1.Introduction Infrared Imaging Missiles(IRIMs)are advanced weapons utilizing infrared technology for target detection and tracking.Their sensors capture thermal signatures and convert them into electronic images,enab...1.Introduction Infrared Imaging Missiles(IRIMs)are advanced weapons utilizing infrared technology for target detection and tracking.Their sensors capture thermal signatures and convert them into electronic images,enabling precise target identification and tracking.To a certain extent,the all-weather adaptability of IRIMs enables their effective operation across diverse environmental conditions,providing high targeting accuracy and cost efficiency.展开更多
Accurate poverty alleviation refers to the poverty alleviation of different countries, different poor farmers situation, the use of compliance with the effective procedures for the implementation of accurate identific...Accurate poverty alleviation refers to the poverty alleviation of different countries, different poor farmers situation, the use of compliance with the effective procedures for the implementation of accurate identification of poverty alleviation, accurate help, precise management of the way of poverty, precision identification is the prerequisite and basis for precision poverty. How to improve the precision of poverty alleviation in our country is an urgent problem to be solved in the practice of poverty alleviation. To improve the precision of poverty alleviation, it is necessary to accurately identify the poverty alleviation. Based on the background of precision poverty alleviation, the concept and significance of precision identification of poverty alleviation are expounded. On this basis, the problems of precision assistance in practice are mainly reflected in the disjointedness and the sufficient quantity of poverty alleviation resources, Cancel the help process in the matching funds, help projects and poor households tied to help form a flexible and diverse aspects of response measures.展开更多
High-throughput phenotyping(HTP)technology is now a significant bottleneck in the efficient selection and breeding of superior forage genetic resources.To better understand the status of forage phenotyping research an...High-throughput phenotyping(HTP)technology is now a significant bottleneck in the efficient selection and breeding of superior forage genetic resources.To better understand the status of forage phenotyping research and identify key directions for development,this review summarizes advances in HTP technology for forage phenotypic analysis over the past ten years.This paper reviews the unique aspects and research priorities in forage phenotypic monitoring,highlights key remote sensing platforms,examines the applications of advanced sensing technology for quantifying phenotypic traits,explores artificial intelligence(AI)algorithms in phenotypic data integration and analysis,and assesses recent progress in phenotypic genomics.The practical applications of HTP technology in forage remain constrained by several challenges.These include establishing uniform data collection standards,designing effective algorithms to handle complex genetic and environmental interactions,deepening the cross-exploration of phenomics-genomics,solving the problem of pathological inversion of forage phenotypic growth monitoring models,and developing low-cost forage phenotypic equipment.Resolving these challenges will unlock the full potential of HTP,enabling precise identification of superior forage traits,accelerating the breeding of superior varieties,and ultimately improving forage yield.展开更多
基金co-supported by the China Postdoctoral Science Foundation(No.2024M754304)the Hunan Provincial Natural Science Foundation of China(No.2025JJ60072)。
文摘1.Introduction Infrared Imaging Missiles(IRIMs)are advanced weapons utilizing infrared technology for target detection and tracking.Their sensors capture thermal signatures and convert them into electronic images,enabling precise target identification and tracking.To a certain extent,the all-weather adaptability of IRIMs enables their effective operation across diverse environmental conditions,providing high targeting accuracy and cost efficiency.
文摘Accurate poverty alleviation refers to the poverty alleviation of different countries, different poor farmers situation, the use of compliance with the effective procedures for the implementation of accurate identification of poverty alleviation, accurate help, precise management of the way of poverty, precision identification is the prerequisite and basis for precision poverty. How to improve the precision of poverty alleviation in our country is an urgent problem to be solved in the practice of poverty alleviation. To improve the precision of poverty alleviation, it is necessary to accurately identify the poverty alleviation. Based on the background of precision poverty alleviation, the concept and significance of precision identification of poverty alleviation are expounded. On this basis, the problems of precision assistance in practice are mainly reflected in the disjointedness and the sufficient quantity of poverty alleviation resources, Cancel the help process in the matching funds, help projects and poor households tied to help form a flexible and diverse aspects of response measures.
基金supported by the 2023 Inner Mongolia Autonomous Region“Unveiling and Hanging”Project[grant number 2023JBGS0008]the 2023 Hohhot to introduce high-level innovative and entrepreneurial talents(team)[grant number 2023RC-High Level7].
文摘High-throughput phenotyping(HTP)technology is now a significant bottleneck in the efficient selection and breeding of superior forage genetic resources.To better understand the status of forage phenotyping research and identify key directions for development,this review summarizes advances in HTP technology for forage phenotypic analysis over the past ten years.This paper reviews the unique aspects and research priorities in forage phenotypic monitoring,highlights key remote sensing platforms,examines the applications of advanced sensing technology for quantifying phenotypic traits,explores artificial intelligence(AI)algorithms in phenotypic data integration and analysis,and assesses recent progress in phenotypic genomics.The practical applications of HTP technology in forage remain constrained by several challenges.These include establishing uniform data collection standards,designing effective algorithms to handle complex genetic and environmental interactions,deepening the cross-exploration of phenomics-genomics,solving the problem of pathological inversion of forage phenotypic growth monitoring models,and developing low-cost forage phenotypic equipment.Resolving these challenges will unlock the full potential of HTP,enabling precise identification of superior forage traits,accelerating the breeding of superior varieties,and ultimately improving forage yield.
