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Semantically Integrated Planning Model
Last uploaded:
December 11, 2021
| Acronym | SIMPM |
| Visibility | Public |
| Description | Semantically Integrated Manufacturing Planning Model(SIMPM), an upper-level ontology is a collection of OWL (Ontology Web Language) axioms, which may provide upper level semantics for capturing the knowledge of manufacturing process planning. It seeks to model three fundamental constraints of manufacturing process planning which are variety, time, and aggregation. This ontology is derived from a three dimensional planning model developed in a previous study. The primary goal of SIMPM foundation ontology is to link planning variables from one aggregation dimension to another by establishing logical links. In particular, every machinable feature of a part design is linked to suitable manufacturing processes, which in turn are linked to compatible machine and tool to use. The upper-level concepts of Manufacturing Process Planning(MPP) are extremely generic and the following help to demonstrate the efficacy of the set of axioms. |
| Status | Beta |
| Format | OWL |
| Contact | Dusan Sormaz , sormaz@ohio.edu |
| Categories | Mechanical and Industrial Engineering |
| URI | http://simpom.ohio.edu/mfg-planning# |
| competency Question | 1. How could a planner construct a process plan, which can produce a part/assembly (component) according to the product design and satisfy various specifications, such as geometry, dimensions, and tolerances? 2. How could a planner break down the specifications of a product design among its components? 3. How could a planner identify and allocate suitable manufacturing processes for a given set of specifications? 4. How could a planner select and allocate necessary machines to perform a specific manufacturing process? 5. How could a planner select and allocate necessary tools for a specific machine assigned to perform a specific manufacturing process? 6. How could a planner identify alternative manufacturing resources for a particular set of specifications? 7. How could a planner identify the order in which the components of a product design need to be performed? 8. How could a planner capture the order in which a set of allocated processes need to be performed to generate a component with required specifications? 9. How could a planner deduce the overall order among operations of process plan based on the inherent order among allocated manufacturing resources in each operation of a process plan? |
| deprecated | false |
| endorsed By | Ohio University (https://www.ohio.edu/) |
| funded By | Ohio University, (https://www.ohio.edu/) |
| Contributors | Arkopaul Sarkar, Dusan Sormaz |
| Creators | Arkopaul Sarkar, Dusan Sormaz |
| has Formality Level | http://w3id.org/nkos/nkostype#ontology |
| is Of Type | http://omv.ontoware.org/2005/05/ontology#UpperLevelOntology |
| Metadata vocabulary used | http://xmlns.com/foaf/0.1/, http://purl.org/dc/elements/1.1/, local:local, http://purl.obolibrary.org/obo/ |
| Natural Language | |
| Release date | 2021-12-11T00:00:00+00:00 |
| use Imports | http://www.industrialontologies.org/core/, https://github.com/CommonCoreOntology/CommonCoreOntologies/blob/master/AllCoreOntology.ttl |
| used Ontology Engineering Tool | http://protege.stanford.edu |
| version | Version 1.0 |
| was Generated By | Ohio University (https://www.ohio.edu/) |
| Version | Downloads | |||
|---|---|---|---|---|
| Version 1.0 (Parsed, Indexed, Metrics, Annotator) | 12/11/2021 | 12/11/2021 | OWL | CSV | RDF/XML |
No views of SIMPM available
| Classes | 47 |
| Individuals | 3 |
| Properties | 15 |
| Maximum depth | 5 |
| Maximum number of children | 7 |
| Average number of children | 2 |
| Classes with a single child | 11 |
| Classes with more than 25 children | 0 |
| Classes with no definition | 32 |
We are still collecting data for SIMPM
No projects using SIMPM