Motion intention optimization for multirotor robust video stabilization

Abstract: Abstract-In this paper we present an optimization algorithm for simultaneously detecting video freeze and obtaining the minimum number of the frame required in motion intention estimation for real time robust video stabilization on multirotor unmanned aerial vehicles. A combination of a filter and a threshold is used to the video freeze detection, and for optimizing the algorithm, we find the minimum number of frames for motion intention estimation without decrease the performance.

“…After smoothing the trajectory using the Kalman filter, it is used as a baseline to deform multiple original trajectories [10] and create new paths. Since this paper aims to address video shake in multi-camera settings [11] , it is necessary to consider the correlation between adjacent cameras. Therefore, a correlation term is introduced to constrain the alignment of video frames from different cameras.…”

Video stabilization algorithm based on multiple cameras

“…After smoothing the trajectory using the Kalman filter, it is used as a baseline to deform multiple original trajectories [10] and create new paths. Since this paper aims to address video shake in multi-camera settings [11] , it is necessary to consider the correlation between adjacent cameras. Therefore, a correlation term is introduced to constrain the alignment of video frames from different cameras.…”

Video stabilization algorithm based on multiple cameras