A tailored course, built for your situation
Mastering ISO 22301 for Critical Infrastructure Engineering Leaders
Achieve total command of business continuity frameworks in high-voltage environments
Who this is for
Senior engineering leader in critical infrastructure or utilities, responsible for compliance, business continuity, and operational resilience under ISO 22301 and high-voltage safety standards
Who this is not for
Junior engineers, general IT staff, or professionals outside regulated infrastructure sectors
What you walk away with
- Full lifecycle command of ISO 22301 implementation from scoping to audit
- Ability to define recovery time objectives aligned with 132 kV system criticality
- Structured business impact analysis templates validated in utility environments
- Customizable playbooks for regulator-facing continuity testing
- Authority to lead cross-functional continuity planning without senior escalation
The 12 modules (with all 144 chapters)
- What ISO 22301 means for engineers
- Scope in 132 kV environments
- Regulatory drivers in ASEAN
- Linking PEng responsibilities
- ACPE competency alignment
- Utility vs commercial contexts
- Risk appetite thresholds
- Stakeholder mapping
- Lifecycle phases overview
- Common implementation myths
- Integration with safety protocols
- Baseline assessment methods
- System boundary mapping
- In-scope assets identification
- Exclusion justification framework
- Governance committee structure
- Role of PEng sign-off
- Document control strategy
- Risk tolerance alignment
- Stakeholder approval workflow
- Legal and regulatory touchpoints
- Third-party dependency mapping
- Internal audit integration
- Version control protocols
- Impact criteria definition
- Critical function identification
- MTD calculation methods
- RTO vs RPO distinction
- Cascading failure modeling
- Customer impact quantification
- Safety system dependencies
- Data collection templates
- Interview frameworks
- Validation with operations
- Prioritization matrix
- Documentation standards
- Threat categories overview
- Failure mode identification
- Likelihood rating scales
- Impact severity bands
- Heat map construction
- Single point of failure analysis
- Natural disaster modeling
- Human error scenarios
- Cyber-physical interface risks
- Supply chain vulnerabilities
- Residual risk assessment
- Risk treatment pathways
- Recovery time objectives
- Resource availability planning
- Work area recovery design
- Critical spare parts logistics
- Mutual aid agreements
- Alternate site feasibility
- Technical workaround protocols
- Personnel recall procedures
- Vendor escalation paths
- Energy restoration sequencing
- Testing recovery time claims
- Documentation of trade-offs
- Plan hierarchy design
- Activation criteria definition
- Crisis communication protocols
- Response team roles
- Command center setup
- Escalation procedures
- Public statement templates
- Regulator notification steps
- Internal reporting chains
- Legal hold procedures
- Media inquiry handling
- Plan distribution controls
- Substation recovery sequencing
- Relay protection checks
- SCADA system restoration
- Control center failover
- Remote access setup
- Data integrity validation
- Instrumentation calibration
- Electrical safety interlocks
- Transformer re-energizing
- Cable fault tracing
- Switchgear testing
- Documentation of recovery steps
- Test type selection
- Tabletop exercise design
- Simulation scenarios
- Participant briefings
- Success criteria definition
- Live drill safety plans
- Documentation requirements
- Gap identification
- Post-exercise reporting
- Regulatory audit alignment
- Frequency guidelines
- Lessons learned integration
- Incident classification
- Activation thresholds
- Joint command structure
- Information flow design
- Resource mobilization
- Public communication
- Legal and regulatory holds
- Evidence preservation
- Media relations
- Internal updates
- Post-incident review
- Continuous improvement
- Audience segmentation
- Training needs analysis
- Curriculum design
- Delivery methods
- Simulation participation
- Competency assessment
- Refresher cycles
- Leadership engagement
- Vendor training
- Public awareness
- Feedback mechanisms
- Effectiveness measurement
- Audit schedule design
- Checklist development
- Evidence collection
- Nonconformance tracking
- Corrective action process
- Executive reporting
- KPI monitoring
- Trend analysis
- Resource adequacy review
- Policy update cycle
- Stakeholder feedback
- Continuous improvement loop
- Registrar selection
- Pre-certification gap analysis
- Document finalization
- Internal readiness check
- External auditor expectations
- Evidence pack assembly
- Interview preparation
- Nonconformance response
- Corrective action timing
- Surveillance audit prep
- Certification maintenance
- Re-certification roadmap
How this maps to your situation
- Implementing ISO 22301 in regulated engineering environments
- Leading BCMS projects without prior formal training
- Responding to audit findings related to continuity planning
- Building cross-functional support for recovery initiatives
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 course access.
Time investment: Approximately 2.5 hours per module, designed for completion over 6, 8 weeks with real-world application.
How this compares to the alternatives
Unlike generic ISO 22301 training, this course is tailored to engineering leaders in critical infrastructure, with focus on 132 kV systems, regulatory compliance, and operational continuity under real-world constraints.
Frequently asked
Within 24 hours your account in the learning environment is provisioned and the tailored implementation playbook is delivered alongside it.