Analyze images and other data to solve problems across disciplines. Imagery and other data collected by satellites, crewed aircraft, and uncrewed aerial systems (UAS) are increasingly important for ...

Remote sensing technology has come a long way since Gaspard Felix Tournachon’s pioneering aerial photographs in 1858. While the technology has advanced, there is one aspect of remote sensing that has ...

Marine oil spills are among the most severe environmental hazards, threatening aquatic ecosystems, coastal economies, and biodiversity. Traditional detection methods, based on manual observation, ship ...

Michigan Technological University’s Michigan Tech Transportation Institute (MTTI) and Michigan Tech Research Institute (MTRI), in cooperation with the Center for Automotive Research and the Michigan ...

The Remote Sensing Technology Institute (IMF) is an institute of the German Aerospace Center DLR. It is located in Oberpfaffenhofen (near Munich), Berlin-Adlershof, Neustrelitz (Mecklenburg-Vorpommern ...

To measure biodiversity, researchers have been using various methods of remote sensing for about 30 years in addition to traditional field studies. An international team of researchers present current ...

The "Optical Remote Sensing of Water" team in Berlin-Adlershof develops algorithms for the interpretation of optical remote sensing data from coastal and inland waters for monitoring and assessing ...

Despite rapid advances, the study highlights significant geographical and thematic imbalances in current research. Nearly half of the reviewed studies were conducted in China, while other critical ...

Remote Sensing Scientists use sensors to analyze data and solve regional, national, and global problems in areas such as natural resource management, urban planning, and climate and weather prediction ...