Supply Chain Digital Twin
Overview
The Supply Chain Digital Twin creates a virtual representation of the physical supply chain for real-time monitoring, predictive analytics, and simulation. It enables continuous optimization through what-if analysis and performance prediction.
Capabilities
- Real-Time Supply Chain State Representation: Live digital model
- Predictive Analytics Integration: Forward-looking performance prediction
- Scenario Simulation: What-if analysis on digital model
- Anomaly Detection: Deviation identification from expected patterns
- Optimization Recommendation: AI-driven improvement suggestions
- What-If Analysis: Impact assessment of proposed changes
- Performance Prediction: Future state forecasting
- Continuous Learning Integration: Model improvement from actuals
Input Schema
digital_twin_request:
twin_scope:
network_elements: array
processes: array
time_horizon: string
real_time_feeds:
erp_integration: object
iot_sensors: array
tracking_feeds: array
model_configuration:
physics_models: object
ml_models: array
business_rules: array
simulation_scenarios: array
prediction_horizon: string
anomaly_detection_config:
sensitivity: float
alert_rules: array
Output Schema
digital_twin_output:
current_state:
network_status: object
inventory_positions: object
in_transit: array
production_status: object
kpis: object
predictions:
demand_forecast: object
supply_forecast: object
risk_predictions: array
kpi_projections: object
anomalies:
detected_anomalies: array
- anomaly_id: string
type: string
severity: string
location: string
description: string
recommended_action: string
scenario_results:
scenarios: array
- scenario_name: string
predicted_outcomes: object
risks: array
recommendations: array
optimization_recommendations:
immediate: array
short_term: array
strategic: array
model_health:
accuracy_metrics: object
data_quality: object
model_drift: object
visualizations:
network_view: object
flow_animation: object
prediction_charts: array
Usage
Real-Time Network Monitoring
Input: Live data feeds, network model
Process: Update digital twin state continuously
Output: Real-time visibility dashboard
Predictive Performance Analysis
Input: Current state, ML models, forecast horizon
Process: Predict future network performance
Output: Performance predictions with confidence
What-If Scenario Analysis
Input: Proposed change, current twin state
Process: Simulate impact on digital twin
Output: Scenario outcome prediction
Integration Points
- IoT Platforms: Sensor and device data
- Real-Time Data Streams: Event streaming platforms
- ML Platforms: Predictive model deployment
- Visualization Platforms: 3D and interactive visualization
- Tools/Libraries: Digital twin platforms, IoT integration, ML models
Process Dependencies
- Supply Chain Network Design
- Supply Chain Disruption Response
- Supply Chain KPI Dashboard Development
Best Practices
- Start with high-value use cases
- Ensure real-time data quality
- Validate twin accuracy regularly
- Balance model complexity with maintainability
- Integrate with decision-making processes
- Plan for continuous model improvement