The ability to perform polarimetric imaging throughout the visible and infrared (IR) wavebands has improved considerably in the past decade. Systems now exist that enable measurements to be made of all four Stokes parameters arising from each pixel in the image. The question of whether polarimetric imaging offers an advantage over conventional imaging methods for discrimination of plant type in scenes of natural vegetation remains to be answered. Although the size of a leaf may be below the spatial resolution of an imaging system, the polarimetric properties of individual leaves may affect the data observed from a tree or forest canopy. We report the results of measurements of the polarized hemispherical directional reflectance (HDR), which is related to the directional emissivity, and bidirectional reflectance distribution function (BRDF) from two examples of leaves. To completely characterize the polarimetric properties of a leaf, and ultimately a leaf canopy, an extensive measurement of the polarized BRDF and HDR of individual leaves is required. This is necessary because of the large range of possible relative orientations of the illumination, leaf and observer, and the range of polarization states of incident radiation. We report a limited set of laboratory measurements designed to investigate whether any gross polarimetric difference exist between two dissimilar types of plant leaves in the visible, near IR (NIR), and IR spectral wavebands. Laurel (prunus laurecatious) has a wax surface creating a gloss or glabrous appearance to the leaf. The surface of mullein (verbascum thapsus) is highly pubescent with a dense layer of hair over the adaxial surface, creating a highly diffuse surface reflectance. Significant differences are found between the two species of leaf in the measured polarized directional reflectance and emissivity.
There has been increasing interest in the measurement, validation, and parameterisation of the bidirectional reflectance distribution function (BRDF) from surface coatings for image simulation and rendering, and design models of coating systems. The complexity of data required depends on the finish or final appearance of the surface coating. In particular the development of optical effect pigments places heightened requirements on the BRDF data needed for adequate characterisation of a surface coating.Measurements of the BRDF are presented from pigmented films representative of the top layer of a paint coating. The measurements investigate the scattering characteristics of pearlescent pigments as a function of the incident polar angle and the poiar and azimuthal scatter angles, including a study of the spectral variation of the BRDF across the visible waveband from 350nm to 800nm. In addition, measurements of linearly polarised BRDF as a function of incident and reflected directions are reported. The measurements emphasise the various optical properties of coatings such as surface and volume scattering and polarisation contributions, which need to be considered if the data is to be accurately modelled or parameterised and used effectively.
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