A real-time, multi-subject three-dimensional pose tracking system for the behavioral analysis of non-human primates.

IF 4.3 Q1 BIOCHEMICAL RESEARCH METHODS

Cell Reports Methods Pub Date : 2025-02-24 Epub Date: 2025-02-17 DOI:10.1016/j.crmeth.2025.100986

Chaoqun Cheng, Zijian Huang, Ruiming Zhang, Guozheng Huang, Han Wang, Likai Tang, Xiaoqin Wang

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Abstract

The ability to track the positions and poses of multiple animals in three-dimensional (3D) space in real time is highly desired by non-human primate (NHP) researchers in behavioral and systems neuroscience. This capability enables the analysis of social behaviors involving multiple NHPs and supports closed-loop experiments. Although several animal 3D pose tracking systems have been developed, most are difficult to deploy in new environments and lack real-time analysis capabilities. To address these limitations, we developed MarmoPose, a deep-learning-based, real-time 3D pose tracking system for multiple common marmosets, an increasingly critical NHP model in neuroscience research. This system can accurately track the 3D poses of multiple marmosets freely moving in their home cage with minimal hardware requirements. By employing a marmoset skeleton model, MarmoPose can further optimize 3D poses and estimate invisible body locations. Additionally, MarmoPose achieves high inference speeds and enables real-time closed-loop experimental control based on events detected from 3D poses.

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用于非人类灵长类动物行为分析的实时、多主体三维姿态跟踪系统。

在三维（3D）空间中实时跟踪多个动物的位置和姿势的能力是行为和系统神经科学领域非人类灵长类动物（NHP）研究人员高度期望的。该功能可以分析涉及多个nhp的社会行为，并支持闭环实验。虽然已经开发了几种动物3D姿态跟踪系统，但大多数系统难以在新环境中部署，并且缺乏实时分析能力。为了解决这些限制，我们开发了MarmoPose，这是一种基于深度学习的实时3D姿态跟踪系统，用于多种常见的狨猴，这是神经科学研究中越来越重要的NHP模型。该系统可以准确地跟踪多个狨猴的3D姿态自由移动在他们的家庭笼子与最小的硬件要求。通过使用狨猴骨架模型，MarmoPose可以进一步优化3D姿势并估计不可见的身体位置。此外，MarmoPose实现了高推理速度，并基于从3D姿势检测到的事件实现了实时闭环实验控制。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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