leptocylindrus danicus 中文意思是什麼
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Spectral matching algorithm is applied, such as spectral angle mapping ( sam ) in section 3. 4 and cross correlogram spectral matching ( ccsm ) in section 3. 5 in order to discriminate different dominant species of red tide. the results of sam spectral matching are satisfying : identifications of mesodinium rubrum and leptocylindrus danicus succeed, identification of chattonella marina has wrong possibility and that of skeletonema costatum fails
3 . 4節將光譜角度制圖( spectralangl 「 mapping , sam )這一光譜匹配方法引入赤潮光譜識別研究之中,所進行的赤潮優勢種類識別取得了令人較為滿意的結果:紅色中繞蟲、丹麥細柱藻赤潮的光譜識別取得了成功;海洋褐胞藻赤潮有誤識別的情況發生;只有中肋骨條藻赤潮的識別失敗。 -
The red tide was formed by leptocylindrus danicus. it had been sighted in hong kong waters before and was non - toxic
這次紅潮由丹麥細柱藻組成,並不含毒素,過往亦曾在香港水域出現。 -
The probable reasons for wrong identification and approach to get better results are also pointed out in section 3. 4. the results of ccsm spectral matching are even better than those of sam. identifications of mesodinium rubrum, leptocylindrus danicus and chattonella marina succeed and ide
3 . 5節對互相關光譜匹配( erosseorrelogamspeetralmatching , eesm )方法用於赤潮優勢種類識別研究進行了嘗試,紅色中繞蟲、丹麥細柱藻、海洋褐胞藻赤潮的識別取得成功,中肋骨條藻赤潮的識別失敗。 -
After spectral data processing, remote sensing reflectance data of red tide are got, whose dominant species are leptocylindrus danicus, chattonella marina, skeletonema costatum and mesodinium rubrum respectively. section 3. 1 gives the data processing steps, results and biological details of the dominant species described above. method of extract spectrum absorption parameters such as absorption depth, width, symmetry and area is given in section 3. 2
對所獲光譜數據進行處理,得出了丹麥細柱藻、海洋褐胞藻、中肋骨條藻、紅色中縊蟲等不同優勢種類赤潮水體的遙感反射率光譜曲線;上述數據處理步驟、數據處理結果以及不同赤潮種類的生物特徵在本章的3 . 1節給出。
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