Digital Twin Driven Real Time Performance Optimization of Smart Factory Production Systems Using Edge Computing and Industrial Internet of Things Architecture

Suyahman Suyahman ; Dwi Utari Iswavigra ; Helmi Wibowo ; Ahmad Budi Trisnawan ; Ardy Wicaksono ; Dwi Atmodjo WP
International Journal of Industrial Innovation and... 📅 2024 Vol 1, No 2 🔗 DOI: 10.61132/ijiime.v1i2.396
Abstract
Background: The rapid advancement of Industry 4.0 has accelerated the integration of digital technologies such as the Industrial Internet of Things (IIoT), edge computing, and Digital Twin systems in smart manufacturing environments. However, many existing implementations remain fragmented and heavily dependent on centralized cloud infrastructures, resulting in latency constraints, limited scalability, and suboptimal real-time decision making. Objective: This study aims to develop and validate an integrated edge based Digital Twin optimization framework that combines IIoT sensing, hybrid edge cloud architecture, and reinforcement learning based adaptive control. Methods: The research adopts a multi phase design consisting of framework development, simulation based validation, and industrial pilot implementation. The proposed system integrates real time data acquisition, localized edge processing, Digital Twin synchronization, and intelligent optimization mechanisms to enhance operational efficiency. Results: The findings demonstrate significant performance improvements compared to conventional cloud based systems, including substantial latency reduction, increased production throughput, reduced downtime, and improved energy efficiency. Scalability and robustness testing further confirm that distributed edge intelligence enhances system resilience under increased workloads and network disruptions. These results indicate that integrating edge computing with Digital Twin modeling and reinforcement learning provides a scalable, responsive, and energy efficient solution for next-generation smart factories.
Keywords
Digital Twin; Edge Computing; Industry 4.0; Reinforcement Learning; Smart Manufacturing
How to Cite

Suyahman Suyahman, et al. (2024). Digital Twin Driven Real Time Performance Optimization of Smart Factory Production Systems Using Edge Computing and Industrial Internet of Things Architecture . International Journal of Industrial Innovation and Mechanical Engineering, 1(2). https://doi.org/10.61132/ijiime.v1i2.396

Suyahman Suyahman; Dwi Utari Iswavigra; Helmi Wibowo; Ahmad Budi Trisnawan; Ardy Wicaksono; Dwi Atmodjo WP, "Digital Twin Driven Real Time Performance Optimization of Smart Factory Production Systems Using Edge Computing and Industrial Internet of Things Architecture ," International Journal of Industrial Innovation and Mechanical Engineering, vol. 1, no. 2, 2024.

Suyahman Suyahman; Dwi Utari Iswavigra; Helmi Wibowo; Ahmad Budi Trisnawan; Ardy Wicaksono; Dwi Atmodjo WP. "Digital Twin Driven Real Time Performance Optimization of Smart Factory Production Systems Using Edge Computing and Industrial Internet of Things Architecture ." International Journal of Industrial Innovation and Mechanical Engineering, vol. 1, no. 2, 2024.

Suyahman Suyahman; Dwi Utari Iswavigra; Helmi Wibowo; Ahmad Budi Trisnawan; Ardy Wicaksono; Dwi Atmodjo WP. "Digital Twin Driven Real Time Performance Optimization of Smart Factory Production Systems Using Edge Computing and Industrial Internet of Things Architecture ." International Journal of Industrial Innovation and Mechanical Engineering 1, no. 2 (2024).

Suyahman Suyahman, et al. (2024) 'Digital Twin Driven Real Time Performance Optimization of Smart Factory Production Systems Using Edge Computing and Industrial Internet of Things Architecture ', International Journal of Industrial Innovation and Mechanical Engineering, 1(2). doi: 10.61132/ijiime.v1i2.396.

Suyahman Suyahman; Dwi Utari Iswavigra; Helmi Wibowo; Ahmad Budi Trisnawan; Ardy Wicaksono; Dwi Atmodjo WP. Digital Twin Driven Real Time Performance Optimization of Smart Factory Production Systems Using Edge Computing and Industrial Internet of Things Architecture . International Journal of Industrial Innovation and Mechanical Engineering. 2024;1(2).

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