The complexity of decision-making in process industries and the need of highly competitive organizations require new supporting tools to coordinate and optimize the information flow among decision levels. This work presents a framework for integrating the scheduling and control decision levels by means of an ontology, which allows and coordinates the information exchange among the different modeling paradigms/conventions currently used for the enterprise-wide optimization (EWO). The scheduling of two multiproduct batch plants with increasing complexity is presented for illustrating the proposed working procedure
In the last decades, the integration of informatics applications supporting planning, scheduling and...
The integration of planning and scheduling decisions in rigorous mathematical models usually results...
The basis of decision-making in the enterprise consists in formally representing the system and its ...
The complexity of decision-making in process industries and the need of highly competitive organizat...
In the domain of chemical process engineering, there is an increased interest in the integration of ...
In this paper we consider the use of ontology as the basis for structuring and simplifying the proce...
The complexity of integrated planning and scheduling models can be tackled with decomposition techni...
Scheduling can be defined as the allocation of resources over time to perform a collection of tasks....
A crucial step for batch process improvement and optimization is to develop information structures t...
In this paper, we consider the use of ontologies as a basis for structuring and simplifying the proc...
In this paper we describe an ontology for a model of manufacturing scheduling problems to be solved ...
Enterprises are highly complex systems in which one or more organizations share a definite mission, ...
Part IV: ICT and Emerging Technologies in Production ManagementInternational audienceThis contributi...
The broad objective of this research is to employ concepts from optimization theory, artificial inte...
Cyber-physical production systems provide a flexible and open mechanism for manufacturing process sc...
In the last decades, the integration of informatics applications supporting planning, scheduling and...
The integration of planning and scheduling decisions in rigorous mathematical models usually results...
The basis of decision-making in the enterprise consists in formally representing the system and its ...
The complexity of decision-making in process industries and the need of highly competitive organizat...
In the domain of chemical process engineering, there is an increased interest in the integration of ...
In this paper we consider the use of ontology as the basis for structuring and simplifying the proce...
The complexity of integrated planning and scheduling models can be tackled with decomposition techni...
Scheduling can be defined as the allocation of resources over time to perform a collection of tasks....
A crucial step for batch process improvement and optimization is to develop information structures t...
In this paper, we consider the use of ontologies as a basis for structuring and simplifying the proc...
In this paper we describe an ontology for a model of manufacturing scheduling problems to be solved ...
Enterprises are highly complex systems in which one or more organizations share a definite mission, ...
Part IV: ICT and Emerging Technologies in Production ManagementInternational audienceThis contributi...
The broad objective of this research is to employ concepts from optimization theory, artificial inte...
Cyber-physical production systems provide a flexible and open mechanism for manufacturing process sc...
In the last decades, the integration of informatics applications supporting planning, scheduling and...
The integration of planning and scheduling decisions in rigorous mathematical models usually results...
The basis of decision-making in the enterprise consists in formally representing the system and its ...