This research proposes an extensive technique for monitoring and controlling the industrial parameters using Internet of Things (IoT) technology based on wireless communication. We proposed a system based on NRF transceivers to establish a strong Wireless Sensor Network (WSN), enabling transfer of real-time data from multiple sensors to a central setup that is driven by ARDUINO microcontrollers. Different key parameters, crucial for industrial setup such as temperature, humidity, soil moisture and fire detection, are monitored and displayed on an LCD screen, enabling factory administration to oversee the industrial operations remotely over the internet. Our proposed system bypasses the need for physical presence for monitoring by addressing the shortcomings of conventional wired communication systems. Other than monitoring, there is an additional feature to remotely control these parameters by controlling the speed of DC motors through online commands. Given the rising incidence of industrial fires over the worldwide between 2020 and 2024 due to an array of hazards, this system with dual functionality boosts the overall operational efficiency and safety. This overall integration of IoT and Wireless Sensor Network (WSN) reduces the potential risks linked with physical monitoring, providing rapid responses in emergency scenarios, including the activation of firefighting equipment. The results show that innovations in wireless communication perform an integral part in industrial process automation and safety, paving the way to more intelligent and responsive operating environments. Overall, this study highlights the potential for change of IoT-enabled systems to revolutionize monitoring and control in a variety of industrial applications, resulting in increased productivity and safety.

翻译：本研究提出了一种基于无线通信的物联网技术工业参数监测与控制综合方案。我们设计了一套基于NRF收发器的系统，以建立强大的无线传感器网络，实现多传感器实时数据向由ARDUINO微控制器驱动的中央装置的传输。工业环境中关键参数（如温度、湿度、土壤湿度和火灾探测）被实时监测并显示在LCD屏幕上，使工厂管理人员能够通过互联网远程监控工业运行。本方案通过解决传统有线通信系统的缺陷，消除了现场监测的必要性。除监测功能外，该系统还具备通过在线指令控制直流电机转速从而远程调节这些参数的附加功能。鉴于2020至2024年间全球工业火灾因多种危险源而频发，这种具有双重功能的系统显著提升了整体运行效率与安全性。物联网与无线传感器网络的整合减少了物理监测相关的潜在风险，可在消防设备启动等紧急场景中提供快速响应。研究结果表明，无线通信创新在工业过程自动化与安全领域发挥着关键作用，为构建更智能、更具响应性的运行环境铺平了道路。总体而言，本研究凸显了物联网驱动系统在多种工业应用场景中革新监测与控制方式的变革潜力，从而提升生产效益与安全性。