Design of integrated space-air-ground farmland quality monitoring mobile laboratory
China is facing a great challenge with grain demand. Meanwhile, the decline of farmland quality will affect the quality and safety of food. The existing methods of farmland quality monitoring are characterized by a long time period and a lack of detailed spatial information of farmland quality. They...
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Agro-Environmental Protection Institute, Ministry of Agriculture
2021
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oai:doaj.org-article:b8e285dded7e40f5b6a6a2ce32235c9d2021-12-03T02:29:42ZDesign of integrated space-air-ground farmland quality monitoring mobile laboratory2095-681910.13254/j.jare.2021.0577https://doaj.org/article/b8e285dded7e40f5b6a6a2ce32235c9d2021-11-01T00:00:00Zhttp://www.aed.org.cn/nyzyyhjxb/html/2021/6/20210610.htmhttps://doaj.org/toc/2095-6819China is facing a great challenge with grain demand. Meanwhile, the decline of farmland quality will affect the quality and safety of food. The existing methods of farmland quality monitoring are characterized by a long time period and a lack of detailed spatial information of farmland quality. They could not provide the data that meet the requirements of farmland quality monitoring. This study explored a new methods and mobile laboratory for farmland quality monitoring. A farmland quality monitoring indicator system consisting of the variables or predictors that can be fast measured spatially and temporally was first developed. In this study, a framework which integrated satellite remote sensing monitoring, unmanned aerial vehicle(UAV) monitoring, wireless sensor network(WSN) monitoring and in situ measurement method into a farmland quality monitoring mobile laboratory was built. This study also explored the integration of remote sensing, UAV, WSN and ground-based monitoring methods through middleware technologies that connect various components of the system. Moreover, this study developed of a farmland quality monitoring mobile laboratory with an optimal design of routines for fast collection of data. A on-site test was carried out in the area of farmland upgrade and reconstruction program, which took less than 2 hours to quick test 13 indicators for 5 sampling points showed higher efficiency and on-site analysis capability compared with traditional farmland quality monitoring method. This study overcame the gaps that currently exist in the traditional farmland quality monitoring methods, realized comprehensive and multi-scale monitoring of farmland quality, promoted the effectiveness of monitoring cultivated land, and enhanced the capacity of farmland management and protection.ZHANG FeiyangHU YuemingXIE YingkaiXIE JianwenXIAO JiamingFENG NingZHOU LianqingSHI ZhouAgro-Environmental Protection Institute, Ministry of Agriculturearticlefarmland qualitymobile laboratorymonitoringintegrationsatellite remote sensingunmanned aerial vehicleAgriculture (General)S1-972Environmental sciencesGE1-350ZHJournal of Agricultural Resources and Environment, Vol 38, Iss 6, Pp 1029-1038 (2021) |
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farmland quality mobile laboratory monitoring integration satellite remote sensing unmanned aerial vehicle Agriculture (General) S1-972 Environmental sciences GE1-350 |
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farmland quality mobile laboratory monitoring integration satellite remote sensing unmanned aerial vehicle Agriculture (General) S1-972 Environmental sciences GE1-350 ZHANG Feiyang HU Yueming XIE Yingkai XIE Jianwen XIAO Jiaming FENG Ning ZHOU Lianqing SHI Zhou Design of integrated space-air-ground farmland quality monitoring mobile laboratory |
| description |
China is facing a great challenge with grain demand. Meanwhile, the decline of farmland quality will affect the quality and safety of food. The existing methods of farmland quality monitoring are characterized by a long time period and a lack of detailed spatial information of farmland quality. They could not provide the data that meet the requirements of farmland quality monitoring. This study explored a new methods and mobile laboratory for farmland quality monitoring. A farmland quality monitoring indicator system consisting of the variables or predictors that can be fast measured spatially and temporally was first developed. In this study, a framework which integrated satellite remote sensing monitoring, unmanned aerial vehicle(UAV) monitoring, wireless sensor network(WSN) monitoring and in situ measurement method into a farmland quality monitoring mobile laboratory was built. This study also explored the integration of remote sensing, UAV, WSN and ground-based monitoring methods through middleware technologies that connect various components of the system. Moreover, this study developed of a farmland quality monitoring mobile laboratory with an optimal design of routines for fast collection of data. A on-site test was carried out in the area of farmland upgrade and reconstruction program, which took less than 2 hours to quick test 13 indicators for 5 sampling points showed higher efficiency and on-site analysis capability compared with traditional farmland quality monitoring method. This study overcame the gaps that currently exist in the traditional farmland quality monitoring methods, realized comprehensive and multi-scale monitoring of farmland quality, promoted the effectiveness of monitoring cultivated land, and enhanced the capacity of farmland management and protection. |
| format |
article |
| author |
ZHANG Feiyang HU Yueming XIE Yingkai XIE Jianwen XIAO Jiaming FENG Ning ZHOU Lianqing SHI Zhou |
| author_facet |
ZHANG Feiyang HU Yueming XIE Yingkai XIE Jianwen XIAO Jiaming FENG Ning ZHOU Lianqing SHI Zhou |
| author_sort |
ZHANG Feiyang |
| title |
Design of integrated space-air-ground farmland quality monitoring mobile laboratory |
| title_short |
Design of integrated space-air-ground farmland quality monitoring mobile laboratory |
| title_full |
Design of integrated space-air-ground farmland quality monitoring mobile laboratory |
| title_fullStr |
Design of integrated space-air-ground farmland quality monitoring mobile laboratory |
| title_full_unstemmed |
Design of integrated space-air-ground farmland quality monitoring mobile laboratory |
| title_sort |
design of integrated space-air-ground farmland quality monitoring mobile laboratory |
| publisher |
Agro-Environmental Protection Institute, Ministry of Agriculture |
| publishDate |
2021 |
| url |
https://doaj.org/article/b8e285dded7e40f5b6a6a2ce32235c9d |
| work_keys_str_mv |
AT zhangfeiyang designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory AT huyueming designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory AT xieyingkai designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory AT xiejianwen designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory AT xiaojiaming designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory AT fengning designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory AT zhoulianqing designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory AT shizhou designofintegratedspaceairgroundfarmlandqualitymonitoringmobilelaboratory |
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