In the medical field, hyperspectral imaging is used for non-invasive diagnosis and tissue characterization. It helps identify abnormal tissues, such as tumors, and can assist in surgical procedures.
Hyperspectral imaging is used for precision agriculture, where it helps assess crop health, detect diseases, monitor nutrient levels, and optimize irrigation. It enables farmers to make data-driven decisions, leading to increased crop yields and reduced resource usage.
Hyperspectral imaging aids in monitoring and assessing environmental conditions, such as detecting pollution, monitoring water quality, and mapping vegetation and habitat types. It assists in tracking changes in ecosystems over time.
Hyperspectral imaging is utilized for forest health assessment, species mapping, and detecting pest infestations or diseases. It aids in managing and preserving forest resources effectively.
In the mining industry, hyperspectral imaging helps identify mineral deposits by analyzing the spectral characteristics of rocks and minerals. It allows geologists to locate valuable resources efficiently and non-invasively.
Hyperspectral imaging is employed to assess the quality and safety of food products. It can detect contaminants, assess freshness, and identify defects or foreign materials in food items.
