A tailored course, built for your situation
Mastering ISO 22301 for Global Engineering Leaders
Achieve complete command of business continuity frameworks with a globally recognized standard
Who this is for
Senior engineering leader in global services with 20+ years in systems delivery and technology governance, currently shaping data and AI strategy across jurisdictions
Who this is not for
Entry-level practitioners, auditors without implementation experience, or professionals focused solely on regional compliance without global delivery context
What you walk away with
- Map ISO 22301 controls directly to distributed cloud and data architectures
- Design continuity plans with embedded AI/ML workloads in scope
- Lead certification audits with full narrative control and zero last-minute scrambles
- Produce jurisdiction-aware documentation that satisfies both EU and APAC reviewers
- Build a living continuity playbook that evolves with engineering velocity
The 12 modules (with all 144 chapters)
- Scope definition
- Normative references
- Terminology alignment
- Context of the organization
- Leadership commitment
- Policy development
- Planning requirements
- Risk assessment approach
- Business impact analysis
- Continuity strategy
- Resource requirements
- Exercise planning
- Global vs regional applicability
- Time-zone aware response
- Cross-border data flows
- Language considerations
- Legal jurisdiction alignment
- Cultural response norms
- Vendor dependencies
- Third-party assurance
- Cloud provider roles
- On-prem integration
- Hybrid model design
- Escalation paths
- Clause 5.1 interpretation
- Clause 5.2 implementation
- Clause 5.3 governance
- Clause 6.1 risk logic
- Clause 6.2 objective setting
- Clause 7.1 resource planning
- Clause 7.2 training design
- Clause 7.3 awareness rollout
- Clause 7.4 communication
- Clause 7.5 document control
- Clause 8.1 exercise cadence
- Clause 8.2 response coordination
- System criticality tiers
- Data classification levels
- RTO definition
- RPO definition
- Application dependencies
- Service interdependencies
- AI model retraining window
- Data pipeline continuity
- Customer impact scoring
- Financial impact modeling
- Recovery priority matrix
- BIA validation method
- Recovery site selection
- Cloud replication design
- Data backup frequency
- Model checkpointing
- Failover automation
- Manual override paths
- Resource allocation
- Staffing model
- Communication tree
- Vendor coordination
- Escalation procedure
- Strategy validation
- Plan structure
- Role assignment
- Contact list
- Communication templates
- Decision matrices
- Checklists
- Runbooks
- AI incident addendum
- Data incident annex
- Legal hold process
- Media response
- Plan distribution
- Exercise types
- Tabletop design
- Walkthrough facilitation
- Simulation scope
- Stress testing
- AI failure injection
- Data corruption test
- Vendor participation
- Success criteria
- Participant roles
- Scoring method
- After-action reporting
- Audit scope
- Document readiness
- Evidence collection
- Interview preparation
- Nonconformance handling
- Corrective action
- Pre-audit checklist
- Management review
- Internal audit cycle
- External audit coordination
- Certification body selection
- Audit follow-up
- Review frequency
- Trigger events
- Change management
- Version control
- Plan distribution
- Access control
- Update process
- Leadership sign-off
- Stakeholder notification
- Retention policy
- Archival method
- Decommissioning
- Model version tracking
- Checkpoint storage
- Retraining triggers
- Data pipeline recovery
- Feature store backup
- Labeling pipeline
- Model drift detection
- Bias monitoring
- Explainability retention
- Audit log capture
- Model rollback
- Data lineage
- EU compliance
- APAC requirements
- Data sovereignty
- Incident reporting
- Notification timelines
- Regulatory coordination
- Law enforcement access
- Language-specific docs
- Local representation
- Cross-border escalation
- Data transfer mechanisms
- Local regulatory mapping
- Serverless recovery
- Microservices orchestration
- Edge node failover
- Kubernetes resilience
- CI/CD continuity
- Observability design
- Automated healing
- Security integration
- Zero-trust alignment
- DevOps role mapping
- Infrastructure as code
- Cloud-native patterns
How this maps to your situation
- When leading a global resilience initiative
- When preparing for ISO 22301 certification
- When onboarding new engineering regions
- When responding to regulatory inquiry
Before vs. after
What's included with your purchase
- 12 modules with 12 chapters each (144 chapters total)
- Downloadable templates and worked examples for every module
- Hand-built implementation playbook delivered alongside course access
- 30-day money-back guarantee
Delivery and format
- Course and learning environment access provisioned within 24 hours of purchase
- Hand-built implementation playbook delivered alongside course access
Format: Text-based modules and chapters in the Art of Service learning environment, plus downloadable templates and worked examples for every chapter, plus the hand-built implementation playbook delivered alongside access.
Time investment: 45-60 minutes per module, designed for completion over six weeks with leadership-ready outcomes at each milestone
How this compares to the alternatives
Unlike generic compliance courses, this program is tailored for senior engineering leaders who must implement ISO 22301 across complex, global data and AI systems, not just pass an audit, but own the framework.
Frequently asked
Within 24 hours your account in the learning environment is provisioned and the tailored implementation playbook is delivered alongside it.