From remote sensing to bioeconomy: how big data can improve automatic map generation

Abstract: <p>Recent years are experiencing an exponential increase of remote sensing datasets coming from different sources (satellites, airplanes, UAVs) at different resolutions (up to few cm) based on different sensors (single bands sensors, hyperspectral cameras, LIDAR, …). At the same time, IT developments are allowing for the storage of very large datasets (up to Petabytes) and their efficient processing (through HPC, distributed computing, use of GPUs). This allowed for the development … Show more

“…The transition towards a smart and sustainable bioeconomy strives to address through a data-based approach the ever-increasing quantity of renewable biological resources, such as plant resources, agri-food production, forests, marine and livestock resources, microorganisms, algae, as well as waste, by-products and wastewater of agro-industrial origin, and the consequent congestion, in order to reduce the anthropogenic pressure on built and natural settlements [38][39][40][41]. Specifically, this new form of smart and sustainable bioeconomy, through the utilization of digital platforms and dashboards [18,42,43], holistically combines a wide range of information and communication technologies (ICTs), such as sensors [44,45], real-time monitoring stations [46], cameras [47], GPS tracking systems [48], big-data analysis techniques [49], artificial intelligence [50], augmented reality [51], blockchain [52], Internet of Things (IoT) [53], cloud computing [54], smart grids [55], satellites [56], nanotechnologies [57], advanced biotechnologies [58], and drones [59].…”

Smart and Sustainable Bioeconomy Platform: A New Approach towards Sustainability

“…The transition towards a smart and sustainable bioeconomy strives to address through a data-based approach the ever-increasing quantity of renewable biological resources, such as plant resources, agri-food production, forests, marine and livestock resources, microorganisms, algae, as well as waste, by-products and wastewater of agro-industrial origin, and the consequent congestion, in order to reduce the anthropogenic pressure on built and natural settlements [38][39][40][41]. Specifically, this new form of smart and sustainable bioeconomy, through the utilization of digital platforms and dashboards [18,42,43], holistically combines a wide range of information and communication technologies (ICTs), such as sensors [44,45], real-time monitoring stations [46], cameras [47], GPS tracking systems [48], big-data analysis techniques [49], artificial intelligence [50], augmented reality [51], blockchain [52], Internet of Things (IoT) [53], cloud computing [54], smart grids [55], satellites [56], nanotechnologies [57], advanced biotechnologies [58], and drones [59].…”

Smart and Sustainable Bioeconomy Platform: A New Approach towards Sustainability