Urder the condition of regarding the atmosphere and sea waters as homogeneous mediaseparately and the interface between them as a flat, a complete method of solvnig the radi-ative transfer equation (RTE) for an atmosp...Urder the condition of regarding the atmosphere and sea waters as homogeneous mediaseparately and the interface between them as a flat, a complete method of solvnig the radi-ative transfer equation (RTE) for an atmosphere-ocean system is presented. Based on the de-veloped general solution to the RTE, the asymptotic state of the radiance and its propertiesare deduced. A computation example is provided, which is in good agreement with the the-oretical results. Some questions about practical applications of the method are discussed.展开更多
Taking the atmosphere and ocean water as homogeneous respectively and regarding the ocean surface as a plane, a new method, the successive iteration method, for solving the radiative transfer equation (RTE) of the atm...Taking the atmosphere and ocean water as homogeneous respectively and regarding the ocean surface as a plane, a new method, the successive iteration method, for solving the radiative transfer equation (RTE) of the atmosphere-ocean system is presented. As a result, an expression of the azimuth integrated radiance in this system is developed.展开更多
A new analytical method, the perturbation approach, is presented, which can widely beused to solve the radiative transfer equation in Case 1 sea waters. A computation example isprovided, whose results are in good agre...A new analytical method, the perturbation approach, is presented, which can widely beused to solve the radiative transfer equation in Case 1 sea waters. A computation example isprovided, whose results are in good agreement with those obtained with other methods.Based on the general solution obtained in this way, an analytical relationship is found be-tween the shape of the asymptotic state of the radiance and the inherent optical propertiesof sea waters.展开更多
文摘Urder the condition of regarding the atmosphere and sea waters as homogeneous mediaseparately and the interface between them as a flat, a complete method of solvnig the radi-ative transfer equation (RTE) for an atmosphere-ocean system is presented. Based on the de-veloped general solution to the RTE, the asymptotic state of the radiance and its propertiesare deduced. A computation example is provided, which is in good agreement with the the-oretical results. Some questions about practical applications of the method are discussed.
基金Project supported by the National Natural Science Foundation of China
文摘Taking the atmosphere and ocean water as homogeneous respectively and regarding the ocean surface as a plane, a new method, the successive iteration method, for solving the radiative transfer equation (RTE) of the atmosphere-ocean system is presented. As a result, an expression of the azimuth integrated radiance in this system is developed.
文摘A new analytical method, the perturbation approach, is presented, which can widely beused to solve the radiative transfer equation in Case 1 sea waters. A computation example isprovided, whose results are in good agreement with those obtained with other methods.Based on the general solution obtained in this way, an analytical relationship is found be-tween the shape of the asymptotic state of the radiance and the inherent optical propertiesof sea waters.
