Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
Project: COMPOSITION
Updated at: 29-04-2024
During the first stages of the Task 3.2 a thoroughanalysis of the existing well-known standards related to manufacturing, sensors, buildings and process modellinghas been conducted. Chapter 5 in this deliverable describes in short the results of this analysis by presenting the standards which selected as the best candidates to be used in DFM schema’s implementation. Many of them finally were selected for the DFM design. Before introducing thestate of the art review, worthy of mention are languages and formats used by existing standards of Digital Factory modelling.