Bio-mimetic models for detection and tracking of moving objects
저자
발행사항
서울 : 서울대학교 대학원, 2014
학위논문사항
학위논문(박사)-- 서울대학교 대학원 : 전기·컴퓨터공학부 2014. 2
발행연도
2014
작성언어
영어
주제어
DDC
621.3 판사항(22)
발행국(도시)
서울
기타서명
움직이는 물체 검출 및 추적을 위한 생체 모방 모델
형태사항
viii, 132 p. : 삽화 ; 26 cm
일반주기명
참고문헌 수록
소장기관
In this thesis, we propose bio-mimetic models for motion detection and visual tracking to overcome the limitations of existing methods in actual environments. The models are inspired from the theory that there are four different forms of visual memory for human visual perception when representing a scene; visible persistence, informational persistence, visual short-term memory (VSTM), and visual long-term memory (VLTM). We view our problem as a problem of modeling and representing an observed scene with temporary short-term models (TSTM) and conservative long-term models (CLTM). We study on building efficient and effective models for TSTM and CLTM, and utilizing them together to obtain robust detection and tracking results under occlusions, clumsy initializations, background clutters, drifting, and non-rigid deformations encountered in actual environments.
First, we propose an efficient representation of TSTM to be used for moving object detection on non-stationary cameras, which runs within 5.8 milliseconds (ms) on a PC, and real-time on mobile devices. To achieve real-time capability with robust performance, our method models the background through the proposed dual-mode kernel model (DMKM) and compensates the motion of the camera by mixing neighboring models. Modeling through DMKM prevents the background model from being contaminated by foreground pixels, while still allowing the model to be able to adapt to changes of the background. Mixing neighboring models reduces the errors arising from motion compensation and their influences are further reduced by keeping the age of the model. Also, to decrease computation load, the proposed method applies one DMKM to multiple pixels without performance degradation. Experimental results show the computational lightness and the real-time capability of our method on a smart phone with robust detection performances.
Second, by using the concept from both TSTM and CLTM, a new visual tracking method using the novel tri-model is proposed. The proposed method aims to solve the problems of occlusions, background clutters, and drifting simultaneously with the new tri-model. The proposed tri-model is composed of three models, where each model learns the target object, the background, and other non-target moving objects online. The proposed scheme performs tracking by finding the best explanation of the scene with the three learned models. By utilizing the information in the background and the foreground models as well as the target object model, our method obtains robust results under occlusions and background clutters. Also, the target object model is updated in a conservative way to prevent drifting. Furthermore, our method is not restricted to bounding-boxes when representing the target object, and is able to give pixel-wise tracking results.
Third, we go beyond pixel-wise modeling and propose a local feature based tracking model using both TSTM and CLTM to track objects in case of uncertain initializations and severe occlusions. To track objects accurately in such situations, the proposed scheme uses ``motion saliency'' and ``descriptor saliency'' of local features and performs tracking based on generalized Hough transform (GHT). The proposed motion saliency of a local feature utilizes instantaneous velocity of features to form TSTM and emphasizes features having distinctive motions, compared to the motions coming from local features which are not from the object. The descriptor saliency models local features as CLTM and emphasizes features which are likely to be of the object in terms of its feature descriptors. Through these saliencies, the proposed method tries to ``learn and find'' the target object rather than looking for what was given at initialization, becoming robust to initialization problems. Also, our tracking result is obtained by combining the results of each local features of the target and the surroundings, thus being robust against severe occlusions as well. The proposed method is compared against eight other methods, with nine image sequences, and hundred random initializations. The experimental results show that our method outperforms all other compared methods.
Fourth and last, we focus on building robust CLTM with local patches and their neighboring structures. The proposed method is based on sequential Bayesian inference and focuses on solving both the problem of tracking under partial occlusions and the problem of non-rigid object tracking in real-time on desktop personal computers (PC). The proposed scheme is mainly composed of two parts: (1) modeling the target object using elastic structure of local patches for robust performance; and (2) efficient hierarchical diffusion method to perform the tracking process in real-time. The elastic structure of local patches allows the proposed scheme to handle partial occlusions and non-rigid deformations through the relationship among neighboring patches. The proposed hierarchical diffusion generates samples from the region where the posterior is concentrated to reduce computation time. The method is extensively tested on a number of challenging image sequences with occlusion and non-rigid deformation. The experimental results show the real-time capability and the robustness of the proposed scheme under various situations.
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