光谱学与光谱分析
光譜學與光譜分析
광보학여광보분석
Spectroscopy and Spectral Analysis
2015年
9期
2634-2638
,共5页
王久悦%赵南京%段静波%方丽%孟德硕%杨瑞芳%肖雪%刘建国%刘文清
王久悅%趙南京%段靜波%方麗%孟德碩%楊瑞芳%肖雪%劉建國%劉文清
왕구열%조남경%단정파%방려%맹덕석%양서방%초설%류건국%류문청
紫外可见透射光谱%支持向量机%细菌微生物%种类鉴别
紫外可見透射光譜%支持嚮量機%細菌微生物%種類鑒彆
자외가견투사광보%지지향량궤%세균미생물%충류감별
UV-Vis transmission spectroscopy%Support vector machine%Bacteria%Species identification
紫外可见多波长透射光谱包含了细菌微生物对光的吸收和前向散射等信息,能反映细菌细胞的组分、大小以及形态等特征,具有细菌种属的特异性,可应用于细菌微生物的快速种类鉴别。以水体中常见细菌微生物为研究对象,实验测量了大肠埃希氏菌、金黄色葡萄球菌、鼠伤寒沙门氏菌以及肺炎克雷伯菌的紫外可见多波长透射光谱,简要分析了不同种类细菌微生物的多波长透射光谱特征;研究了透射光谱与支持向量机多向量分析方法相结合的水体细菌微生物快速识别方法,利用基于网格搜索法的训练集内部交叉验证获取建模所需最佳惩罚因子 C 和核函数参数 g ,根据最优参数和 LibSVM 一对一多分类法建立细菌快速分类鉴别模型。利用不同株实验细菌的透射光谱作为测试集对所建模型进行识别正确率的验证,结果表明,所建立的快速分类鉴别模型可以对选取的大肠埃希氏菌、金黄色葡萄球菌、鼠伤寒沙门氏菌以及肺炎克雷伯菌进行快速种类识别,识别正确率为100%;分类鉴别模型对不同大肠杆菌亚种的测试集识别正确率为100%,证明该模型对细菌属间鉴别具有较好的稳定性。不仅可为饮用水源细菌微生物的快速识别预警提供方法,而且可在生物医学方面作为细菌微生物鉴别的一种简便、快速、准确的手段。
紫外可見多波長透射光譜包含瞭細菌微生物對光的吸收和前嚮散射等信息,能反映細菌細胞的組分、大小以及形態等特徵,具有細菌種屬的特異性,可應用于細菌微生物的快速種類鑒彆。以水體中常見細菌微生物為研究對象,實驗測量瞭大腸埃希氏菌、金黃色葡萄毬菌、鼠傷寒沙門氏菌以及肺炎剋雷伯菌的紫外可見多波長透射光譜,簡要分析瞭不同種類細菌微生物的多波長透射光譜特徵;研究瞭透射光譜與支持嚮量機多嚮量分析方法相結閤的水體細菌微生物快速識彆方法,利用基于網格搜索法的訓練集內部交扠驗證穫取建模所需最佳懲罰因子 C 和覈函數參數 g ,根據最優參數和 LibSVM 一對一多分類法建立細菌快速分類鑒彆模型。利用不同株實驗細菌的透射光譜作為測試集對所建模型進行識彆正確率的驗證,結果錶明,所建立的快速分類鑒彆模型可以對選取的大腸埃希氏菌、金黃色葡萄毬菌、鼠傷寒沙門氏菌以及肺炎剋雷伯菌進行快速種類識彆,識彆正確率為100%;分類鑒彆模型對不同大腸桿菌亞種的測試集識彆正確率為100%,證明該模型對細菌屬間鑒彆具有較好的穩定性。不僅可為飲用水源細菌微生物的快速識彆預警提供方法,而且可在生物醫學方麵作為細菌微生物鑒彆的一種簡便、快速、準確的手段。
자외가견다파장투사광보포함료세균미생물대광적흡수화전향산사등신식,능반영세균세포적조분、대소이급형태등특정,구유세균충속적특이성,가응용우세균미생물적쾌속충류감별。이수체중상견세균미생물위연구대상,실험측량료대장애희씨균、금황색포도구균、서상한사문씨균이급폐염극뢰백균적자외가견다파장투사광보,간요분석료불동충류세균미생물적다파장투사광보특정;연구료투사광보여지지향량궤다향량분석방법상결합적수체세균미생물쾌속식별방법,이용기우망격수색법적훈련집내부교차험증획취건모소수최가징벌인자 C 화핵함수삼수 g ,근거최우삼수화 LibSVM 일대일다분류법건립세균쾌속분류감별모형。이용불동주실험세균적투사광보작위측시집대소건모형진행식별정학솔적험증,결과표명,소건립적쾌속분류감별모형가이대선취적대장애희씨균、금황색포도구균、서상한사문씨균이급폐염극뢰백균진행쾌속충류식별,식별정학솔위100%;분류감별모형대불동대장간균아충적측시집식별정학솔위100%,증명해모형대세균속간감별구유교호적은정성。불부가위음용수원세균미생물적쾌속식별예경제공방법,이차가재생물의학방면작위세균미생물감별적일충간편、쾌속、준학적수단。
Multi-wavelength ultraviolet visible (UV-Vis)transmission spectra of bacteria combined the forward scattering and absorption properties of microbes,contains substantial information on size,shape,and the other chemical,physiological charac-ter of bacterial cells,has the bacterial species specificity,which can be applied to rapid species identification of bacterial mi-crobes.Four different kinds of bacteria including Escherichia coli,Staphylococcus aureus,Salmonella typhimurium and Klebsiel-la pneumonia which were commonly existed in water were researched in this paper.Their multi-wavelength UV-Vis transmission spectra were measured and analyzed.The rapid identification method and model of bacteria were built which were based on sup-port vector machine (SVM)and multi-wavelength UV-Vis transmission spectra of the bacteria.Using the internal cross valida-tion based on grid search method of the training set for obtaining the best penalty factor C and the kernel parameter g ,which the model needed.Established the bacteria fast identification model according to the optimal parameters and one-against-one classifi-cation method included in LibSVM.Using different experimental bacteria strains of transmission spectra as a test set of classifi-cation accuracy verification of the model,the analysis results showed that the bacterial rapid identification model built in this pa-per can identification the four kinds bacterial which chosen in this paper as the accuracy was 100%,and the model also can iden-tified different subspecies of E.coli test set as the accuracy was 100%,proved the model had a good stability in identification bacterial species.In this paper,the research results of this study not only can provide a method for rapid identification and early warning of bacterial microbial in drinking water sources,but also can be used as the microbes identified in biomedical a simple, rapid and accurate means.
