Development of a Modular Virtual Calibration Platform for Power Machinery

Development of a Modular Virtual Calibration Platform for Power Machinery

The hardware-in-the-loop (HIL)-based virtual calibration technology for power machinery significantly enhances the efficiency and flexibility of electronic controller calibration, reducing dependency on physical experiments and lowering development costs. This paper presents an independently develop...

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Bibliographic Details
Main Authors: Wei Cui, Hongyu Liu, He Li, Shutao Zhang, Qingxin Wang, Wenrui Cui, Feiyang Zhao, Wenbin Yu
Format: Article
Language:English
Published: MDPI AG 2025-01-01
Series:Designs
Subjects:
virtual calibration
modular design
HIL
V-Model
ISO/IEC 42010
Online Access:https://www.mdpi.com/2411-9660/9/1/13
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Summary:The hardware-in-the-loop (HIL)-based virtual calibration technology for power machinery significantly enhances the efficiency and flexibility of electronic controller calibration, reducing dependency on physical experiments and lowering development costs. This paper presents an independently developed modular virtual calibration platform, designed based on the ISO/IEC 42010 architecture approach and the V-Model development process. The platform adopts a modular layered architecture comprising the physical layer, communication layer, model layer, software layer, and application layer. Each layer is independently developed and seamlessly integrated, ensuring excellent scalability and maintainability. Through performance validation conducted under steady-state and transient operating conditions of the diesel/natural gas dual-fuel engine electronic control unit (ECU), experimental results demonstrated that the platform possesses high computational accuracy, rapid response capability, and stable operation across different scenarios. The experiments validated that the platform can effectively replicate the real behavior of the controlled units in a virtual environment, confirming its adaptability and reliability. The platform offers an efficient and reliable solution for power machinery controller calibration.
ISSN:2411-9660

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