CYENS Centre of Excellence
Published August 30, 2024 | Version v1
Journal article Open

DeepSafe: Two-level deep learning approach for disaster victims detection

Authors/Creators

Description

Background: Efficient disaster victim detection (DVD) in urban areas after natural disasters is crucial for minimizing losses. However, conventional search and rescue (SAR) methods often experience delays, which can hinder the timely detection of victims. SAR teams face various challenges, including limited access to debris and collapsed structures, safety risks due to unstable conditions, and disrupted communication networks.

Methods: In this paper, we present DeepSafe, a novel two-level deep learning approach for multilevel classification and object detection using a simulated disaster victim dataset. DeepSafe first employs YOLOv8 to classify images into victim and non-victim categories. Subsequently, Detectron2 is used to precisely locate and outline the victims.

Results: Experimental results demonstrate the promising performance of DeepSafe in both victim classification and detection. The model effectively identified and located victims under the challenging conditions presented in the dataset.

Conclusion: DeepSafe offers a practical tool for real-time disaster management and SAR operations, significantly improving conventional methods by reducing delays and enhancing victim detection accuracy in disaster-stricken urban areas.

 

This work has been partly supported by the project that has received funding from the European Union's Horizon 2020 research and innovation programme under grant agreement No 739578 (RISE – Call: H2020-WIDESPREAD-01-2016-2017-TeamingPhase2) and the Republic of Cyprus through the Deputy Ministry of Research, Innovation and Digital Policy.

Files

DeepSafe Two-level deep learning approach for disaster victims detection.pdf

Files (7.2 MB)

Additional details

Funding

European Commission
RISE - Research Center on Interactive Media, Smart System and Emerging Technologies 739578