Abstract
With the wide development of UAV (Unmanned Aerial Vehicle) technology, moving target detection for aerial video has become a popular research topic in the computer field. Most of the existing methods are under the registration-detection framework and can only deal with simple background scenes. They tend to go wrong in the complex multi background scenarios, such as viaducts, buildings and trees. In this paper, we break through the single background constraint and perceive the complex scene accurately by automatic estimation of multiple background models. First, we segment the scene into several color blocks and estimate the dense optical flow. Then, we calculate an affine transformation model for each block with large area and merge the consistent models. Finally, we calculate subordinate degree to multi-background models pixel to pixel for all small area blocks. Moving objects are segmented by means of energy optimization method solved via Graph Cuts. The extensive experimental results on public aerial videos show that, due to multi background models estimation, analyzing each pixel’s subordinate relationship to multi models by energy minimization, our method can effectively remove buildings, trees and other false alarms and detect moving objects correctly.
Highlights
Moving target detection for aerial video is one of the core technologies of UAV (Unmanned AerialVehicle) surveillance systems
We propose a moving object detection algorithm based on multi-model estimation for aerial video
In order to overcome the influence of the complex multiple background scenarios, this paper proposes a moving object detection algorithm for aerial video basing on multi-model estimation
Summary
This technology can be widely applied in military domains such as battlefield reconnaissance and surveillance, positioning and adjustment, damage assessment, electronic warfare, etc. It can support civil purposes such as border patrol, nuclear radiation detection, aerial photography, aerial prospecting, disaster monitoring, traffic patrol, security surveillance, etc. We define the set of points that do not belong to the large background region as Ω. We define the scenario points belonging to l = BNum + 1 categories, where BNum is the number of background models. Label 0 corresponds to no background models, but corresponds to the foreground pixels.
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