Journal of the Society of Agricultural Structures, Japan
Online ISSN : 2186-0122
Print ISSN : 0388-8517
ISSN-L : 0388-8517
Automatic Detection of Pig Sneeze Using a Small Size Acoustic Features Detectable in a Different Recording Environment
Misaki MITOTakuya AOKITakuji KAWAGISHIKoichi MIZUTANI Keiichi ZEMPONaoto WAKATSUKIYuka MAEDANobuhiro TAKEMAETakehiko SAITO
Author information
JOURNAL OPEN ACCESS

2019 Volume 50 Issue 4 Pages 146-157

Details
Abstract
The number of sneezing increase as swine influenza infection symptom in an early stage. Collecting many sneezing sounds of infected pigs is hard; sneezing classifier used small size acoustic features is necessary. In previous research, F-measure (of classifying accuracy) was about 60 % only, moreover, comparative evaluation has not conducted in a different environment and different acoustic features. The purpose of this paper is developing a pig sneezing classifier detectable in a different recording environment on high performance. We recorded a video and acoustic signal in multiple positions for 2 weeks after we infected pigs with swine influenza. In the experiment, we used multiple kinds of influenza virus. From the recorded acoustic signal, we detected 74533 samples of acoustic events automatically under a decided detection level. We assigned labels using with a movie for a part of acoustic events; we collected acoustic events including 144 sneezes. For acoustic events, we extracted a variety of acoustic features, and we evaluated classification performance using a classifier based on Support Vector Machine. As a result, developed classifier’s F-measure is 92.8 %, and it is very higher than the previous method. In this case, the classifier’s acoustic features are Mel Frequency Cepstral Coefficients, a feature explained spectral rising, and frequency change in a low-frequency band. In addition, trained classifier detected 3764 sneezes. Consequently, we developed high-performance sneezing classifier using small size acoustic features for detectable in a different recording environment.
Content from these authors
© 2019 Copyright Clearance Center, Inc.

This article is licensed under a Creative Commons [Attribution 4.0 International] license.
https://creativecommons.org/licenses/by/4.0/
Previous article
feedback
Top