Buried man-made structures, like archaeological handiworks, altering the natural trend of the soil surface can yield tonal anomalies on remotely sensed images. These anomalies differ in size and/or intensity according to either the environmental conditions at the time of acquisition or the spectral and spatial characteristics of the images. The research challenge is to identify the best wavelength to detect these anomalies. In this paper we have set up two new parameters for identifying and assessing the potential of anomaly detection: the Detection Index (DI), which counts the pixels related to the marks, and the Separation Index (SI), which relates the difference in brightness of the marks with respect to the background. These two indexes have been tested on MIVIS (Multispectral Visible Imaging Spectrometer) airborne hyperspectral data acquired on remains not yet excavated of a few archaeological sites. Results show that such indexes are an efficient, flexible and quick tool for assessing the image potential to detect buried structures. Moreover, when they are applied to hyperspectral data, they allows for identifying the spectral range more sensitive to the detection of the buried structures.
Indexes for assessing the spectral range more sensitive to the detection of the buried structures
Palombo A;Cavalli RM;Fusilli L;Pascucci S;Santini F
2007
Abstract
Buried man-made structures, like archaeological handiworks, altering the natural trend of the soil surface can yield tonal anomalies on remotely sensed images. These anomalies differ in size and/or intensity according to either the environmental conditions at the time of acquisition or the spectral and spatial characteristics of the images. The research challenge is to identify the best wavelength to detect these anomalies. In this paper we have set up two new parameters for identifying and assessing the potential of anomaly detection: the Detection Index (DI), which counts the pixels related to the marks, and the Separation Index (SI), which relates the difference in brightness of the marks with respect to the background. These two indexes have been tested on MIVIS (Multispectral Visible Imaging Spectrometer) airborne hyperspectral data acquired on remains not yet excavated of a few archaeological sites. Results show that such indexes are an efficient, flexible and quick tool for assessing the image potential to detect buried structures. Moreover, when they are applied to hyperspectral data, they allows for identifying the spectral range more sensitive to the detection of the buried structures.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.