2007
DOI: 10.1016/j.compag.2007.05.004
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Detecting the attributes of a wheat crop using digital imagery acquired from a low-altitude platform

Abstract: A low-altitude platform utilising a 1.8-m diameter tethered helium balloon was used to position a multispectral sensor, consisting of two digital cameras, above a fertiliser trial plot where wheat (Triticum spp.) was being grown. Located in Cecil Plains, Queensland, Australia, the plot was a long-term fertiliser trial being conducted by a fertiliser company to monitor the response of crops to various levels of nutrition. The different levels of nutrition were achieved by varying nitrogen application rates betw… Show more

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Cited by 91 publications
(56 citation statements)
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“…The use of UAVbased sensors to detect water stress and quantify biomass and nitrogen content in crops and grasses has been demonstrated (Berni et al, 2008Kawamura et al, 2011). Yield forecasting in wheat (Jensen et al, 2007) and rice (Swain et al, 2010), rangeland management (Rango et al, 2009), leaf area index (LAI) and green normalized difference vegetation index (NDVI) estimation in winter wheat (Hunt et al, 2010) and site-specific vineyard management (Turner, 2011;Primicerio et al, 2012b) have been accomplished using unmanned aerial platforms.…”
Section: S K Von Bueren Et Al: Deploying Four Optical Uav-based Sementioning
confidence: 99%
“…The use of UAVbased sensors to detect water stress and quantify biomass and nitrogen content in crops and grasses has been demonstrated (Berni et al, 2008Kawamura et al, 2011). Yield forecasting in wheat (Jensen et al, 2007) and rice (Swain et al, 2010), rangeland management (Rango et al, 2009), leaf area index (LAI) and green normalized difference vegetation index (NDVI) estimation in winter wheat (Hunt et al, 2010) and site-specific vineyard management (Turner, 2011;Primicerio et al, 2012b) have been accomplished using unmanned aerial platforms.…”
Section: S K Von Bueren Et Al: Deploying Four Optical Uav-based Sementioning
confidence: 99%
“…Unmanned aerial vehicles (UAVs) and other small unmanned aircraft have potentially lower cost but also have a significantly lower payload capacity, so light-weight compact sensors are required. Furthermore, UAVs can be flown at lower altitudes with greater safety than manned aircraft, thereby increasing spatial resolution [8][9][10][11][12][13][14][15][16][17]. Low-cost, light-weight sensors are critical for the development of UAVs as a cost-effective platform for image acquisition.…”
Section: Introductionmentioning
confidence: 99%
“…Tethered balloons are another alternative; however, they are not as mobile, have issues with accurate orientation and positioning (especially in wind) (White et al 2012) and require Federal Aviation Authority regulation if raised above 45 m (United States Federal Aviation Administration 2017). Jensen et al (2007) deployed a tethered helium balloon with a multispectral sensor and two digital cameras to measure plant response to nitrogen application at a resolution of 0.25 m from an altitude of 400 m. In Ritchie et al (2008), two digital cameras were deployed with a tethered balloon to monitor normalized difference vegetation index (NDVI) in cotton plots during an irrigation study.…”
Section: Introductionmentioning
confidence: 99%