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Paper detail

DPDnet: A Robust People Detector using Deep Learning with an Overhead Depth Camera

In this paper we propose a method based on deep learning that detects multiple people from a single overhead depth image with high reliability. Our neural network, called DPDnet, is based on two fully-convolutional encoder-decoder neural blocks based on residual layers. The Main Block takes a depth image as input and generates a pixel-wise confidence map, where each detected person in the image is represented by a Gaussian-like distribution. The refinement block combines the depth image and the output from the main block, to refine the confidence map. Both blocks are simultaneously trained end-to-end using depth images and head position labels. The experimental work shows that DPDNet outperforms state-of-the-art methods, with accuracies greater than 99% in three different publicly available datasets, without retraining not fine-tuning. In addition, the computational complexity of our proposal is independent of the number of people in the scene and runs in real time using conventional GPUs.

preprint2020arXivOpen access
David Fuentes-JimenezRoberto Martin-LopezCristina Losada-GutierrezDavid Casillas-PerezJavier Macias-GuarasaDaniel PizarroCarlos A. Luna
Computer VisionMachine Learning
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David Fuentes-JimenezRoberto Martin-LopezCristina Losada-GutierrezDavid Casillas-PerezJavier Macias-GuarasaDaniel PizarroCarlos A. Luna

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