This study is to construct the theory of “Machine Vision” and “Photogrammetry” applied on debris. Under various scenarios, the characteristics of debris flow were analyzed. The characteristics studied herein included that the elevation of wave front, the floating velocity of specific object and the size distribution of debris flow. Two CCD Cameras installed at the laboratory and the debris flow potential streams site were to capture image to estimate size distribution of debris by computer programming. To examine the feasibility of the developed model, indoor experiment and previous empirical results were to verify the theory of “Machine Vision” and “Photogrammetry” constructed in this study. Hopefully the image differentiating of characteristics of the debris flow can be practically applied to the debris flow hazard mitigation in the further. Firstly, the CCD camera to capture image that the tide stave gray level to estimate the elevation of wave front. The image coordinate can transformed the three-dimensional space coordinate by bilinear interpolation. Then, the floating velocity of specific object in the image can be estimated accordingly. Indoor experiment Set up the slant image calibration theory to simulate vertical captured image, size distribute results were analyzed by the theory of “Globe Simulate Projection” and “Digital Image Processing”. As the three-dimensional space coordinate of wave front was obtained, the elevation of wave front can be therefore determined. The preliminary tests of the tide stave gray level can success to estimate by moving average. “Photogrammetry” show that the average error of estimated distance along the X, Y, Z direction is about 0.56, 0.41, 0.66 cm and the error of that is about 0.22, 0.45, 0.68 cm as the objects are three-dimensional respectively. By detecting a group of ping-pong balls, the error of the theory of “Globe Simulate Projection” and “Digital Image Processing” are around 5.75% ~ 3.67%.