Multi-camera movable photography measuring method in vibration environment

The invention discloses a multi-camera movable photography measuring method in a vibration environment, comprising the following steps: printing a coding marker on a measured object or nearby rigid body in a sticky mode, then mounting two digital cameras in rigid connection at each measuring point (one mounted horizontally and the other mounted vertically) to obtain exterior orientation elements of two digital cameras in the measuring points, and then accurately gaining a three-dimensional coordinate of the printed markers on the measured object in the vibration environment through a bundle adjustment computing method. By improving the computing method, the three-dimensional coordinate of the printed markers on the measured object in the vibration environment is gained accurately through the bundle adjustment computing method, rather than a compensation algorithm. Three-dimensional measurement problems of position, shape or movement of the object in the vibration environment are solved, such as accurate measurement of model deformation in a wind tunnel test.