利用导电聚合物传感器系列和Kohonen算法在牛肉和鸡肉实验中识别牛肉

International Journal of Research in Vocational Studies (IJRVOCAS) Pub Date : 2023-01-11 DOI:10.53893/ijrvocas.v2i4.162

Benrad Edwin Simanjuntak, M. Situmorang, S. Humaidi, M. Sinambela

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引用次数: 0

摘要

鸡肉和牛肉各有一种独特的香味。利用电子鼻根据肉的香气来鉴别鸡肉和牛肉。这种电子鼻使用一系列由6个(6)部件组成的传感器，并使用导电聚合物。这种聚合物具有高电阻，因此被广泛用作绝缘体。然而，这种电阻有一定的限制，如果暴露在过多的电荷下，聚合物表面会变成碳并传导电流。这项研究是通过将鸡肉和牛肉作为测试样本进行的，这些肉类被放置在室温下的封闭容器中。每天交替采集数据以找出每种肉的气味，其中第一天采集鸡肉气味数据，第二天采集牛肉气味数据。这样做是为了保证每一块肉的新鲜度。本研究使用神经网络(NN)作为模式识别，并使用ATMega16微控制器作为数据采集。神经网络使用Kohonen进行训练。所使用的传感器是导电聚合物传感器，因为导电聚合物的性质，其中输出是由于聚合物电阻变化而产生的电压。使用Kohonen算法训练由6个输入节点和3个输出神经元组成的双层神经网络，训练过程共31次迭代完成。试验进行了30次，每次暴露在鸡肉和牛肉气味产生的蒸汽中，交替进行。系统的成功率为100%。

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Indentification of Beef in Beef and Chicken Experiments using Conducting Polymer Sensor Series and Kohonen Algorithm Method

Chicken, and beef each have a distinctive aroma. Identification of Chicken and beef based on the aroma of the meat using an electronic nose. This electronic nose uses a series of sensors consisting of 6 (six) pieces and uses a Conducting Polymer. This polymer has a high resistance so it is widely used as an insulator. However, this resistance has a certain limit where the polymer surface will turn into carbon and conduct electric current if exposed to excessive electric charge. This research was conducted by taking samples of chicken and beef as test samples where these meats were placed in a closed container at room temperature. Data is taken alternately every day to find out the odor of each meat where on the first day data is taken from the odor of chicken, and on the second day data is taken from the odor of beef. This condition is done to ensure the freshness of each meat. This study uses a Neural Network (NN) as pattern recognition and ATMega16 microcontroller as data acquisition. Neural Network is trained using Kohonen. The sensor used is a Conducting Polymer sensor because of the nature of the Conducting Polymer where the output is a voltage generated due to changes in the polymer resistance resistance. A two-layer neural network consisting of six input nodes and three output neurons is trained using the Kohonen algorithm with the training process completed in 31 iterations. The test was carried out 30 times for each exposure to steam from the odor of chicken and beef which was carried out alternately. The percentage of success of the system is 100%.

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International Journal of Research in Vocational Studies (IJRVOCAS)

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