用于鸡健康评估的现场粪便图像分类系统:概念验证

IF 0.8 4区 农林科学 Q4 AGRICULTURAL ENGINEERING
Guoming Li, Richard S Gates, Brett C. Ramirez
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引用次数: 0

摘要

开发了一款嵌入智能移动设备的移动应用程序,用于基于粪便图像的现场鸡健康评估。将训练好的深度学习图像分类模型编程到应用程序中,对感染球虫病、沙门氏菌病和新城疫的健康鸟类和不健康鸟类进行分类。动物饲养员可以捕捉农场的粪便图像,将其上传到移动设备上开发的应用程序中,并在每天的畜群检查中收到健康评估结果。该研究证明了一个成功的概念验证系统,但需要进一步的工作来巩固系统的性能。摘要快速和准确的鸡健康评估可以帮助生产者及时做出决策,减少疾病传播,改善动物福利,减少经济损失。本研究的目的是开发和评估一个概念验证移动应用系统,以帮助饲养员在日常检查鸡群期间评估鸡的健康状况。建立了一个计算机服务器来分配不同使用凭证的用户,并接收上传的粪便图像。一个包含健康和不健康鸟类(感染球虫病、沙门氏菌和新城疫)粪便图像的数据集被用于分类模型的开发。通过对6种模型的比较评价,选择了添加人工神经网络层的改进MobileNetV2模型。将开发的模型嵌入到本地服务器中进行图像分类。开发并部署了一个应用程序,允许在移动设备上使用该应用程序的用户将粪便图像上传到服务器上托管的网站,并接收模型处理的结果。健康状态被传回给用户,并可与生产经理共享。该系统对疾病的识别准确率达到90%以上,整个操作过程不到1秒。这一概念验证证明了基于粪便图像进行移动家禽健康评估的潜在框架的可行性。然而,需要进一步发展,通过收集家禽业中各种遗传品系、年龄、饲料成分、住房背景和地板类型的粪便图像,扩大对不同生产系统的适用性,并提高系统性能。关键词:人工智能,球虫病,新城疫病,沙门氏菌,软件开发
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An On-Site Feces Image Classifier System for Chicken Health Assessment: A Proof of Concept
Highlights A mobile application embedded onto smart mobile devices was developed for on-site chicken health assessment based on fecal images. A trained deep learning image classification model was programmed into the application for classifying healthy birds or unhealthy birds infected with Coccidiosis , Salmonella , and Newcastle disease . Animal caretakers can capture fecal images on farms, upload them to the developed application on their mobile devices, and receive health assessment results during daily flock inspection. The study demonstrates a successful proof-of-concept system but requires further work for consolidating system performance. Abstract. Rapid and accurate chicken health assessment can assist producers in making timely decisions, reducing disease transmission, improving animal welfare, and decreasing economic loss. The objective of this research was to develop and evaluate a proof-of-concept mobile application system to assist caretakers in assessing chicken health during their daily flock inspections. A computer server was built to assign users with different usage credentials and receive uploaded fecal images. A dataset containing fecal images from healthy and unhealthy birds (infected with Coccidiosis, Salmonella, and Newcastle disease) was used for classification model development. The modified MobileNetV2 model with additional layers of artificial neural networks was selected after a comparative evaluation of six models. The developed model was embedded into a local server for image classification. An application was developed and deployed, allowing a user with the application on a mobile device to upload a fecal image to a website hosted on the server and receive results processed by the model. Health status is transferred back to the user and can be shared with production managers. The system achieved over 90% accuracy for identifying diseases, and the whole operational procedure took less than one second. This proof-of-concept demonstrates the feasibility of a potential framework for mobile poultry health assessment based on fecal images. However, further development is needed to expand applicability to different production systems through the collection of fecal images from various genetic lines, ages, feed components, housing backgrounds, and flooring types in the poultry industry and improve system performance. Keywords: Artificial intelligence, Coccidiosis, Newcastle disease, Salmonella, Software development.
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来源期刊
Applied Engineering in Agriculture
Applied Engineering in Agriculture 农林科学-农业工程
CiteScore
1.80
自引率
11.10%
发文量
69
审稿时长
6 months
期刊介绍: This peer-reviewed journal publishes applications of engineering and technology research that address agricultural, food, and biological systems problems. Submissions must include results of practical experiences, tests, or trials presented in a manner and style that will allow easy adaptation by others; results of reviews or studies of installations or applications with substantially new or significant information not readily available in other refereed publications; or a description of successful methods of techniques of education, outreach, or technology transfer.
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