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An Adaptive Simultaneous Multi-Protocol Extension of CRAFT.

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Summary

This study enhances Internet of Things (IoT) security by introducing adaptive simultaneous multi-protocol (ASMP) features. ASMP improves the flexibility and security of remote attestation frameworks for connected devices.

Keywords:
Internet of Thingscomputer securitymulti-protocolremote attestationsmart-city

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Area of Science:

  • Computer Science
  • Cybersecurity
  • Network Engineering

Background:

  • The exponential growth of Internet of Things (IoT) devices presents significant cybersecurity challenges.
  • Remote attestation is crucial for establishing trust and verifying the integrity of IoT devices and networks.
  • Existing remote attestation solutions often have limited use-cases and flexibility.

Purpose of the Study:

  • To enhance the flexibility and security of existing IoT remote attestation frameworks.
  • To introduce adaptive simultaneous multi-protocol (ASMP) features for improved attestation capabilities.
  • To enable seamless switching between multiple remote attestation protocols based on dynamic factors.

Main Methods:

  • Proposed adaptive simultaneous multi-protocol (ASMP) features to augment the CRAFT framework.
  • Enabled devices to utilize multiple remote attestation protocols simultaneously.
  • Implemented dynamic protocol switching based on environmental context and network conditions.

Main Results:

  • ASMP features significantly improve the flexibility of remote attestation in IoT networks.
  • Enhanced security is achieved through the adaptive and multi-protocol approach.
  • The proposed features demonstrated minimal performance impact in real-world scenarios.

Conclusions:

  • The ASMP features represent a substantial improvement over existing remote attestation frameworks.
  • Adaptive and simultaneous multi-protocol attestation enhances IoT security and adaptability.
  • This approach offers a more robust solution for securing the growing landscape of connected devices.