Color imaging was originally developed to replicate human visual color perception, which consists of three different color sensitivity functions in our retina. This results in three distinct color channels: red, green, and blue, as illustrated on the left in the figure below. Compared to conventional RGB color images, spectral images can provide higher-dimensional color information, such as spectral reflectance, which reveals the intrinsic chemical properties of an object's surfaces.

Spectral images can be categorized into two main groups: multispectral and hyperspectral images. This classification reflects a historical grouping. Multispectral images are captured using a multispectral camera, producing five to ten spectral channels for the visible spectrum with a rotating bandpass filter wheel. In contrast, hyperspectral images are obtained through a scanning-based spectral camera, generating 30 to 60 channels for the same spectral range, which is five to ten times more than that provided by multispectral images. Hyperspectral images provide much denser information than ever before, not limited to the human visible spectrum but extended to the invisible spectrum, such as the short-wavelength infrared spectrum. Our product line embodies this hyperspectral imaging technology, providing dense spectral information from visible to invisible infrared wavelengths.