本实验针对马铃薯干腐病潜育期到发病期的诊断方法进行研究,利用时序高光谱对病害发生过程中的病症特征进行分析和提取,并基于时序性特征采用动态时间弯曲(dynamic time warping,DTW)聚类算法对时序关键点进行分析,即对发病期初始点进...本实验针对马铃薯干腐病潜育期到发病期的诊断方法进行研究,利用时序高光谱对病害发生过程中的病症特征进行分析和提取,并基于时序性特征采用动态时间弯曲(dynamic time warping,DTW)聚类算法对时序关键点进行分析,即对发病期初始点进行诊断。本研究在数据预处理中使用图像阈值分割算法提取动态感兴趣区域,利用概率密度比算法剔除病害光谱异常值,在对比病症的光谱与外观后,发现马铃薯干腐病的光谱具有非单调性特征,再基于该非单调性特征使用高斯核函数的主成分权重系数法进行光谱特征提取。最后基于病害特征,利用模糊聚类方法判定时序关键点,其结果正确率仅为66.7%;针对特征时序性再利用DTW聚类算法判定时序关键点,其结果正确率达94.4%。本实验研究表明基于DTW的时序高光谱诊断方法能对马铃薯干腐病发病期进行有效诊断。展开更多
The gut microbiota is a complex ecosystem composed of many bacteria and their metabolites.It plays an irreplaceable role in human digestion,nutrient absorption,energy supply,fat metabolism,immune regulation,and many o...The gut microbiota is a complex ecosystem composed of many bacteria and their metabolites.It plays an irreplaceable role in human digestion,nutrient absorption,energy supply,fat metabolism,immune regulation,and many other aspects.Exploring the structure and function of the gut microbiota,as well as their key genes and metabolites,will enable the early diagnosis and auxiliary diagnosis of diseases,new treatment methods,better effects of drug treatments,and better guidance in the use of antibiotics.The identification of gut microbiota plays an important role in clinical diagnosis and treatment,as well as in drug research and development.Therefore,it is necessary to conduct a comprehensive review of this rapidly evolving topic.Traditional identification methods cannot comprehensively capture the diversity of gut microbiota.Currently,with the rapid development of molecular biology,the classification and identification methods for gut microbiota have evolved from the initial phenotypic and chemical identification to identification at the molecular level.This review integrates the main methods of gut microbiota identification and evaluates their application.We pay special attention to the research progress on molecular biological methods and focus on the application of high-throughput sequencing technology in the identification of gut microbiota.This revolutionary method for intestinal flora identification heralds a new chapter in our understanding of the microbial world.展开更多
文摘本实验针对马铃薯干腐病潜育期到发病期的诊断方法进行研究,利用时序高光谱对病害发生过程中的病症特征进行分析和提取,并基于时序性特征采用动态时间弯曲(dynamic time warping,DTW)聚类算法对时序关键点进行分析,即对发病期初始点进行诊断。本研究在数据预处理中使用图像阈值分割算法提取动态感兴趣区域,利用概率密度比算法剔除病害光谱异常值,在对比病症的光谱与外观后,发现马铃薯干腐病的光谱具有非单调性特征,再基于该非单调性特征使用高斯核函数的主成分权重系数法进行光谱特征提取。最后基于病害特征,利用模糊聚类方法判定时序关键点,其结果正确率仅为66.7%;针对特征时序性再利用DTW聚类算法判定时序关键点,其结果正确率达94.4%。本实验研究表明基于DTW的时序高光谱诊断方法能对马铃薯干腐病发病期进行有效诊断。
文摘The gut microbiota is a complex ecosystem composed of many bacteria and their metabolites.It plays an irreplaceable role in human digestion,nutrient absorption,energy supply,fat metabolism,immune regulation,and many other aspects.Exploring the structure and function of the gut microbiota,as well as their key genes and metabolites,will enable the early diagnosis and auxiliary diagnosis of diseases,new treatment methods,better effects of drug treatments,and better guidance in the use of antibiotics.The identification of gut microbiota plays an important role in clinical diagnosis and treatment,as well as in drug research and development.Therefore,it is necessary to conduct a comprehensive review of this rapidly evolving topic.Traditional identification methods cannot comprehensively capture the diversity of gut microbiota.Currently,with the rapid development of molecular biology,the classification and identification methods for gut microbiota have evolved from the initial phenotypic and chemical identification to identification at the molecular level.This review integrates the main methods of gut microbiota identification and evaluates their application.We pay special attention to the research progress on molecular biological methods and focus on the application of high-throughput sequencing technology in the identification of gut microbiota.This revolutionary method for intestinal flora identification heralds a new chapter in our understanding of the microbial world.