植物阻抗量测应用于蝴蝶兰病征检测之初探abasicstudy-中兴大学.pdf

農林學報 63(1): 65-73 (2014) - 65 - Journal of Agriculture and Forestry, 63(1) : 65 -73 (2014) 植物阻抗量測應用於蝴蝶蘭病徵檢測之初探 吳冠德[1] 邱庭毅[1] 陳澤民[1]* 摘 要 建立一非侵入式植物病害檢測系統為本研究之目的。本研究應用量測分析不同頻譜下蝴蝶蘭的阻抗值，經由不同頻 譜下所呈現的阻抗趨勢，期待在病徵出現前能有效篩檢出植株是否已感染根腐或軟腐等常見病害。相關研究指出，植物阻抗在 不同頻譜下會出現不同散逸現象，當植物在不同的健康狀態下植物之阻抗頻譜亦會隨之改變，所以植物的生理狀態應可以植物 的阻抗值為指標進行檢測。因此若將植物本體視為一包含輸入和輸出的系統，當輸入信號不變，植物內部因結構組成改變時， 輸出信號亦會隨之變化；因此輸入一序列不同頻率信號進入植株本體，量測所求得之頻率對應阻抗的關係可做為植物生理的參 考曲線。本研究將阻抗量測值以最小平方法建立一轉移函數模型方程組，並利用殘差運算的方式與健康模型方程式進行比較， 藉此區辨蝴蝶蘭健康植株與染病植株。當 3.5 吋蝴蝶蘭阻抗殘差模型讀值超過 50 或奈奎氏殘差模型讀值超過 5 時，系統即判 斷此植株為染病狀態，實測結果亦顯示在阻抗頻譜殘差的模型圖和奈奎氏殘差模型中皆能有效進行蝴蝶蘭染病預警與判別。 關鍵詞 ：植物病害檢測、非侵入式檢測法 、生理參考曲線 、植物阻抗量測。 A Basic Study on Symptoms Detection of Phalaenopsis by Using Electrical Impedance Spectroscopy Guan-De Wu[1] Ting-Yi Chiu[1] Tse-Min Chen[1]* ABSTRACT This research established a noninvasive disease detection system for Phalaenopsis. Since the input signals with distinct frequency result in different impedance spectrum as responses, the electrical impedance spectroscopy is an available index to describe the physiological status of botanic tissue. Therefore, employing the measured impedance trend to identify the disease-infected seedlings may be a prospective technique. Former literatures indicated that the electrical impedance of plants changed depended on different frequency spectroscopy and different physiological status, which is called desperation, Desperation depicts the characters of a specific species. If a botanic tissue such as Phalaenopsis is regarded as a system that contains input signal and response and when the input signal is fixed and the plants structures have been changed, the response will change simultaneously. Thus the frequency spectroscopy of the