This report introduces a three-dimensional thermal model for buried landmine detection. Efficient finite difference methods are applied to solve the mathematical model. The estimation of the soil thermal and meteorological parameters, which play important roles in the thermal model, from simple measurements in the minefield are introduced. The validity of the thermal model with estimated soil parameters is verified by comparing the simulation with a data set acquired in an outdoor minefield.
NGUYEN Trung, T, Dinh Nho, H & Sahli, H 2006, Forward thermal model for landmine detection. Technical report IRIS-TR-0098, Unknown.
NGUYEN Trung, T., Dinh Nho, H., & Sahli, H. (2006). Forward thermal model for landmine detection. (Technical report IRIS-TR-0098). Unknown.
@book{4d84c3543c664300a955584eb0927008,
title = "Forward thermal model for landmine detection",
abstract = "This report introduces a three-dimensional thermal model for buried landmine detection. Efficient finite difference methods are applied to solve the mathematical model. The estimation of the soil thermal and meteorological parameters, which play important roles in the thermal model, from simple measurements in the minefield are introduced. The validity of the thermal model with estimated soil parameters is verified by comparing the simulation with a data set acquired in an outdoor minefield.",
keywords = "infrared technique, thermal modelling, landmine detection, soil parameter estimation, splitting methods, optimization",
author = "{NGUYEN Trung}, Thanh and {Dinh Nho}, Hao and Hichem Sahli",
year = "2006",
month = mar,
language = "English",
series = "Technical report IRIS-TR-0098",
publisher = "Unknown",
}