A prototype for crowd location and counting via deep learning over 5G SA network using 24/7 panoramic imaging for crowd handling during earthquakes

Lamas, Felipe; Pezoa, Jorge. E.; Saavedra, Gabriel; Godoy, Sebastián E.; Torres, Sergio N.; Montalva, Gonzalo A.; Meng, Weixiao

Keywords: artificial intelligence, deep learning, Convolutional neural networks, Crowd handling during earthquakes, 5G, 24/7 panoramic imaging, Crowd localization/counting, Cascaded autoencoders, FIDT maps

Abstract

This research shows a prototype for crowd location and counting for earthquakes based on deep learning and the infrastructure of a state-of-the-art 5G standalone network deployed at the Universidad de Concepcion, Chile. The system uses an 8 MP panoramic network camera to capture real-time crowd images, which are sent to a Deep Learning Server (DLS) over the 5G network. The camera provides visible color images, and its sensor technology can provide color images even at night. The DLS uses frames from the video feed and generates Focal Inverse Distance Transform (FIDT) maps, in which the counting and location of people are carried out. In particular, the FIDT maps are generated from the crowd images using a deep-learning model composed of two cascaded autoencoders. The 5G technology allows the system to transfer data from the camera to DLS at high speed, an essential feature for a system that will help authorities make critical decisions during natural disasters. Under this scenario, and considering that the number of rescuers is usually limited, our system enables a better distribution of them among several crowded places by instantly knowing the number of people at any time of the day or night.

Más información

Editorial: SPIE
Fecha de publicación: 2023
Año de Inicio/Término: 18-20 April 2023
Idioma: English
Financiamiento/Sponsor: ANID/NSFC via the PCI program grant number PII180009
URL: http://dx.doi.org/10.1117/12.2666921