分析TGS传感器在电子鼻子上的敏感度,以识别油棕根部的甘草瘤

Mhd Feri Desfri, M. Minarni, Dewi Laila Sari, Dewi Anjarwati Mahmudah, Ihsan Okta Harmailil, I. Cahyadi
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引用次数: 0

摘要

棕榈油是印尼的主要商品之一。确定导致生产力下降的原因是很重要的。由于真菌感染导致油棕植物完全受损的根腐病G. boninense sp含有挥发性有机化合物,可以用电子鼻检测到。电子鼻系统设计了6个传感器阵列,分别是TGS 2612、TGS 822、TGS 2611、TGS 2610、TGS 813和TGS 2620,这些传感器阵列对某些VOC化合物敏感。所使用的样品是4个月大的感染和未感染油棕幼苗。检测过程是在植物根系上进行的。在电压检索中使用Python程序作为数据采集系统。对得到的电压进行处理,并使用梯形区域进一步分析,以确定传感器在灵芝识别中的响应。用梯形平面处理的结果表明,TGS 2611具有很好的响应性。TGS 2611传感器在识别受灵芝侵害的油棕植物时有较高的梯形面积,分为健康、中度、病态、重度4个等级。
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ANALISA SENSITIVITAS SENSOR TGS PADA HIDUNG ELEKTRONIK UNTUK IDENTIFIKASI GANODERMA DI BAGIAN AKAR KELAPA SAWIT
Palm oil is one of the main commodities for Indonesia. It is important to identify the disease-causing the decline in productivity. Root rot disease that causes total damage to oil palm plants due to fungal infection G. boninense sp has volatile organic compounds that can be detected using an electronic nose. The electronic nose system is designed with 6 sensor arrays, namely TGS 2612, TGS 822, TGS 2611, TGS 2610, TGS 813, and TGS 2620 which are sensitive to certain VOC compounds. The sample used was infected and uninfected oil palm seedlings aged 4 months. The detection process is carried out on plant roots. Python program is used as a data acquisition system in voltage retrieval. The obtained voltage is processed and further analyzed using a trapezoidal area to determine the sensor response in the identification of Ganoderma. The results of processing using a trapezoidal plane show that TGS 2611 has a very good response. The TGS 2611 sensor has a higher trapezoidal area in identifying oil palm plants that are attacked by Ganoderma with 4 classifications, namely healthy, moderate, sick, and severe.
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