20240012695. System Integration in Automation Engineering simplified abstract (ABB Schweiz AG)
Contents
System Integration in Automation Engineering
Organization Name
Inventor(s)
Nicolai Schoch of Heidelberg (DE)
Mario Hoernicke of Landau (DE)
Katharina Stark of Weinheim (DE)
System Integration in Automation Engineering - A simplified explanation of the abstract
This abstract first appeared for US patent application 20240012695 titled 'System Integration in Automation Engineering
Simplified Explanation
The abstract describes a method performed by an integration subsystem to integrate multiple automation engineering subsystems into a single system using ontological models. This facilitates interoperability between the subsystems.
- The method involves using ontological models to interface between automation engineering subsystems.
- The integration subsystem enables the aggregation of multiple subsystems into a single system.
- The use of ontological models facilitates interoperability between the subsystems.
Potential Applications:
- Industrial automation: This method can be applied in industries where multiple automation engineering subsystems need to be integrated, such as manufacturing plants or power plants.
- Smart homes/buildings: The method can be used to integrate various automation systems in smart homes or buildings, allowing for centralized control and management.
Problems Solved:
- Lack of interoperability: The method addresses the challenge of integrating diverse automation engineering subsystems that may use different protocols or standards.
- Complex integration process: By using ontological models, the method simplifies the integration process and reduces the complexity of connecting different subsystems.
Benefits:
- Improved efficiency: The integration of automation engineering subsystems into an aggregate system improves overall efficiency by enabling centralized control and coordination.
- Cost savings: By integrating existing subsystems instead of replacing them, the method can save costs associated with purchasing new systems.
- Scalability: The method allows for easy scalability as new subsystems can be integrated into the aggregate system using the same ontological models.
Original Abstract Submitted
a method performed by an integration subsystem for integrating a plurality of automation engineering subsystems into an aggregate system, the method comprising using at least one ontological model to interface a first said automation engineering subsystem with a second said automation engineering subsystem. interoperability of the subsystems is therefore facilitated.