Anghel Ana Magdalena, Mîndra Teodora
Faculty of Automatic Control and Computers, National University of Science and Technology POLITEHNICA Bucharest, 313 Splaiul Independenței, 060042 Bucharest, Romania.
Sensors (Basel). 2025 Jul 18;25(14):4469. doi: 10.3390/s25144469.
This article presents a Cyber-Physical System Interface (CPSI) for a patented implantable esophageal prosthesis. Designed for in vivo use, the CPSI has been implemented in a MATLAB (version R2021b) simulation environment integrated with real-time data from sensors relevant for monitoring the prosthesis's physical positioning and environmental interactions, aggregated through an Arduino external system. This setup enables the modeling and analysis of system behaviors in a controlled setting. The paper discusses the sensors, hardware and software components supporting a wide range of applications, and the method chosen for sensor-to-display flow. The case study demonstrates two monitoring system applications: one analyzes the influence of variations in the prosthesis geometry, while the other evaluates the tissue response to the implant. The proposed framework and implementation are highly relevant for a wide range of in vivo implants and related systems.
本文介绍了一种用于获得专利的植入式食管假体的信息物理系统接口(CPSI)。CPSI专为体内使用而设计,已在MATLAB(版本R2021b)模拟环境中实现,该环境集成了来自与监测假体物理定位和环境相互作用相关的传感器的实时数据,这些数据通过Arduino外部系统进行汇总。这种设置能够在可控环境中对系统行为进行建模和分析。本文讨论了支持广泛应用的传感器、硬件和软件组件,以及为传感器到显示流程选择的方法。案例研究展示了两个监测系统应用:一个分析假体几何形状变化的影响,另一个评估组织对植入物的反应。所提出的框架和实现对于广泛的体内植入物和相关系统具有高度相关性。
