Related papers: Human-Aware 3D Scene Generation with Spatially-constrained Diffusion Models

Human-Aware 3D Scene Generation with Spatially-constrained Diffusion Models

URL: http://arxiv.org/abs/2406.18159v1
Date: Wed, 26 Jun 2024 08:18:39 GMT
Title: Human-Aware 3D Scene Generation with Spatially-constrained Diffusion Models
Authors: Xiaolin Hong, Hongwei Yi, Fazhi He, Qiong Cao,
Abstract summary: Previous auto-regression-based 3D scene generation methods have struggled to accurately capture the joint distribution of multiple objects and input humans. We introduce two spatial collision guidance mechanisms: human-object collision avoidance and object-room boundary constraints. Our framework can generate more natural and plausible 3D scenes with precise human-scene interactions.
Score: 16.259040755335885
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Generating 3D scenes from human motion sequences supports numerous applications, including virtual reality and architectural design. However, previous auto-regression-based human-aware 3D scene generation methods have struggled to accurately capture the joint distribution of multiple objects and input humans, often resulting in overlapping object generation in the same space. To address this limitation, we explore the potential of diffusion models that simultaneously consider all input humans and the floor plan to generate plausible 3D scenes. Our approach not only satisfies all input human interactions but also adheres to spatial constraints with the floor plan. Furthermore, we introduce two spatial collision guidance mechanisms: human-object collision avoidance and object-room boundary constraints. These mechanisms help avoid generating scenes that conflict with human motions while respecting layout constraints. To enhance the diversity and accuracy of human-guided scene generation, we have developed an automated pipeline that improves the variety and plausibility of human-object interactions in the existing 3D FRONT HUMAN dataset. Extensive experiments on both synthetic and real-world datasets demonstrate that our framework can generate more natural and plausible 3D scenes with precise human-scene interactions, while significantly reducing human-object collisions compared to previous state-of-the-art methods. Our code and data will be made publicly available upon publication of this work.

Related papers

StackFLOW: Monocular Human-Object Reconstruction by Stacked Normalizing Flow with Offset [56.71580976007712]
We propose to use the Human-Object Offset between anchors which are densely sampled from the surface of human mesh and object mesh to represent human-object spatial relation. Based on this representation, we propose Stacked Normalizing Flow (StackFLOW) to infer the posterior distribution of human-object spatial relations from the image. During the optimization stage, we finetune the human body pose and object 6D pose by maximizing the likelihood of samples.
arXiv Detail & Related papers (2024-07-30T04:57:21Z)
Mixed Diffusion for 3D Indoor Scene Synthesis [55.94569112629208]
We present MiDiffusion, a novel mixed discrete-continuous diffusion model architecture. We represent a scene layout by a 2D floor plan and a set of objects, each defined by its category, location, size, and orientation. Our experimental results demonstrate that MiDiffusion substantially outperforms state-of-the-art autoregressive and diffusion models in floor-conditioned 3D scene synthesis.
arXiv Detail & Related papers (2024-05-31T17:54:52Z)
Multimodal Sense-Informed Prediction of 3D Human Motions [16.71099574742631]
This work introduces a novel multi-modal sense-informed motion prediction approach, which conditions high-fidelity generation on two modal information. The gaze information is regarded as the human intention, and combined with both motion and scene features, we construct a ternary intention-aware attention to supervise the generation. On two real-world benchmarks, the proposed method achieves state-of-the-art performance both in 3D human pose and trajectory prediction.
arXiv Detail & Related papers (2024-05-05T12:38:10Z)
Beyond the Contact: Discovering Comprehensive Affordance for 3D Objects from Pre-trained 2D Diffusion Models [8.933560282929726]
We introduce a novel affordance representation, named Comprehensive Affordance (ComA) Given a 3D object mesh, ComA models the distribution of relative orientation and proximity of vertices in interacting human meshes. We demonstrate that ComA outperforms competitors that rely on human annotations in modeling contact-based affordance.
arXiv Detail & Related papers (2024-01-23T18:59:59Z)
Revisit Human-Scene Interaction via Space Occupancy [55.67657438543008]
Human-scene Interaction (HSI) generation is a challenging task and crucial for various downstream tasks. In this work, we argue that interaction with a scene is essentially interacting with the space occupancy of the scene from an abstract physical perspective. By treating pure motion sequences as records of humans interacting with invisible scene occupancy, we can aggregate motion-only data into a large-scale paired human-occupancy interaction database.
arXiv Detail & Related papers (2023-12-05T12:03:00Z)
Synthesizing Diverse Human Motions in 3D Indoor Scenes [16.948649870341782]
We present a novel method for populating 3D indoor scenes with virtual humans that can navigate in the environment and interact with objects in a realistic manner. Existing approaches rely on training sequences that contain captured human motions and the 3D scenes they interact with. We propose a reinforcement learning-based approach that enables virtual humans to navigate in 3D scenes and interact with objects realistically and autonomously.
arXiv Detail & Related papers (2023-05-21T09:22:24Z)
Probabilistic Human Mesh Recovery in 3D Scenes from Egocentric Views [32.940614931864154]
We propose a scene-conditioned diffusion method to model the body pose distribution. The method generates bodies in plausible human-scene interactions. It achieves superior accuracy for visible joints and diversity for invisible body parts.
arXiv Detail & Related papers (2023-04-12T17:58:57Z)
3D Segmentation of Humans in Point Clouds with Synthetic Data [21.518379214837278]
We propose the task of joint 3D human semantic segmentation, instance segmentation and multi-human body-part segmentation. We propose a framework for generating training data of synthetic humans interacting with real 3D scenes. We also propose a novel transformer-based model, Human3D, which is the first end-to-end model for segmenting multiple human instances and their body-parts.
arXiv Detail & Related papers (2022-12-01T18:59:21Z)
COPILOT: Human-Environment Collision Prediction and Localization from Egocentric Videos [62.34712951567793]
The ability to forecast human-environment collisions from egocentric observations is vital to enable collision avoidance in applications such as VR, AR, and wearable assistive robotics. We introduce the challenging problem of predicting collisions in diverse environments from multi-view egocentric videos captured from body-mounted cameras. We propose a transformer-based model called COPILOT to perform collision prediction and localization simultaneously.
arXiv Detail & Related papers (2022-10-04T17:49:23Z)
Human-Aware Object Placement for Visual Environment Reconstruction [63.14733166375534]
We show that human-scene interactions can be leveraged to improve the 3D reconstruction of a scene from a monocular RGB video. Our key idea is that, as a person moves through a scene and interacts with it, we accumulate HSIs across multiple input images. We show that our scene reconstruction can be used to refine the initial 3D human pose and shape estimation.
arXiv Detail & Related papers (2022-03-07T18:59:02Z)
Perceiving 3D Human-Object Spatial Arrangements from a Single Image in the Wild [96.08358373137438]
We present a method that infers spatial arrangements and shapes of humans and objects in a globally consistent 3D scene. Our method runs on datasets without any scene- or object-level 3D supervision.
arXiv Detail & Related papers (2020-07-30T17:59:50Z)

This list is automatically generated from the titles and abstracts of the papers in this site.