PRECONDITIONS FOR THE CREATION OF A MEAT FRESHNESS CONTROL AND IDENTIFICATION SYSTEM

Контрольно-измерительная техника Pub Date : 2023-01-01 DOI:10.23939/istcmtm2023.03.059

Tetiana Bubela, Bohdan Bohush

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Abstract

The relevance of creating a comprehensive system for meat control and identification to determine its freshness level has been demonstrated in the study. The drawbacks of traditional organoleptic and laboratory methods commonly used for meat inspection were analyzed. The authors presented the advantages and challenges of employing an electronic nose. A design for a meat control and identification system was proposed, which includes an Arduino Uno microcontroller, Raspberry Pi, USB to TTL adapter, gas sensors, color sensor, thermal camera, and image sensor. The proposed implementation of the electronic nose system on a single-board computer demonstrates its success in controlling and identifying meat freshness. A matrix of semiconductor gas sensors, TGS2602, MQ137, and MQ138, is formed as olfactory sensors, and TCS3200 is used as an RGB vision sensor, enabling the identification of the smell and color of different degrees of meat freshness. To obtain clear output differences from the gas sensors that react to the freshness level of meat, the baseline method is proposed for use. Therefore, a system enhanced with neural network capabilities will replace traditional devices for identifying meat freshness.

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建立肉类新鲜度控制和鉴定系统的前提条件

建立一个全面的肉类控制和鉴定系统以确定其新鲜度水平的重要性已在研究中得到证实。分析了肉类检验常用的传统感官法和实验室法的缺陷。作者介绍了使用电子鼻的优点和挑战。提出了一种肉类控制与识别系统的设计方案，该系统包括Arduino Uno微控制器、树莓派、USB to TTL适配器、气体传感器、颜色传感器、热像仪和图像传感器。电子鼻系统在单板机上的实现证明了它在控制和识别肉类新鲜度方面的成功。采用半导体气体传感器TGS2602、MQ137、MQ138组成嗅觉传感器矩阵，采用TCS3200作为RGB视觉传感器，实现对不同新鲜度肉类的气味和颜色的识别。为了获得对肉类新鲜度作出反应的气体传感器的明确输出差异，建议使用基线方法。因此，一个增强了神经网络功能的系统将取代传统的识别肉类新鲜度的设备。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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