A unified modeling framework that bridges objects, states, namespaces, and metadata into a cohesive digital organism for industrial automation. Experience PackML state machines, ISA-95 hierarchies, and real-time manufacturing flow visualization.
A comprehensive modeling approach that unifies objects, states, namespaces, and metadata into a single coherent framework for industrial automation systems.
Objects unify Enterprise → Site → Area → Line → Cell hierarchy with unified addressing
State machines normalize equipment and batch process lifecycles across all levels
Metadata (DNA) encodes type definitions, semantic information, and capabilities
“UOSF becomes the glue across ISA-95, ISA-88, and OPC UA by providing a unified modeling fabric where objects, states, namespaces, and metadata work as a cohesive digital organism.”
Comprehensive visualization of the five-level ISA-95 automation pyramid, from enterprise planning to field devices.
How the Unified Object-State Framework provides a consistent modeling approach across all automation levels
Unified Objects = Enterprise, Site, Orders with DNA for business rules
Unified State Machines = Production Order lifecycle, Batch lifecycle
Unified Namespaces = context-driven addressing, global object resolution
Unified Objects = Motor, Axis, Sensor with local states
DNA ties physical characteristics to digital models (Digital Twin)
Consistent object modeling across all levels
Common state management for all entities
Context-aware namespace resolution
Genetic blueprints define capabilities
Comprehensive industrial automation visualization with modern web technologies
Modern web technologies implementing the Unified Object-State Framework concepts
React Flow nodes with hierarchical structure
PackML state machines with Convex
Context-aware addressing system
TypeScript schemas and metadata