Agent-Skills.md

Agent Skills: Engineering Change Management Skill

Skill for engineering change request and order processing through PLM systems

design-review-documentationID: a5c-ai/babysitter/change-management

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a5c-ai/babysitter
a5c-aiLicense: MIT
244

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plugins/babysitter/skills/babysit/process/specializations/domains/science/mechanical-engineering/skills/change-management/SKILL.md

Skill Metadata

Name
change-management
Description
Skill for engineering change request and order processing through PLM systems

Engineering Change Management Skill

Purpose

The Engineering Change Management skill provides capabilities for managing engineering changes through PLM systems, ensuring controlled modification of designs with proper impact assessment and approval workflow.

Capabilities

  • ECR/ECO workflow initiation
  • Impact assessment guidance
  • Affected item identification
  • Approval routing configuration
  • Effectivity management
  • Documentation update tracking
  • Interchangeability analysis
  • Configuration management

Usage Guidelines

Change Management Framework

Change Types

| Type | Description | Urgency | Approval Level | |------|-------------|---------|----------------| | Class I | Form/fit/function change | Normal | Full review | | Class II | Minor change, no F/F/F impact | Normal | Limited review | | Deviation | Temporary non-conformance | Varies | Engineering | | Waiver | Accept as-is before build | Varies | Engineering | | Emergency | Safety/production critical | Urgent | Expedited |

Change Process Flow

1. Change Request (ECR)
   - Problem/opportunity identification
   - Preliminary impact assessment
   - Initial approval to investigate

2. Change Investigation
   - Detailed impact analysis
   - Solution development
   - Cost/schedule estimation

3. Change Order (ECO)
   - Formal change documentation
   - Approval routing
   - Implementation planning

4. Implementation
   - Document updates
   - Manufacturing notification
   - Effectivity management

5. Closure
   - Verification of implementation
   - Record completion

Engineering Change Request (ECR)

ECR Content

Required information:
- Problem statement
- Proposed solution (if known)
- Originator and date
- Affected items (preliminary)
- Impact assessment (preliminary)
- Priority/urgency
- Supporting documentation

Impact Categories

| Category | Assessment Questions | |----------|---------------------| | Technical | Does it affect performance, reliability, safety? | | Cost | What is development and recurring cost impact? | | Schedule | What is timeline impact? | | Manufacturing | Does it affect tooling, processes, suppliers? | | Service | Does it affect spare parts, maintenance procedures? | | Regulatory | Does it affect certifications, approvals? |

Engineering Change Order (ECO)

ECO Content

Required sections:
1. Change description
   - What is changing
   - Why change is needed
   - How change will be implemented

2. Affected items list
   - Part numbers
   - Document numbers
   - Revision levels (from/to)

3. Impact assessment
   - By category (cost, schedule, technical)
   - Risk assessment

4. Interchangeability
   - Form/fit/function analysis
   - Backward compatibility

5. Effectivity
   - Serial number/date effectivity
   - Retrofit requirements

6. Implementation plan
   - Tasks and responsibilities
   - Timeline
   - Verification requirements

Interchangeability Analysis

Interchangeability Codes

| Code | Meaning | Action | |------|---------|--------| | D | Direct interchangeable | Replace anywhere | | O | One-way interchangeable | New replaces old only | | N | Not interchangeable | Separate part number | | R | Retrofittable | Can upgrade old units |

Assessment Criteria

Form:
- Dimensions unchanged?
- Mounting unchanged?
- Interfaces unchanged?

Fit:
- Assembly process unchanged?
- Mating parts unaffected?
- Clearances maintained?

Function:
- Performance unchanged?
- Reliability maintained?
- Safety unaffected?

Approval Workflow

Standard Routing

Typical approval levels:
1. Originator - Complete ECR/ECO
2. Design Engineering - Technical review
3. Analysis Engineering - Impact verification
4. Manufacturing Engineering - Process review
5. Quality Assurance - Compliance review
6. Program Management - Cost/schedule review
7. Configuration Management - Release authority
8. Customer (if required) - Acceptance

Approval Criteria

| Role | Focus Areas | |------|-------------| | Design Engineering | Technical correctness | | Manufacturing | Producibility, tooling | | Quality | Inspection, compliance | | Supply Chain | Supplier impact, cost | | Program Management | Schedule, budget | | Customer | Contract compliance |

Effectivity Management

Effectivity Types

Serial number effectivity:
- Starting serial: S/N 100
- Ending serial: S/N 199 (or blank for ongoing)

Date effectivity:
- Effective date: 2026-02-01

Lot effectivity:
- Starting lot: LOT-2026-001

Implementation Planning

Implementation considerations:
- Work-in-process inventory
- Finished goods inventory
- Field units
- Spare parts inventory
- Documentation updates
- Training requirements

Documentation Updates

Affected Document Types

| Type | Update Required | Responsibility | |------|-----------------|----------------| | Drawings | New revision | Design | | Models | New revision | Design | | Specifications | As needed | Engineering | | Procedures | As needed | Manufacturing | | Manuals | As needed | Publications | | Training | As needed | Training |

Process Integration

  • ME-025: Engineering Change Management

Input Schema

{
  "change_type": "ECR|ECO|deviation|waiver",
  "problem_statement": "string",
  "proposed_solution": "string",
  "affected_items": [
    {
      "item_number": "string",
      "current_revision": "string",
      "item_type": "part|document|process"
    }
  ],
  "priority": "normal|urgent|emergency",
  "originator": "string",
  "supporting_documents": "array of references"
}

Output Schema

{
  "change_document": {
    "number": "string",
    "type": "ECR|ECO",
    "status": "draft|in_review|approved|implemented|closed"
  },
  "impact_assessment": {
    "technical": "string",
    "cost": "number",
    "schedule": "string",
    "manufacturing": "string"
  },
  "interchangeability": {
    "code": "D|O|N|R",
    "justification": "string"
  },
  "approval_routing": {
    "current_step": "string",
    "approvers": "array",
    "target_completion": "date"
  },
  "implementation_plan": {
    "tasks": "array",
    "effectivity": "object",
    "verification_method": "string"
  }
}

Best Practices

  1. Document problem clearly before proposing solution
  2. Assess all impact categories thoroughly
  3. Identify all affected items before approval
  4. Define clear effectivity for implementation
  5. Update all affected documentation
  6. Verify implementation before closure

Integration Points

  • Connects with Design Review for change evaluation
  • Feeds into Requirements Flowdown for traceability
  • Supports Configuration Management for control
  • Integrates with Quality for compliance