TheArtOfService
Cross-Framework Mapping

3GPP Security Architecture (TS 33.501 — 5G Security)vsENISA Privacy-Enhancing Technologies Reports and Recommendations

See exactly how 3GPP Security Architecture (TS 33.501 — 5G Security) controls map to ENISA Privacy-Enhancing Technologies Reports and Recommendations. Pre-computed mappings, identified gaps, and coverage analysis.

8
Controls Mapped
14
Gaps Found
18%
Coverage

According to the TheArtOfService Compliance Knowledge Graph:

3GPP Security Architecture (TS 33.501 — 5G Security) maps to ENISA Privacy-Enhancing Technologies Reports and Recommendations with 18% coverage across 4 directly mapped controls. Analysis of 22 3GPP Security Architecture (TS 33.501 — 5G Security) controls identifies 18 compliance gaps — primarily concentrated in Authentication and Key Management.

Source: TheArtOfService Knowledge Graph | 22 controls analysed | 693 frameworks | 819K+ cross-framework mappings

Control Mappings

Showing 8 of 8 mapped controls across 3 domains. Sign up to explore all 819K+ mappings across 693 frameworks.

Subscriber Privacy and Service Security(2 mappings)

6.12Subscription Identifier Privacy2 targets
PET-2.1Homomorphic Encryption
PET-2.2Encryption at Rest and in Transit

Radio and Access Network Security(4 mappings)

6.6RRC and UP Ciphering and Integrity2 targets
PET-2.1Homomorphic Encryption
PET-2.2Encryption at Rest and in Transit
6.7Security Key Establishment for Radio Bearers2 targets
PET-2.1Homomorphic Encryption
PET-2.2Encryption at Rest and in Transit

Non-3GPP and Inter-Network Security(2 mappings)

9.1N32 Interface Security (PRINS/TLS)2 targets
PET-2.1Homomorphic Encryption
PET-2.2Encryption at Rest and in Transit

Related Comparisons

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Other ENISA Privacy-Enhancing Technologies Reports and Recommendations comparisons

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What are the key differences between 3GPP Security Architecture (TS 33.501 — 5G Security) and ENISA Privacy-Enhancing Technologies Reports and Recommendations?

3GPP Security Architecture (TS 33.501 — 5G Security) has 22 controls across its framework, while ENISA Privacy-Enhancing Technologies Reports and Recommendations covers 15 controls. Direct mapping analysis identifies 4 overlapping controls (18% coverage). The frameworks diverge most significantly in Authentication and Key Management, where 5 3GPP Security Architecture (TS 33.501 — 5G Security) controls have no direct ENISA Privacy-Enhancing Technologies Reports and Recommendations equivalent.

How many controls map between 3GPP Security Architecture (TS 33.501 — 5G Security) and ENISA Privacy-Enhancing Technologies Reports and Recommendations?

Of 22 total 3GPP Security Architecture (TS 33.501 — 5G Security) controls, 4 map directly to ENISA Privacy-Enhancing Technologies Reports and Recommendations controls — representing 18% coverage. The remaining 18 controls represent compliance gaps requiring additional documentation or compensating controls to satisfy both frameworks simultaneously.

What are the compliance gaps when mapping 3GPP Security Architecture (TS 33.501 — 5G Security) to ENISA Privacy-Enhancing Technologies Reports and Recommendations?

18 3GPP Security Architecture (TS 33.501 — 5G Security) controls have no direct equivalent in ENISA Privacy-Enhancing Technologies Reports and Recommendations. The highest concentration of gaps is in Authentication and Key Management with 5 unmapped controls. These gaps represent areas where additional controls, policies, or documentation must be created to achieve compliance with both frameworks.

Which control domains have the most gaps between 3GPP Security Architecture (TS 33.501 — 5G Security) and ENISA Privacy-Enhancing Technologies Reports and Recommendations?

The domain with the highest gap count is Authentication and Key Management (5 gaps). Export the full domain-by-domain gap breakdown via the Professional tier to generate a prioritised remediation roadmap.

Related Resources

How to Map Controls Across Frameworks|Multi-Framework Compliance Guide|Compliance Glossary

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