Introduction Plant phenotyping describes the result of the interaction of genotype with the environment[1].This is performed with high throughput in greenhouses by automated screening systems using different types of ...Introduction Plant phenotyping describes the result of the interaction of genotype with the environment[1].This is performed with high throughput in greenhouses by automated screening systems using different types of imaging and non-imaging sensors[2].The high-throughput imaging routines result in large amounts of data,which require sophisticated processing routines.Sharing and reusing phenotype-related data are not common,because its acquisition and processing are resource costly and technically intensive[3].展开更多
基金partially funded by the Deutsche Forschungsgemeinschaft(DFGGerman Research Foundation)under Germany’s Excellence Strategy—EXC 2070-390732324support by the Open Access Publishing Fund of Clausthal University of Technology.
文摘Introduction Plant phenotyping describes the result of the interaction of genotype with the environment[1].This is performed with high throughput in greenhouses by automated screening systems using different types of imaging and non-imaging sensors[2].The high-throughput imaging routines result in large amounts of data,which require sophisticated processing routines.Sharing and reusing phenotype-related data are not common,because its acquisition and processing are resource costly and technically intensive[3].
