使用电子鼻采集甘榜绿茶香气的数据集。

IF 1.6 Q2 MULTIDISCIPLINARY SCIENCES BMC Research Notes Pub Date : 2024-09-03 DOI:10.1186/s13104-024-06905-6

Dedy Rahman Wijaya, Rini Handayani, Muhammad Dzakyyuddin Badri, Shabri Shabri, Vitria Puspitasari Rahadi

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引用次数: 0

摘要

目的：近年来，人们对电子鼻（e-nose）进行了大量的讨论和研究。这一课题主要在医疗和食品领域得到发展。通常，电子鼻与机器学习算法相结合，可预测或检测每个茶样中的多个感官类别。因此，在电子鼻系统中，电子鼻信号处理是一个重要部分。在许多情况下，需要一套全面的实验来确保预测模型能够很好地泛化。本数据集特别关注两个主要目标，如绿茶质量分类和感官评分预测。本实验使用的是甘榜干绿茶样本。所面临的挑战是，干茶不像泡茶那样散发出浓郁的香气，这就增加了电子鼻系统检测和识别香气的难度。这组数据为研究人员和开发人员提供了宝贵的资源，通过对感官评分进行分类和检测，旨在对感官等级进行分类和识别，从而开展调查和实验。这有助于深入了解干绿茶的质量，并鼓励电子鼻技术在茶叶行业的进一步整合：本实验主要使用六个气体传感器分析绿茶香气。通过软管和微型气泵将茶室与传感器室连接起来，对 78 个绿茶样品进行了测试，每个样品观察三次。气流从茶室流向传感器室 60 秒，然后记录香气数据 60 秒。这些数据被保存到 CSV 文件中，并根据印度尼西亚国家标准（SNI）3945:2016 进行标注，其中包括绿茶质量的特殊要求和一般要求。由茶叶测试人员进行感官测试，进一步将数据集标记为 "良好 "或 "质量缺陷 "进行分类，并根据干茶外观、汤色、滋味、香气和茶渣提供感官评分，以便进行连续标记。

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Data set for Gambung green tea aroma using on electronic nose.

Objectives: In recent years, there has been much discussion and research on electronic nose (e-nose). This topic has developed mainly in the medical and food fields. Typically, e-nose is combined with machine learning algorithms to predict or detect multiple sensory classes in each tea sample. Therefore, in e-nose systems, e-nose signal processing is an important part. In many situations, a comprehensive set of experiments is required to ensure the prediction model can be generalized well. This data set specifically focuses on two main goals such as classification of green tea quality and prediction of organoleptic score. In this experiment, Gambung dry green tea samples were used. The challenge is that dry tea does not emit as strong an aroma as tea infusions, making it more difficult for the e-nose system to detect and identify the aromas. This data set offers a valuable resource for researchers and developers to conduct investigations and experiments by classifying and detecting organoleptic scores that aim to categorize and identify organoleptic ratings. This enables a deeper understanding of the quality of dry green tea and encourages further integration of e-nose technology in the tea industry.

Data description: This experiment focused on analyzing green tea aroma using six gas sensors. Seventy-eight green tea samples were tested, each observed three times, using a tea chamber connected to a sensor chamber via a hose and an intake micro air pump. Air flowed from the tea chamber to the sensor chamber for 60 s, followed by 60 s of aroma data recording. This data was saved into CSV files and labeled according to the Indonesian National Standard (SNI) 3945:2016, which includes special and general requirements for green tea quality. An organoleptic test by a tea tester further labeled the data set into "good" or "quality defect" for classification and provided organoleptic scores based on dry appearance, brew color, taste, aroma, and dregs of brewing for continuous label.

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来源期刊

BMC Research Notes Biochemistry, Genetics and Molecular Biology-Biochemistry, Genetics and Molecular Biology (all)

CiteScore

3.60

自引率

0.00%

发文量

363

审稿时长

15 weeks

期刊介绍： BMC Research Notes publishes scientifically valid research outputs that cannot be considered as full research or methodology articles. We support the research community across all scientific and clinical disciplines by providing an open access forum for sharing data and useful information; this includes, but is not limited to, updates to previous work, additions to established methods, short publications, null results, research proposals and data management plans.