Document Type : علمی - پژوهشی

Abstract

The result of epipolar rearrangement process is pseudo normal images; which conjugate points are located along their rows or columns. But, unlike normalized images resulted from epipolar resampling process, there is no guarantee that parallel parallax of conjugate points to be linearly proportional with z-coordinate of corresponding point in the object space. However, pseudo normal images can positively affects many photogrammetric activities such as image matching, automatic aerial triangulation, automatic digital elevation model and orthophoto generation, and stereo viewing. In present paper, a novel approach for epipolar rearrangement of linear pushbroom satellite imagery is proposed based on Multiple Projection Centers model, and rearrangement procedure is separately investigated for both Cross Track and Along Track imaging systems. The proposed method is developed based on refinement of trajectory and attitude parameters of the sensor. One of advantages of this method is the capability of the correction of off-nadir viewing of the sensor through the physical interpretation of its parameters. According to the results of the accuracy assessment of pseudo normalized images using the proposed method in independent check points, the mean of residual vertical parallaxes in stereo model is determined 0.94 pixels; that corroborates the feasibility, correctness, and applicability of the method. Keywords: Photogrammetry, Epipolar rearrangement, Pseudo normal image, Pushbroom linear imagery, Multiple projection centers model, Trajectory refinement, Along track and cross track imaging system.