Openipc Apr 2026

In this paper, we proposed OpenIPC, an open-source framework for industrial process control. The framework provides a flexible, scalable, and cost-effective solution for monitoring and controlling industrial processes. The design and architecture of OpenIPC, its key components, and the benefits it offers over traditional IPC systems were discussed. A case study demonstrated the effectiveness of OpenIPC in a real-world industrial setting. We believe that OpenIPC has the potential to revolutionize the field of industrial process control and look forward to its adoption and further development by the industrial automation community.

The need for open-source IPC solutions has been recognized by the industrial automation community, and several open-source projects have emerged in recent years. However, these projects often focus on specific aspects of IPC, such as data acquisition or control algorithms, and lack a comprehensive framework for integrating various components. openipc

Here is an outline of the potential paper: In this paper, we proposed OpenIPC, an open-source

[3] Linux Foundation. (2020). Linux Foundation Announces ELISA Project to Advance Open-Source Industrial Automation. A case study demonstrated the effectiveness of OpenIPC

Industrial process control (IPC) systems play a crucial role in monitoring and controlling industrial processes, ensuring efficiency, safety, and product quality. However, traditional IPC systems are often proprietary, expensive, and inflexible, limiting their adaptability to changing industrial needs. This paper proposes OpenIPC, an open-source framework for industrial process control that leverages open-source software and hardware to provide a flexible, scalable, and cost-effective solution. We discuss the design and architecture of OpenIPC, its key components, and the benefits it offers over traditional IPC systems. We also present a case study demonstrating the effectiveness of OpenIPC in a real-world industrial setting.

The OpenIPC framework is designed using a modular architecture, with each module communicating with others through standardized interfaces. This allows for easy integration of new components and scalability of the system.