VibMilk: Non-intrusive milk spoilage detection via smartphone vibration

VibMilk: Non-intrusive milk spoilage detection via smartphone vibration

Quantifying the chemical process of milk spoilage is challenging due to the need for bulky, expensive equipment that is not user-friendly for milk producers or customers. This lack of a convenient and accurate milk spoilage detection system can cause two significant issues. First, people who consume...

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Bibliographic Details
Main Authors: WU, Yuezhong, SONG, Wei, WANG, Yanxiang, MA, Dong, XU, Weitao, HASSAN, Mahbub, HU, Wen
Format: text
Language:English
Published: Institutional Knowledge at Singapore Management University 2024
Subjects:
Dairy products
Fats
Food Safety
Internet of Things
Liquid Testing
Liquids
Microorganisms
Milk Spoilage
Neural Networks
Non-intrusive Sensing
Proteins
Smartphone
Vibration
Vibrations
Food Science
Software Engineering
Online Access:https://ink.library.smu.edu.sg/sis_research/8749
https://ink.library.smu.edu.sg/context/sis_research/article/9752/viewcontent/VibMilk_IoTJ_av.pdf
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Institution: Singapore Management University
Language: English
Description
Summary:Quantifying the chemical process of milk spoilage is challenging due to the need for bulky, expensive equipment that is not user-friendly for milk producers or customers. This lack of a convenient and accurate milk spoilage detection system can cause two significant issues. First, people who consume spoiled milk may experience serious health problems. Secondly, milk manufacturers typically provide a “best before” date to indicate freshness, but this date only shows the highest quality of the milk, not the last day it can be safely consumed, leading to significant milk waste. A practical and efficient solution to this problem is proposed in this paper: a vibration-based milk spoilage detection method called VibMilk that utilizes the ubiquitous vibration motor and Inertial Measurement Unit (IMU) of off-the-shelf smartphones. The method detects spoilage based on the fact that the milk’s physical properties change, inducing different vibration responses at various stages of degradation. Using the InceptionTime deep learning model, VibMilk achieves 98.35% accuracy in detecting milk spoilage across 23 different stages, from fresh (pH = 6.6) to fully spoiled (pH = 4.4).

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