In private and expensive experimental laboratory studies, there are problems such as difficulty in accessing measuring devices and materials, space and time problems, and insufficient technical support due to the need for expertise. In this study, a fiber optic laboratory (FOL), which can be used for educational and scientific research purposes, has high installation costs and has difficulty in accessing devices, was designed and realized as a remote accessible/fully controllable. All devices in the proposed laboratory have been virtualized on the MATLAB App Designer platform, and communication protocols have been defined and made remotely accessible and controllable. In the proposed system, the user accessed remotely can perform all device controls, record the measurement results, take the measurement average as much as he wants to increase the measurement accuracy, monitor the experimental setup with a camera, and receive expert support. Afterward, a sample experiment was set up on the system and the results were compared. The proposed laboratory has a high potential to establish international collaborations in remote/flexible work and scientific research. Finally, a scale was applied to FOL undergraduate, graduate, and doctoral student groups. The Cronbach α coefficient showing the reliability of the applied model was found to be .934.

中文翻译：

---

远程访问/完全可控光纤系统实验室设计和实施

在私人且昂贵的实验实验室研究中，存在测量设备和材料难以获取、空间和时间问题以及由于需要专业知识而导致的技术支持不足等问题。本研究针对可用于教育和科研目的、安装成本高且设备接入困难的光纤实验室（FOL）进行设计并实现为远程访问/完全可控。拟建实验室中的所有设备均已在 MATLAB App Designer 平台上虚拟化，并且已定义通信协议并可远程访问和控制。在所提出的系统中，远程访问的用户可以执行所有设备控制、记录测量结果、根据需要获取测量平均值以提高测量精度、使用摄像头监控实验设置并获得专家支持。随后对该系统进行了样例实验并对结果进行了比较。拟建实验室在远程/灵活工作和科学研究方面具有很大的潜力建立国际合作。最后，将量表应用于 FOL 本科生、研究生和博士生群体。显示应用模型可靠性的Cronbach α系数为 0.934。