• Sun. Nov 24th, 2024

This AI Paper Introduces DL3DV-10K: A Large-Scale Scene Dataset for Deep Learning-based 3D Vision

Jan 4, 2024

Neural View Synthesis (NVS) poses a complex challenge in generating realistic 3D scenes from multi-view videos, especially in diverse real-world scenarios. The limitations of current state-of-the-art (SOTA) NVS techniques become apparent when faced with variations in lighting, reflections, transparency, and overall scene complexity. Recognizing these challenges, researchers have aimed to push the boundaries of NVS capabilities.

To understand NVS, a team of researchers from Purdue University, Adobe, Rutgers University and Google thoroughly evaluated existing methods, including NeRF variants and 3D Gaussian Splatting, on the newly introduced DL3DV-140 benchmark. This benchmark, derived from DL3DV-10K, a large-scale multi-view scene dataset, serves as a litmus test for the effectiveness of NVS techniques. In response to the identified limitations, the researchers introduced DL3DV-10K as a robust dataset, enabling the development of a universal prior for Neural Radiance Fields (NeRF). This dataset is strategically designed to encompass diverse real-world scenes, capturing variations in environmental settings, lighting conditions, reflective surfaces, and transparent materials.

DL3DV-140 scrutinizes NeRF variants and 3D Gaussian Splatting across various complexity indices, offering insights into their strengths and weaknesses. Notably, Zip-NeRF, Mip-NeRF 360, and 3DGS consistently outperform their counterparts, with Zip-NeRF emerging as a frontrunner, showcasing superior performance in terms of Peak Signal-to-Noise Ratio (PSNR) and Structural Similarity Index (SSIM). The researchers meticulously analyze the nuances of scene complexity, considering factors such as indoor versus outdoor settings, lighting conditions, reflection classes, and transparency classes. The performance evaluation provides a nuanced understanding of how these methods fare across different scenarios. Zip-NeRF, in particular, demonstrates robustness and efficiency, even though it consumes more GPU memory using the default batch size.

https://arxiv.org/abs/2312.16256

Beyond benchmarking SOTA methods, the research team explores the potential of DL3DV-10K in training generalizable NeRFs. Using the dataset to pre-train IBRNet, the researchers showcase the dataset’s effectiveness in improving the performance of a state-of-the-art method. The experiments reveal that the prior knowledge from a subset of DL3DV-10K significantly enhances the generalizability of IBRNet across various benchmarks. This experimentation provides a compelling argument for the role of large-scale, real-world scene datasets like DL3DV-10K in driving the development of learning-based, generalizable NeRF methods.

https://arxiv.org/abs/2312.16256

In conclusion, this research navigates through Neural View Synthesis, addressing the limitations of current methods and proposing DL3DV-10K as a pivotal solution. The comprehensive benchmark, DL3DV-140, evaluates SOTA methods and serves as a litmus test for their performance across diverse real-world scenarios. The exploration of DL3DV-10K’s potential in training generalizable NeRFs underscores its significance in advancing the field of 3D representation learning. As the research team pioneers innovative approaches, the implications of this work extend beyond benchmarking, influencing the future trajectory of NVS research and applications. The melding of dataset advancements and methodological innovations propels the field toward more robust and versatile Neural View Synthesis capabilities.


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