In recent years, the technology in visual-inertial odometry (VIO) has matured considerably and has been widely used in many applications. However, we still encounter challenges when applying VIO to a micro air vehicle (MAV) equipped with a downward-looking camera. Specifically, VIO cannot compute the correct initialization results during take-off and the cumulative drift is large when the MAV is flying in the air. To overcome these problems, we propose a homographybased initialization method, which utilizes the fact that the features detected by the downward-looking camera during take-off are approximately on the same plane. Then we introduce the prior normal vector and motion field to make states more accurate. In addition, to deal with the cumulative drift, a strategy for dynamically weighting visual residuals is proposed. Finally, we evaluate our method on the collected real-world datasets. The results demonstrate that our system can be successfully initialized no matter how the MAV takes off and the positioning errors are also greatly improved.
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