Magnetic Levitation Remote Control Laboratory Based on Matlab and Websockets⁎

Q3 Engineering

IFAC-PapersOnLine Pub Date : 2024-01-01 DOI:10.1016/j.ifacol.2024.07.402

Pavol Bistak , Mikulas Huba , Peter Drahos , Igor Belai Jr. , Damir Vrancic

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引用次数: 0

Abstract

This work proposes a novel architecture for constructing remote laboratories, employing modular building blocks: Matlab/Simulink software for control system design and simulation, WebSocket communication technology for continuous data exchange, and a front-end application developed using the Angular framework. To facilitate WebSocket communication on the Matlab server side, the MatlabWebSocket library is implemented. Beyond the Angular framework, interactivity within the remote laboratory is further enhanced through 3D visualization of the controlled system using a Three.js based library.

These combined technologies are applied in the development of a remote laboratory for a fast, unstable, and nonlinear magnetic levitation system. The laboratory allows users to remotely set desired values and control parameters for experiments, while also providing continuous data visualization in various forms, including numerical readouts, graphs, and 3D animations. This approach demonstrates the effectiveness of the proposed architecture for building remote laboratories for complex systems.

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基于 Matlab 和 Websockets 的磁悬浮远程控制实验室⁎

这项工作提出了一种用于构建远程实验室的新型架构，采用模块化构建模块：用于控制系统设计和仿真的 Matlab/Simulink 软件、用于连续数据交换的 WebSocket 通信技术以及使用 Angular 框架开发的前端应用程序。为促进 Matlab 服务器端的 WebSocket 通信，实施了 MatlabWebSocket 库。除了 Angular 框架外，还使用基于 Three.js 的库对控制系统进行三维可视化，从而进一步增强了远程实验室内的交互性。这些综合技术被应用于快速、不稳定和非线性磁悬浮系统远程实验室的开发。该实验室允许用户远程设置实验所需的数值和控制参数，同时还提供各种形式的连续数据可视化，包括数值读数、图表和三维动画。这种方法展示了为复杂系统建立远程实验室的拟议架构的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IFAC-PapersOnLine Engineering-Control and Systems Engineering

CiteScore

1.70

自引率

0.00%

发文量

1122

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