TheArtOfService
Cross-Framework Mapping

IEEE 1686vsMITRE D3FEND

See exactly how IEEE 1686 controls map to MITRE D3FEND. Pre-computed mappings, identified gaps, and coverage analysis.

5
Controls Mapped
2
Gaps Found
71%
Coverage

According to the TheArtOfService Compliance Knowledge Graph:

IEEE 1686 maps to MITRE D3FEND with 71% coverage across 5 directly mapped controls. Analysis of 7 IEEE 1686 controls identifies 2 compliance gaps — primarily concentrated in IEEE 1686 Section 6 + Supply Chain + Procurement + Physical.

Source: TheArtOfService Knowledge Graph | 7 controls analysed | 718 frameworks | 332K+ cross-framework mappings

Control Mappings

Showing 5 of 5 mapped controls across 5 domains. Sign up to explore all 332K+ mappings across 718 frameworks.

IEEE 1686 IR + Recovery + Reporting(1 mappings)

IEEE1686-IR-Recovery-Reporting-Exercises-Drills-RECOVIEEE 1686 - Incident Response + Recovery from Failed Update + Reporting to Authorities + Coordination with Sector-Specific Agencies + Exercises and Drills
MITRE-D3FEND-Evict-Tactic-Credential-Process-Eviction-Containment-Incident-Response-RecoveryMITRE D3FEND Evict Tactic + Credential + Process Eviction + Containment + Incident Response + Recovery

IEEE 1686 Scope + IED + Substation(1 mappings)

IEEE1686-Scope-IED-Substation-Automation-2022-IEC-NERC-NIST-CoordIEEE 1686 - Scope + Intelligent Electronic Devices (IEDs) + Substation Automation + 2022 Edition + Coordination with IEC 62351 + IEC 62443 + NERC CIP + NIST SP 800-82
MITRE-D3FEND-Model-Tactic-System-Inventory-Network-Mapping-Identity-Discovery-Asset-IdentificationMITRE D3FEND Model Tactic + System Inventory + Network Mapping + Identity Discovery + Asset Identification

IEEE 1686 Section 5.1 - Access Control(1 mappings)

IEEE1686-Section5.1-AccessControl-Accounts-Roles-Password-Session-RemoteIEEE 1686 Section 5.1 - Electronic Access Account Management + Roles + Password + Failed Login + Session + Remote Access + Personnel
MITRE-D3FEND-Harden-Tactic-Application-Credential-Message-Platform-Hardening-MFA-Encryption-Secure-BootMITRE D3FEND Harden Tactic + Application + Credential + Message + Platform + MFA + Encryption + Secure Boot

IEEE 1686 Section 5.2 + 5.3 - Audit Log + Monitoring(1 mappings)

IEEE1686-Section5.2-5.3-AuditLog-Retention-Export-MonitoringIEEE 1686 Section 5.2 + 5.3 - Audit Trail Records + Retention + Export + Supervisory Monitoring and Control + Network Security Monitoring
MITRE-D3FEND-Isolate-Tactic-Execution-Network-Isolation-Sandboxing-Microsegmentation-DNS-FilteringMITRE D3FEND Isolate Tactic + Execution + Network Isolation + Sandboxing + Microsegmentation + DNS Filtering

IEEE 1686 Section 5.5-5.8 - Firmware + Config + Time + Data(1 mappings)

IEEE1686-Section5.5-5.6-5.7-5.8-Firmware-ConfigSW-TimeSync-DataAtRestIEEE 1686 Section 5.5-5.8 - Firmware Quality + Configuration Software Security + Time Synchronisation + Data Protection at Rest + Patch + Malware + Hardening + Vulnerability
MITRE-D3FEND-Harden-Tactic-Application-Credential-Message-Platform-Hardening-MFA-Encryption-Secure-BootMITRE D3FEND Harden Tactic + Application + Credential + Message + Platform + MFA + Encryption + Secure Boot

Related Comparisons

Other IEEE 1686 comparisons

IEEE 1686 vs IEC 624436 mappingsIEEE 1686 vs API 11646 mappingsIEEE 1686 vs CISA Cross-Sector Cybersecurity Performance Goals (CPG) 2.06 mappingsIEEE 1686 vs ISO/IEC 27010:20156 mappingsIEEE 1686 vs OWASP DevSecOps Maturity Model (DSOMM)5 mappingsIEEE 1686 vs NIST SP 800-171A Rev 3 - Assessing CUI Security Requirements5 mappingsIEEE 1686 vs ISO/IEC 27011:20245 mappingsIEEE 1686 vs FFIEC Cybersecurity Assessment Tool (CAT)5 mappings

Other MITRE D3FEND comparisons

OWASP ASVS vs MITRE D3FEND6 mappingsISMAP (Japan) vs MITRE D3FEND6 mappingsAzure Security Benchmark vs MITRE D3FEND6 mappingsMITRE ATT&CK vs MITRE D3FEND6 mappingsAWS Well-Architected Security Pillar vs MITRE D3FEND6 mappingsIACS Unified Requirements E26/E27 - Cyber Resilience of Ships and On-Board Systems vs MITRE D3FEND5 mappingsISO/IEC 27011:2024 vs MITRE D3FEND5 mappingsAPRA CPS 234 vs MITRE D3FEND4 mappings

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What are the key differences between IEEE 1686 and MITRE D3FEND?

IEEE 1686 has 7 controls across its framework, while MITRE D3FEND covers 8 controls. Direct mapping analysis identifies 5 overlapping controls (71% coverage). The frameworks diverge most significantly in IEEE 1686 Section 6 + Supply Chain + Procurement + Physical, where 1 IEEE 1686 controls have no direct MITRE D3FEND equivalent.

How many controls map between IEEE 1686 and MITRE D3FEND?

Of 7 total IEEE 1686 controls, 5 map directly to MITRE D3FEND controls — representing 71% coverage. The remaining 2 controls represent compliance gaps requiring additional documentation or compensating controls to satisfy both frameworks simultaneously.

What are the compliance gaps when mapping IEEE 1686 to MITRE D3FEND?

2 IEEE 1686 controls have no direct equivalent in MITRE D3FEND. The highest concentration of gaps is in IEEE 1686 Section 6 + Supply Chain + Procurement + Physical with 1 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 IEEE 1686 and MITRE D3FEND?

The domain with the highest gap count is IEEE 1686 Section 6 + Supply Chain + Procurement + Physical (1 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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