of Asian Hornet sighting report using machine learning methods
topic Computation and Language
Multimedia
url https://arxiv.org/abs/2107.05465