This article presents the fundamental principles and properties of the Power-Oriented Graphs (POG) modeling technique. It first introduces the key concepts of energy and power variables, as well as the modular structure of POG based on Elaboration Blocks (EBs) and Connection Blocks (CBs). The article then discusses the principles of series and parallel connections, and how they can be represented using generalized Kirchhoff's laws in the POG framework.
The article showcases several case studies in different energy domains, including a DC motor driving an hydraulic pump, an hydraulic Continuous Variable Transmission, and a Permanent Magnet Synchronous Motor. These examples illustrate how the POG technique can be systematically applied to model complex multi-physics systems.
The article also compares the POG technique with other graphical modeling approaches like Bond Graphs and Energetic Macroscopic Representation. Finally, it introduces a new Fast Modeling POG (FMPOG) procedure that provides a step-by-step guide for deriving the POG model and state-space representation of physical systems.
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by Davide Tebal... pada arxiv.org 09-26-2024
https://arxiv.org/pdf/2409.16948.pdfPertanyaan yang Lebih Dalam