Rosas João, Palma Luís Brito, Antunes Rui Azevedo
NOVA School of Science and Technology, NOVA University Lisbon, Campus de Caparica, 2829-516 Caparica, Portugal.
CTS-Uninova & LASI, Campus de Caparica, 2829-516 Caparica, Portugal.
Sensors (Basel). 2024 Nov 28;24(23):7610. doi: 10.3390/s24237610.
We live in an era characterized by Society 4.0 and Industry 4.0 where successive innovations that are more or less disruptive are occurring. Within this context, the modeling and simulation of dynamic supervisory and control systems require dealing with more sophistication and complexity, with effects in terms of development errors and higher costs. One of the most difficult aspects of simulating these systems is the handling of vision sensors. The current tools provide these sensors but in a specific and limited way. This paper describes a six-step approach to sensor virtualization. For testing the approach, a simulation platform based on game engines was developed. As contributions, the platform can simulate dynamic systems, including industrial processes with vision sensors. Furthermore, the proposed virtualization approach allows for the modeling of sensors in a systematic way, reducing the complexity and effort required to simulate this type of system.
我们生活在一个以社会4.0和工业4.0为特征的时代,在这个时代,或多或少具有颠覆性的连续创新不断涌现。在此背景下,动态监控和控制系统的建模与仿真需要处理更高的复杂性,这会导致开发错误和成本增加。模拟这些系统最困难的方面之一是视觉传感器的处理。当前的工具提供了这些传感器,但方式特定且有限。本文描述了一种传感器虚拟化的六步方法。为了测试该方法,开发了一个基于游戏引擎的仿真平台。作为贡献,该平台可以模拟动态系统,包括带有视觉传感器的工业过程。此外,所提出的虚拟化方法允许以系统的方式对传感器进行建模,降低了模拟此类系统所需的复杂性和工作量。
