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Auteurs principaux: Hasna, Abdallah Abou, Chendeb, Nada, Falou, Ammar El
Format: Preprint
Publié: 2026
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Accès en ligne:https://arxiv.org/abs/2604.24404
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author Hasna, Abdallah Abou
Chendeb, Nada
Falou, Ammar El
author_facet Hasna, Abdallah Abou
Chendeb, Nada
Falou, Ammar El
contents Public warning systems (PWS) in cellular networks enable authorities to broadcast emergency alerts to all mobile phones in a geographic region in the event of threats such as earthquakes or severe weather. If an attacker can imitate these alerts and transmit a forged warning containing fake news or phishing links, the impact could range from public panic to user compromise. In this work, we present the first open-source 5G emergency alert spoofing attack, implemented by modifying the openairinterface (OAI) radio access network (RAN) code and executed using a software-defined radio, complemented by a custom network management system to automate network and warning configuration. We conduct a detailed analysis of how different smartphones behave under various conditions. Our findings show that while devices readily display spoofed alerts, the alerting mechanism enables multiple practical attack scenarios beyond simple warning display. Finally, to address this threat, we propose and implement a lightweight cross-cell verification mechanism in OAI, in which the device compares the received warning with neighboring cell broadcasts to flag single-source alerts as suspicious.
format Preprint
id arxiv_https___arxiv_org_abs_2604_24404
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle From Spoofing to Trust: Emergency Alerts Spoofing Testbed and Cross-Cell Verification
Hasna, Abdallah Abou
Chendeb, Nada
Falou, Ammar El
Cryptography and Security
Signal Processing
Public warning systems (PWS) in cellular networks enable authorities to broadcast emergency alerts to all mobile phones in a geographic region in the event of threats such as earthquakes or severe weather. If an attacker can imitate these alerts and transmit a forged warning containing fake news or phishing links, the impact could range from public panic to user compromise. In this work, we present the first open-source 5G emergency alert spoofing attack, implemented by modifying the openairinterface (OAI) radio access network (RAN) code and executed using a software-defined radio, complemented by a custom network management system to automate network and warning configuration. We conduct a detailed analysis of how different smartphones behave under various conditions. Our findings show that while devices readily display spoofed alerts, the alerting mechanism enables multiple practical attack scenarios beyond simple warning display. Finally, to address this threat, we propose and implement a lightweight cross-cell verification mechanism in OAI, in which the device compares the received warning with neighboring cell broadcasts to flag single-source alerts as suspicious.
title From Spoofing to Trust: Emergency Alerts Spoofing Testbed and Cross-Cell Verification
topic Cryptography and Security
Signal Processing
url https://arxiv.org/abs/2604.24404