Embrace the Edge to Avoid Unscheduled Downtime

Manufacturers can deal with up to 800 hours of downtime per year.

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One of the key metrics for process efficiency is overall equipment efficiency (OEE). This KPI is related to the availability, performance and quality of the production process. High OEE often means good revenue, low OEE indicates the need for optimization and improvements. Unscheduled downtime will dramatically affect availability and performance — drastically lowering the OEE.

Being aware of the real-time status of all equipment and processes is crucial to predicting the potential causes of downtime. This allows simple maintenance tasks to be performed to prevent downtime, or if downtime must occur, it can be planned in the best way possible to minimize costs and prevent wasted time. Manufacturers who implement edge analytics will be equipped with the necessary data to make informed decisions about equipment and production to optimize processes and maintenance schedules.

Leverage the Edge

Edge computing is computation that is done at or near the devices that are generating the data. Typically, the data collected from machines or devices would be sent straight to a local data center for storage and historical analysis. But now enterprises want to leverage that data using big data analytics and extensive cloud services. This causes some major concerns regarding security, latency, bandwidth, costs and reliability.

These concerns are magnified for facilities with a high number of devices transmitting data at the same time. A large number of devices working simultaneously generate a massive amount of data.

Instead, edge analytics can form a bridge between the devices and the cloud or data center, providing a local source of processing and storage. On-premise analytics can collect and filter data, storing or sending it to the correct location based on abnormalities, business rules and algorithms. Only the necessary data is sent to the cloud or data center, enabling large savings in bandwidth and cloud service costs.

What’s more, the real-time ability at the edge can leverage automatic changes to production according to a pre-determined algorithm, or be evaluated by equipment operators and facility managers to make informed decisions.

Predict to Prevent

There are a number of processes that the real-time integration and analysis of data can benefit. One example is condition monitoring, which involves monitoring a certain parameter of machinery condition, such as vibration or temperature, in which a change could indicate the development of a fault.

Condition monitoring can be used as part of a predictive maintenance strategy by running the condition data through pre-built predictive algorithms that can estimate when the piece of equipment might fail. This means maintenance work can occur in an organized way before the failure occurs either without the need to stop production or during planned downtime, which avoids the sudden and costly onset of unscheduled downtime.

This contrasts the traditional strategy of reactive maintenance, where manufacturers would wait for a piece of machinery to fail before applying maintenance works. According to a predictive maintenance report by Deloitte, adopting a predictive maintenance strategy can reduce breakdowns by 70 per cent and increase equipment uptime by 20 per cent.

Dedicated to Data

An increasing number of manufacturers are adopting predictive maintenance strategies, as they allow systems to be maintained before failure occurs and run as long as possible without interruption. Market research firm MarketsandMarkets estimates that the global predictive maintenance market size is expected to grow from 4 billion dollars in 2020 to over 12 billion dollars by 2025. The growing need to reduce downtime is highlighted as a major driver for the forecasted growth.

An edge analytics strategy supports a predictive maintenance strategy, but it’s important that manufacturers choose a platform that is simple to integrate and operate. The Crosser Edge Node software acts as a real-time engine, and its unique architecture hides complexity from the user so that it can be easily used by existing personnel. The software allows manufacturers to collect data from any source, such as sensors or PLCs, and build automated workflows to transform, analyze, and act on the data. The data can be processed at the edge to enable actions based on advanced business rules or codes to be performed rapidly. 

Long, and short, periods of downtime can be a costly reality, but can be minimized if manufacturers are informed on the real-time status of equipment and processes. Edge analytics allows the collection, integration and analysis of real-time data, enabling automatic changes to production while providing manufacturers with important data to make informed decisions. The instantaneous information that results from edge analytics can be used as part of a predictive maintenance strategy to reduce unscheduled downtime.

To learn more about Crosser and its edge solutions, visit crosser.io.

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