Remote sensing is defined as the technology through which the characteristics of object on, above or even below the earths surface are identified, measured and analyzed without direct contact existing between the sensors and the targets. And nowadays, visible remote sensing plays an important role in providing accurate, large-scale information for many kinds of system. But visible remote sensing is easily influenced by the atmosphere. They are the scattering and absorption by the larger particles such as smoke, haze and fumes in the atmosphere, for which compensation is needed when correcting imagery. Here, we propose a method which could overcome these weakness and help visible remote sensing through the atmosphere. In this article, we are trying to take advantage of Transmission Matrix(TM) in optics to compensate for the effects of complex medium which is similar to the atmospheric particles in visible remote sensing. The principle of this way is that the TM can be exploited for focusing and image detection using well-established operators which used for inverse problems. We present the simulation and experiment results which validate the feasibility and effectiveness of the proposed method.
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