Measuring. Monitoring. Management. Control
Background. Accurate determination of phonological cycle of vegetational growth is essential for increase of effectiveness of agriculture. The issues of monitoring the phenology of vegetation development in an optimal mode are considered. The goal is to optimize the research of vegetation phenolog...
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| Main Authors: | , , , |
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| Format: | Article |
| Language: | English |
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Penza State University Publishing House
2024-12-01
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| Series: | Измерение, мониторинг, управление, контроль |
| Subjects: | |
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| _version_ | 1832544819326484480 |
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| author | F.G. Agayev H.H. Asadov M.E. Omarov S.S. Aliyeva |
| author_facet | F.G. Agayev H.H. Asadov M.E. Omarov S.S. Aliyeva |
| author_sort | F.G. Agayev |
| collection | DOAJ |
| description | Background. Accurate determination of phonological cycle of vegetational growth is essential for increase
of effectiveness of agriculture. The issues of monitoring the phenology of vegetation development in an optimal mode are
considered. The goal is to optimize the research of vegetation phenology by measuring the induced fluorescence radiation
of chlorophyll. The object of the study is the phenology of vegetation development. The subject of the study is the research
method for investigating the phenology of vegetation, which consists in measuring the induced fluorescent radiation
of chlorophyll instead of the LAI (Leaf Area Index). Materials and methods. In the model study of the average integral
value of the fluorescent radiation of the crown, solar radiation was replaced by laser radiation, which avoids the negative
influence of atmospheric factors. The variational method was used to reach the formulated goal. Results. The optimization
made it possible to determine the worst-case model dependence L = L(φ), where L is the distance between the lidar and
the tree; φ is the quantum yield of the fluorescent signal, which leads to the smallest value of the measured average integral
value of the fluorescence signal. Conclusion. It is recommended not to use such a measurement mode in the practice of
monitoring plant phenology using the results of measuring the fluorescent signal of chlorophyll radiation. |
| format | Article |
| id | doaj-art-5fc953ed0a13489db22e3f6c73bfdd9f |
| institution | Kabale University |
| issn | 2307-5538 |
| language | English |
| publishDate | 2024-12-01 |
| publisher | Penza State University Publishing House |
| record_format | Article |
| series | Измерение, мониторинг, управление, контроль |
| spelling | doaj-art-5fc953ed0a13489db22e3f6c73bfdd9f2025-02-03T09:26:19ZengPenza State University Publishing HouseИзмерение, мониторинг, управление, контроль2307-55382024-12-014131910.21685/2307-5538-2024-4-2Measuring. Monitoring. Management. ControlF.G. Agayev0H.H. Asadov1M.E. Omarov2S.S. Aliyeva3National Aerospace AgencyNational Aerospace AgencyNational Aerospace AgencyNational Aerospace AgencyBackground. Accurate determination of phonological cycle of vegetational growth is essential for increase of effectiveness of agriculture. The issues of monitoring the phenology of vegetation development in an optimal mode are considered. The goal is to optimize the research of vegetation phenology by measuring the induced fluorescence radiation of chlorophyll. The object of the study is the phenology of vegetation development. The subject of the study is the research method for investigating the phenology of vegetation, which consists in measuring the induced fluorescent radiation of chlorophyll instead of the LAI (Leaf Area Index). Materials and methods. In the model study of the average integral value of the fluorescent radiation of the crown, solar radiation was replaced by laser radiation, which avoids the negative influence of atmospheric factors. The variational method was used to reach the formulated goal. Results. The optimization made it possible to determine the worst-case model dependence L = L(φ), where L is the distance between the lidar and the tree; φ is the quantum yield of the fluorescent signal, which leads to the smallest value of the measured average integral value of the fluorescence signal. Conclusion. It is recommended not to use such a measurement mode in the practice of monitoring plant phenology using the results of measuring the fluorescent signal of chlorophyll radiation.monitoringfluorescencevegetationmeasurementschlorophyll |
| spellingShingle | F.G. Agayev H.H. Asadov M.E. Omarov S.S. Aliyeva Measuring. Monitoring. Management. Control Измерение, мониторинг, управление, контроль monitoring fluorescence vegetation measurements chlorophyll |
| title | Measuring. Monitoring. Management. Control |
| title_full | Measuring. Monitoring. Management. Control |
| title_fullStr | Measuring. Monitoring. Management. Control |
| title_full_unstemmed | Measuring. Monitoring. Management. Control |
| title_short | Measuring. Monitoring. Management. Control |
| title_sort | measuring monitoring management control |
| topic | monitoring fluorescence vegetation measurements chlorophyll |
| work_keys_str_mv | AT fgagayev measuringmonitoringmanagementcontrol AT hhasadov measuringmonitoringmanagementcontrol AT meomarov measuringmonitoringmanagementcontrol AT ssaliyeva measuringmonitoringmanagementcontrol |