AI Article Synopsis
- Recent research on optical flow has primarily concentrated on estimating flow fields between two images, overlooking the complexities of multiple consecutive flow fields in longer video sequences.
- In this paper, a new method for video optical flow estimation is presented, utilizing a Kalman filtering system to take advantage of temporal coherence and dynamic context.
- The approach involves constructing a second-order time-variant state vector for pixel motion, optimizing estimates based on measurement and system noise, leading to improved performance in challenging conditions like light changes and occlusions, with positive results shown on various video datasets.
Article Abstract
Recent studies on optical flow typically focus on the estimation of the single flow field in between a pair of images but pay little attention to the multiple consecutive flow fields in a longer video sequence. In this paper, we propose an efficient video optical flow estimation method by exploiting the temporal coherence and context dynamics under a Kalman filtering system. In this system, pixel's motion flow is first formulated as a second-order time-variant state vector and then optimally estimated according to the measurement and system noise levels within the system by maximum a posteriori criteria. Specifically, we evaluate the measurement noise according to the flow's temporal derivative, spatial gradient, and warping error. We determine the system noise based on the similarity of contextual information, which is represented by the compact features learned by pre-trained convolutional neural networks. The context-aware Kalman filtering helps improve the robustness of our method against abrupt change of light and occlusion/dis-occlusion in complicated scenes. The experimental results and analyses on the MPI Sintel, Monkaa, and Driving video datasets demonstrate that the proposed method performs favorably against the state-of-the-art approaches.
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| http://dx.doi.org/10.1109/TIP.2019.2903656 | DOI Listing |
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