iGROWL: Improved Group Detection With Link Prediction

Viktor Schmuck;Oya Celiktutan
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Abstract

One of the main challenges robots need to overcome is crowd analysis. Crowd analysis deals with the detection of individuals and interaction groups as well as the recognition of their activities. This paper focuses on the detection of conversational groups, where there have been a number of approaches addressing this problem in both supervised and unsupervised ways. Supervised bottom-up approaches primarily relied on pairwise affinity matrices and were limited to static, third-person views. In this work, we present our approach based on Graph Neural Networks (GNNs) to the problem of interaction group detection, called improved Group Detection With Link Prediction (iGROWL). iGROWL utilises the fact that interaction groups exist in certain inherent spatial configurations and improves its predecessor, GROWL, by introducing an ensemble learning-based sample balancing technique to the algorithm. Our results show that iGROWL outperforms other state-of-the-art methods by 16.7% and 26.4% in terms of $F_{1}$ -score when evaluated on the Salsa Poster Session and Cocktail Party datasets, respectively. Moreover, we show that sample balancing with GNNs is not trivial, but consistent results can be achieved by employing ensemble learning.
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iGROWL:基于链路预测的改进组检测
机器人需要克服的主要挑战之一是人群分析。群体分析涉及个人和互动群体的检测以及对其活动的识别。本文的重点是会话组的检测,其中已经有许多方法以监督和非监督的方式解决这个问题。监督的自下而上方法主要依赖于成对亲和矩阵,并且仅限于静态的第三人称视图。在这项工作中,我们提出了基于图神经网络(GNNs)的方法来解决交互组检测问题,称为改进的带有链接预测的组检测(iGROWL)。iGROWL利用了交互组存在于某些固有空间配置的事实,并通过在算法中引入基于集成学习的样本平衡技术来改进其前身GROWL。我们的结果表明,当在Salsa Poster Session和Cocktail Party数据集上进行评估时,iGROWL在$ f_bb_0 $ -score方面分别比其他最先进的方法高出16.7%和26.4%。此外,我们表明使用gnn的样本平衡不是微不足道的,但通过使用集成学习可以获得一致的结果。
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2024 Index IEEE Transactions on Biometrics, Behavior, and Identity Science Vol. 6 Table of Contents IEEE T-BIOM Editorial Board Changes IEEE Transactions on Biometrics, Behavior, and Identity Science Cutting-Edge Biometrics Research: Selected Best Papers From IJCB 2023
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