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5G Network Slicing: Security Challenges, Attack Vectors, and Mitigation Approaches.

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Summary
This summary is machine-generated.

This study classifies 5G network slicing security threats across architectural layers and proposes mitigation strategies for multi-tenant environments. Enhanced defenses like AI monitoring and isolation are crucial for 5G network resilience.

Keywords:
5G networksnetwork slicingrisk mitigationsecurityvulnerabilities

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Area of Science:

  • Computer Science
  • Telecommunications Engineering

Background:

  • 5th Generation (5G) networks enable network slicing, creating virtual networks for diverse use cases.
  • Network slicing introduces unique security challenges in multi-tenant environments.

Purpose of the Study:

  • To classify security attacks within 5G network slicing architecture.
  • To propose practical mitigation strategies for identified vulnerabilities.

Main Methods:

  • Categorization of attacks based on 5G architectural layers (orchestration, virtualization, inter-slice communication).
  • Discussion of mitigation approaches focusing on real-time monitoring and access control.

Main Results:

  • A comprehensive classification of network slicing attacks and vulnerabilities.
  • Emphasis on layered defenses, AI-driven monitoring, and architectural isolation for enhanced security.

Conclusions:

  • Layered security mechanisms and AI-driven monitoring are essential for resilient 5G network slicing.
  • Architectural isolation is critical for securing multi-tenant 5G environments.