![]() Thanks to the eBee’s artificial intelligence and robust lightweight construction, it is durable enough to survive numerous flights (and landings). It is highly durable, available with a choice of sensors, and offers fully automated flight planning and operation. The eBee Ag by senseFly is a professional aerial mapping drone (or UAV) for precision agriculture applications. eBee AgĪvailable via: approved senseFly resellers (see Product Description This market-leading performance brings farmers the data they need to monitor crops more precisely, feed other precision agriculture technologies, and continue improving their management decisions. These images are then easily transformed into false-colour orthomosaics using Postflight Terra 3D software, with accuracy of down to 3 cm (1.18 in). Its default 12 MP NIR camera is capable of shooting aerial imagery at down to 2 cm (0.7 in) / pixel. With its maximum flight time of 45 minutes, the eBee Ag can photograph areas of up to 1, 000 ha (2,470 ac) in a single flight. Plus it includes a handy index computation tab, which allows customers to select a band, calculate NDVI, or input custom formulas in order to create the exact maps they require. Postflight Terra 3D can be used to produce false-colour orthomosaics and 3D models. The eBee Ag is supplied with two advanced software packages: eMotion 2 for flight planning and control and Postflight Terra 3D photogrammetry software for post-flight image processing and analysis. Customers simply select the area they want to map (using the supplied eMotion 2 software), launch the drone by throwing it into the air, and the eBee flies, acquires images, and lands all by itself. The eBee Ag’s onboard artificial intelligence and robust lightweight construction ensure it will survive numerous flights (and landings), thus safeguarding a customer’s investment. It is supplied with a customized Canon S110 NIR, however customers can also choose a customised S110 RE (red edge) version, a S110 RGB, or the Airinov multiSPEC 4C (offering four distinct bands with no spectral overlap). The eBee Ag features a range of camera options to suit different applications, from biomass estimation to yield monitoring and leaf area indexing. With the accurate and timely data the eBee Ag supplies, farmers can optimise their crop management and chemical usage – saving them time, saving them money, and helping them boost their yields.” This means less time wasted on manual checks and less reliance on low-resolution satellite images or costly airplane shots. “The detail provided by its customised cameras and its software’s index calculations allow customers to analyse crop conditions remotely and in high detail. “ The eBee Ag enables growers and coop consultants to become much more precise in their work,” says Jean-Christophe Zufferey, C.E.O. L ightweight and highly durable, it features a wide range of camera options and fully autonomous operation – flying, acquiring images, and landing itself. The eBee Ag is the easiest to use and most reliable agriculture drone on the market. Based on the result, there is significant correlation between nitrogen status in leaf and drone imagery indices over the study region.Cheseaux-Lausanne, Switzerland, Ap– Swiss mini-drone manufacturer senseFly today announces the eBee Ag, a fully autonomous aerial imaging drone (or UAV) for precision agriculture applications. Both drone analysis and manual (leaf and soil) analysis are compared. Corresponding leaf and soil analysis are carried out. For this project, 76 samples per ha are chosen and analysed for Normalized Difference Vegetative Index (NDVI), RGB, thermal imaging. This project is carried out at the commercial oil palm plantation in Negeri Sembilan and eBee MultiSPEC 4C is deployed as the drone equipment. Therefore, the objective of this project is to assess the feasibility of using drone technology to assess N status in a young oil palm stand. Its use to assess N status in oil palm is a plausible option to consider due to the large crop acreage and potential cost and time-saving. The capability of a drone is not fully explored for nutrient assessment in cropping systems. The conventional assessment of N status is usually based on leaf and soil analysis which are highly costly and laborious. Generally, nitrogen (N) status in plant plays a major role in crop productivity. The health and quality of oil palm need to be monitored frequently. Elaeis guineensis or commonly known as oil palm is the main industrial crop in Malaysia. The drone can be potentially used to detect the nutrient status of plants. Recently, drones have been used in spraying operations over a wheat field in Xinghua, East China's Jiangsu province. Drones, also known as unmanned aircraft vehicles (UAV), are pilotless aircraft that are controlled by computers or simple remote control.
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