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Take Charge of your Manufacturing Data with Edge Computing

Is your manufacturing enterprise struggling with bandwidth limitations due to the large volume of data generated by on-site operations?

In a scenario where instant critical data processing is a necessity, relying solely on cloud computing can lead to delays and inefficiencies. However, edge computing offers a compelling solution by bringing processing closer to the data source, thereby improving operational efficiency and enhancing data security. Discover, in this post,  how to Take Charge of your Manufacturing Data with Edge Computing.

Manufacturing Data with Edge Computing

The Challenges of Cloud-Based Data Transmission in Manufacturing

In a factory setting, hundreds, if not thousands, of sensors and cameras are utilized to capture real-time data at every stage of the manufacturing process.

The volume of data generated by these devices can reach several terabytes per day. Transmitting this data to the cloud requires significant bandwidth, incurring substantial costs.

Furthermore, the security implications of creating an uplink and downlink for data transmission can pose challenges.

The Advantages of Edge Computing and Digital Transformation

The localized approach of edge computing is beneficial to revolutionizing the industry by enabling data-driven decisions in the production processes, which can enhance product quality. It aligns with sustainability goals by curbing energy consumption, particularly through the reduction of the need for data transmission to distant centers. Therefore, the current manufacturing landscape requires an overhaul through digital transformation by leveraging advanced AI at the edge.

But why is addressing how to advance in digital transformation so important? The significance of digital transformation in modern manufacturing is undeniable, particularly in enhancing data-driven decision-making. This transformation allows organizations to incorporate edge computing solutions into their manufacturing processes.

Nearby Computing has developed a framework called ‘NEARBY,’ which includes six maturity levels for edge adoption: Nascent, Exploratory, Advancing, Rooted, Bridging, and Yielding Excellence. This framework provides businesses with a clear measure of their progress in achieving their goals. One example is how to take charge of your manufacturing data thanks to edge computing. 

 

How to effectively manage these thousands of sensors and cameras devices and edge manufacturing data?

Introducing NearbyOne, an orchestration and management platform that operates seamlessly across all three tiers of the network, from the cloud to the edge, from a single pane of glass. This platform handles infrastructure, both virtualized and bare metal, including automation of hyperscaler, private cloud, and Kubernetes stack integration.

NearbyOne offers a comprehensive control plane solution for managing the deployment of diverse workloads at the edge, encompassing infrastructure, applications, and network functions. The solution guarantees optimal conditions for these applications by monitoring key performance indicators (KPIs) to uphold favorable operational states.

In the event of hardware or software issues, NearbyOne enables failover as part of its lifecycle management. This involves overseeing workflows to ensure uninterrupted application operation, managing updates, and automatically handling new versions to ensure continual application performance.

Embracing digital transformation in manufacturing companies offers the potential to streamline operations, enhance cost efficiency, and drive improved performance. To effectively leverage edge AI, CIOs should take strategic steps, including assessing the current infrastructure, selecting suitable edge devices, and crucially, integrating edge management software such as NearbyOne.

In conclusion, depending exclusively on cloud computing for data processing can result in inefficiencies and delays. Adopting digital transformation through edge computing is more than just a technological advancement; it is a vital move toward maintaining a competitive edge and ensuring future success in the manufacturing industry.

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