TY - GEN
T1 - Identification of Standard Sensible Bands for the Study of Oil Spill from Multi-sensor and Multi-spectral Satellite Imagery
AU - Mishra, Vikash Kumar
AU - Nicolls, Fred
AU - Mishra, Amit Kumar
PY - 2024/10/19
Y1 - 2024/10/19
N2 - Oil spills are a primary concern for environmental health, including aquatic ecosystems. The oil spill phenomenon generally happens in remote and inaccessible areas. Tracking and monitoring such phenomena with traditional methods and field surveys would be risky, costly, and time-consuming. Remote sensing imageries would be an efficient solution to overcome these challenges. Multispectral imagery (MSI) is advanced in both spatial and temporal resolution. In this article, multisensor imagery is used to identify the standard band imageries that are more sensible to the oil spill phenomenon. The four sensors, viz., Sentinel-2, Landsat-8, Landsat-9, and MODIS, are used for the study. The spatial resolution varies between 500 meters to 10 meters, whereas temporal resolution is between 16 days to one day. Three methods, Spectral Reflectance Curve (SRC), Band Separability Analysis (BSA), and Density Slicing (DS) are used for the analysis of spectral bands. It has been observed that Blue, Green, and SWIR2 are standard bands in all four sensors for the study of the oil spill phenomenon.
AB - Oil spills are a primary concern for environmental health, including aquatic ecosystems. The oil spill phenomenon generally happens in remote and inaccessible areas. Tracking and monitoring such phenomena with traditional methods and field surveys would be risky, costly, and time-consuming. Remote sensing imageries would be an efficient solution to overcome these challenges. Multispectral imagery (MSI) is advanced in both spatial and temporal resolution. In this article, multisensor imagery is used to identify the standard band imageries that are more sensible to the oil spill phenomenon. The four sensors, viz., Sentinel-2, Landsat-8, Landsat-9, and MODIS, are used for the study. The spatial resolution varies between 500 meters to 10 meters, whereas temporal resolution is between 16 days to one day. Three methods, Spectral Reflectance Curve (SRC), Band Separability Analysis (BSA), and Density Slicing (DS) are used for the analysis of spectral bands. It has been observed that Blue, Green, and SWIR2 are standard bands in all four sensors for the study of the oil spill phenomenon.
KW - aquatic pollution
KW - oil spills
KW - ulti=spectral images
KW - separability analysis
KW - density slicing
U2 - 10.1109/cvmi61877.2024.10782812
DO - 10.1109/cvmi61877.2024.10782812
M3 - Conference Proceeding (Non-Journal item)
T3 - International Conference on Computer Vision and Machine Intelligence (CVMI)
BT - 2024 IEEE International Conference on Computer Vision and Machine Intelligence (CVMI)
PB - IEEE Press
T2 - 2024 IEEE International Conference on Computer Vision and Machine Intelligence (CVMI)
Y2 - 19 October 2024 through 20 October 2024
ER -