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Main Authors: Yun, Jooyeol, Abati, Davide, Omran, Mohamed, Choo, Jaegul, Habibian, Amirhossein, Wiggers, Auke
Format: Preprint
Published: 2024
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Online Access:https://arxiv.org/abs/2410.13564
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author Yun, Jooyeol
Abati, Davide
Omran, Mohamed
Choo, Jaegul
Habibian, Amirhossein
Wiggers, Auke
author_facet Yun, Jooyeol
Abati, Davide
Omran, Mohamed
Choo, Jaegul
Habibian, Amirhossein
Wiggers, Auke
contents Location modeling, or determining where non-existing objects could feasibly appear in a scene, has the potential to benefit numerous computer vision tasks, from automatic object insertion to scene creation in virtual reality. Yet, this capability remains largely unexplored to date. In this paper, we develop a generative location model that, given an object class and an image, learns to predict plausible bounding boxes for such an object. Our approach first tokenizes the image and target object class, then decodes bounding box coordinates through an autoregressive transformer. This formulation effectively addresses two core challenges in locatio modeling: the inherent one-to-many nature of plausible locations, and the sparsity of existing location modeling datasets, where fewer than 1% of valid placements are labeled. Furthermore, we incorporate Direct Preference Optimization to leverage negative labels, refining the spatial predictions. Empirical evaluations reveal that our generative location model achieves superior placement accuracy on the OPA dataset as compared to discriminative baselines and image composition approaches. We further test our model in the context of object insertion, where it proposes locations for an off-the-shelf inpainting model to render objects. In this respect, our proposal exhibits improved visual coherence relative to state-of-the-art instruction-tuned editing methods, demonstrating a high-performing location model's utility in a downstream application.
format Preprint
id arxiv_https___arxiv_org_abs_2410_13564
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Imagining the Unseen: Generative Location Modeling for Object Placement
Yun, Jooyeol
Abati, Davide
Omran, Mohamed
Choo, Jaegul
Habibian, Amirhossein
Wiggers, Auke
Computer Vision and Pattern Recognition
Location modeling, or determining where non-existing objects could feasibly appear in a scene, has the potential to benefit numerous computer vision tasks, from automatic object insertion to scene creation in virtual reality. Yet, this capability remains largely unexplored to date. In this paper, we develop a generative location model that, given an object class and an image, learns to predict plausible bounding boxes for such an object. Our approach first tokenizes the image and target object class, then decodes bounding box coordinates through an autoregressive transformer. This formulation effectively addresses two core challenges in locatio modeling: the inherent one-to-many nature of plausible locations, and the sparsity of existing location modeling datasets, where fewer than 1% of valid placements are labeled. Furthermore, we incorporate Direct Preference Optimization to leverage negative labels, refining the spatial predictions. Empirical evaluations reveal that our generative location model achieves superior placement accuracy on the OPA dataset as compared to discriminative baselines and image composition approaches. We further test our model in the context of object insertion, where it proposes locations for an off-the-shelf inpainting model to render objects. In this respect, our proposal exhibits improved visual coherence relative to state-of-the-art instruction-tuned editing methods, demonstrating a high-performing location model's utility in a downstream application.
title Imagining the Unseen: Generative Location Modeling for Object Placement
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2410.13564