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We apply our mathematics to BRDFs containing the superposition of a quasi shift-invariant specular component and a diffuse component. This permits the use of efficient Fourier methods to solve the integral equations. These analytical solutions are verified via numerical simulation. In addition, we show experimental results from a light-field measurement studio equipped with a high-dynamic range scientific camera connected to a high-precision motorized stage. This studio is capable of measuring light fields with high accuracy. Experimental results of reconstructed light-fields will be reported.
One-dimensional gradient-index metrology based on ray slope measurements using a bootstrap algorithm
Beam shaping in laser resonators and coherent laser arrays: an overview and current state of the art
Microlens arrays provide a flexible and powerful technique for solving a variety of optical design problems. This course will provide an introduction to the types of microlens arrays currently available and their optical characteristics. Topics include optical properties of arrays, fabrication techniques, and applications to coherent and incoherent imaging systems.
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