Monocular 3D Human Pose Estimation

Abstract: The focus of this work is the task of 3D human pose estimation, more specifically by making use of key points located in single monocular images in order to estimate the location of human body joints in a 3D space. It was done in association with Tracab, a company based in Stockholm, who specialises in advanced sports tracking and analytics solutions. Tracab’s core product is their optical tracking system for football, which involves installing multiple highspeed cameras around the sports venue. One of the main benefits of this work will be to reduce the number of cameras required to create the 3D skeletons of the players, hence reducing production costs as well as making the whole process of creating the 3D skeletons much simpler in the future. The main problem we are tackling consists in going from a set of 2D joint locations and lifting them to a 3D space, which would add an information of depth to the joint locations. One problem with this task is the limited availability of in-thewild datasets with corresponding 3D ground truth labels. We hope to tackle this issue by making use of the restricted Human3.6m dataset along with the Tracab dataset in order to achieve adequate results. Since the Tracab dataset is very large, i.e millions of unique poses and skeletons, we have focused our experiments on a single football game. Although extensive research has been done in the field by using architectures such as convolutional neural networks, transformers, spatial-temporal architectures and more, we are tackling this issue by making use of a simple feedforward neural network developed by Martinez et al, this is mainly possible due to the abundance of data available at Tracab.