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Introduction to AEDAn Automated External Defibrillator (AED) is a portable medical device that analyzes the heart's rhythm and, if necessary, delivers an electrical shock to help the heart re-establish an effective rhythm during sudden cardiac arrest (SCA). SCA occurs when the heart suddenly and unexpectedly stops beating, leading to a loss of blood flow to the brain and other vital organs. In such emergencies, time is of the essence, and using an AED, combined with Cardiopulmonary...
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Related Experiment Video

Updated: Aug 26, 2025

Digital Home-Monitoring of Patients after Kidney Transplantation: The MACCS Platform
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Multifactor Authentication for Smart Emergency Medical Response Transporters.

Turki Alghamdi1, Fayez Gebali2, Fares Salem2

  • 1Faculty of Computer and Information Systems, The Islamic University of Medinah, Prince Naif Ibn Abdulaziz, Al jamiah, Medinah 42351, Saudi Arabia.

International Journal of Telemedicine and Applications
|October 4, 2022
PubMed
Summary
This summary is machine-generated.

This study introduces a multifactor authentication scheme using physical unclonable functions (PUFs) to secure internet of things (IoT) telehealth during patient transport. The proposed system enhances security for mobile medical care against cyberattacks.

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Area of Science:

  • Cybersecurity
  • Medical Informatics
  • Internet of Things (IoT)

Background:

  • Telehealth IoT infrastructure is critical for modern healthcare delivery.
  • Securing connected medical devices, especially during patient transport, presents unique challenges.
  • Vulnerabilities in transit can lead to data breaches and compromise patient safety.

Purpose of the Study:

  • To propose a robust multifactor authentication scheme for telehealth IoT systems during patient transit.
  • To enhance the security of ambulance and air ambulance communication networks.
  • To prevent unauthorized access and cyberattacks on mobile healthcare infrastructure.

Main Methods:

  • Development of a novel multifactor authentication scheme tailored for mobile telehealth scenarios.
  • Integration of physical unclonable functions (PUFs) for secure device authentication and key exchange.
  • Application and validation of the scheme within an ambulance transport simulation.

Main Results:

  • The proposed scheme effectively authenticates devices and facilitates secure key exchange in transit.
  • Formal and informal security analyses confirm the scheme's resilience against various cyber threats.
  • Demonstrated protection against common attacks targeting connected medical devices.

Conclusions:

  • The multifactor authentication scheme significantly improves the security of telehealth IoT during patient transport.
  • PUF-based authentication offers a promising solution for securing mobile healthcare environments.
  • The findings contribute to safer and more reliable telehealth services, particularly in emergency medical transport.