Hyperspectral Imagerie (HSI) is an technique d'imagerie avancée that captures and processes information from across the electromagnetic spectrum. Unlike traditional imaging methods that typically capture images in three color bands (red, green, and blue), hyperspectral imaging collects data in many more wavelengths—often hundreds—ranging from visible light to infrared and beyond. This allows for a detailed spectral analysis of the materials within the image, providing insights that are not visible to the naked eye.
Le principe fondamental de l'imagerie hyperspectrale consiste à use of a sensor that can record the intensity of light at each wavelength for every pixel in the image. This results in a three-dimensional data cube where two dimensions correspond to the spatial dimensions of the image, and the third dimension corresponds to the different wavelengths. Each pixel in this data cube contains spectral information that can be analyzed to determine the composition, structure, and other properties of the materials being imaged.
L'imagerie hyperspectrale a un large éventail d'applications dans divers domaines. En agriculture, it is used for monitoring crop health, detecting diseases, and assessing soil properties. In science de l'environnement, HSI helps in mapping and monitoring vegetation, water quality, and mineral resources. Furthermore, in the medical field, it can assist in diagnosing diseases by analyzing tissue properties. The ability to capture and analyze data across numerous wavelengths makes hyperspectral imaging a powerful tool for recherche scientifique, industrial applications, and environmental monitoring.