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Main Authors: Kogashi, Kaen, Cherian, Anoop, Kuo, Meng-Yu Jennifer
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2510.07828
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author Kogashi, Kaen
Cherian, Anoop
Kuo, Meng-Yu Jennifer
author_facet Kogashi, Kaen
Cherian, Anoop
Kuo, Meng-Yu Jennifer
contents Real-world scenes often feature multiple humans interacting with multiple objects in ways that are causal, goal-oriented, or cooperative. Yet existing 3D human-object interaction (HOI) benchmarks consider only a fraction of these complex interactions. To close this gap, we present MMHOI -- a large-scale, Multi-human Multi-object Interaction dataset consisting of images from 12 everyday scenarios. MMHOI offers complete 3D shape and pose annotations for every person and object, along with labels for 78 action categories and 14 interaction-specific body parts, providing a comprehensive testbed for next-generation HOI research. Building on MMHOI, we present MMHOI-Net, an end-to-end transformer-based neural network for jointly estimating human-object 3D geometries, their interactions, and associated actions. A key innovation in our framework is a structured dual-patch representation for modeling objects and their interactions, combined with action recognition to enhance the interaction prediction. Experiments on MMHOI and the recently proposed CORE4D datasets demonstrate that our approach achieves state-of-the-art performance in multi-HOI modeling, excelling in both accuracy and reconstruction quality. The MMHOI dataset is publicly available at https://zenodo.org/records/17711786.
format Preprint
id arxiv_https___arxiv_org_abs_2510_07828
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle MMHOI: Modeling Complex 3D Multi-Human Multi-Object Interactions
Kogashi, Kaen
Cherian, Anoop
Kuo, Meng-Yu Jennifer
Computer Vision and Pattern Recognition
Real-world scenes often feature multiple humans interacting with multiple objects in ways that are causal, goal-oriented, or cooperative. Yet existing 3D human-object interaction (HOI) benchmarks consider only a fraction of these complex interactions. To close this gap, we present MMHOI -- a large-scale, Multi-human Multi-object Interaction dataset consisting of images from 12 everyday scenarios. MMHOI offers complete 3D shape and pose annotations for every person and object, along with labels for 78 action categories and 14 interaction-specific body parts, providing a comprehensive testbed for next-generation HOI research. Building on MMHOI, we present MMHOI-Net, an end-to-end transformer-based neural network for jointly estimating human-object 3D geometries, their interactions, and associated actions. A key innovation in our framework is a structured dual-patch representation for modeling objects and their interactions, combined with action recognition to enhance the interaction prediction. Experiments on MMHOI and the recently proposed CORE4D datasets demonstrate that our approach achieves state-of-the-art performance in multi-HOI modeling, excelling in both accuracy and reconstruction quality. The MMHOI dataset is publicly available at https://zenodo.org/records/17711786.
title MMHOI: Modeling Complex 3D Multi-Human Multi-Object Interactions
topic Computer Vision and Pattern Recognition
url https://arxiv.org/abs/2510.07828