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dc.contributor.authorLin, Tsung-Yi
dc.identifier.otherbibid: 10361388
dc.description.abstractVisual scene understanding is a basic function of human perception and one of the primary goals of computer vision. Object detection, which involves recognizing and localizing objects present in an environment, is a fundamental task in scene understanding. In the past years, object detection is one of most rapidly developing research areas in computer vision. Progress has been made through a combined efforts of large scale datasets, high quality annotations, and feature representations learned with novel convolutional neural network architectures. This thesis discusses both the process of dataset creation and the subsequent challenges in algorithm design for object detection. We create a large scale visual dataset Common Object in COntext (COCO) that contains objects in everyday scenes and detailed instance segmentation masks. The COCO dataset aims to enable research on detecting objects in an unconstrained environment and presents the combined challenges of recognizing objects in context and accurately localizing instances in 2D. We discuss the algorithm design to address the subsequent challenges in COCO dataset. First, we focus on learning multiscale feature representations to improve object detection performance over a wide range of object scales. We show that by leveraging the pyramidal shape of feature hierarchy in convolutional neural network (ConvNet), we can learn multiscale pyramidal feature representations that are semantic strong at all levels. The proposed Feature Pyramid Networks (FPN) provides generic feature presentations that greatly improve performance in terms of both accuracy and speed for various object detection applications. We then identify extreme class imbalance of foreground and background examples is an inherent challenge for designing the training objective of object detection algorithms. We propose a novel Focal Loss that focuses learning from important examples and ignore most easy background examples to solve the issue. We propose RetinaNet, a simple one-stage dense object detector using both the focal loss and FPN, and achieve state-of-the-art performance for both accuracy and speed on COCO dataset.
dc.subjectObject Recognition
dc.subjectArtificial intelligence
dc.subjectcomputer vision
dc.subjectComputer science
dc.subjectmachine learning
dc.titleDetecting Common Objects in Context
dc.typedissertation or thesis and Computer Engineering University of Philosophy D., Electrical and Computer Engineering
dc.contributor.chairBelongie, Serge J.
dc.contributor.committeeMemberChen, Tsuhan
dc.contributor.committeeMemberSnavely, Keith Noah

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