With respect to Geotechnics, and in particular earthworks, there is a need regarding the soil hydric state evaluation through methods which are non-destructive, effective and applicable to the site constraints. The use of electrical and electromagnetical methods from Applied Geophysics, which are integrated and quick to carry out, might answer to this need for soil characterising, levees and embankments monitoring and helping earthworks construction site. The laboratory studies on compacted soil specimens show that the effective electromagnetic parameters (electrical resistivity and dielectrical constant) are sensitive to soil state parameters, both gravimetric water content and dry density. This observation suggests that the combined use of electrical and electromagnetic methods could enable one to distinguish between the soil state parameters which are useful for geotechnics. The trends observed on controlled specimens are interpreted on the basis of a soil microstructural model constituted by clayed aggregates and the water distribution in soil. In order to apply the laws fromWith respect to Geotechnics, and in particular earthworks, there is a need regarding the soil hydric state evaluation through methods which are non-destructive, effective and applicable to the site constraints. The use of electrical and electromagnetical methods from Applied Geophysics, which are integrated and quick to carry out, might answer to this need for soil characterising, levees and embankments monitoring and helping earthworks construction site. The laboratory studies on compacted soil specimens show that the effective electromagnetic parameters (electrical resistivity and dielectrical constant) are sensitive to soil state parameters, both gravimetric water content and dry density. This observation suggests that the combined use of electrical and electromagnetic methods could enable one to distinguish between the soil state parameters which are useful for geotechnics. The trends observed on controlled specimens are interpreted on the basis of a soil microstructural model constituted by clayed aggregates and the water distribution in soil. In order to apply the laws from the laboratory, a further set of geophysical measurements are to be carried out on a test site at scale close to real site conditions but where the homogeneity, the geometry, the temperature, the compaction state and the water content are monitored. Further decametric test sites, at different soil sates, allow to evaluate the measurement tools sensitivity and to link up the results obtained from laboratory to real site ones. the laboratory, a further set of geophysical measurements are to be carried out on a test site at scale close to real site conditions but where the homogeneity, the geometry, the temperature, the compaction state and the water content are monitored. Further decametric test sites, at different soil sates, allow to evaluate the measurement tools sensitivity and to link up the results obtained from laboratory to real site ones.