In today’s fast-paced manufacturing world, inefficiency, sadly, is the norm, not the exception. All manufacturing companies are innefficient! From outdated equipment to manual processes, factories are losing valuable time and resources every day. This constant struggle with inefficiencies leads to increased costs, reduced productivity, and lost opportunities. Find out the GlobalReader solution for this!

In today's competitive production landscape, manufacturing data collection is the key to unlocking efficiency and driving growth. With the increasing complexity of modern production environments, relying on guesswork or outdated methods is no longer an option.

Collecting data is just the beginning; the real challenge lies in manufacturing data analytics based on real-time data. Take the 2nd step to digitalisation now!

In the fast-paced world of manufacturing, having access to real-time data in manufacturing is essential for staying ahead of the curve. With constant changes on the shop floor, knowing what’s happening at any given moment can be the difference between meeting your production targets and falling behind.

By adding new features in every step of the digitalisation process your factory moves towards becoming a Smart Factory. One key milestone in this is to master predictive capacity with Production Scheduling Software - the ability to anticipate what will happen next in the production process. 

The journey towards smart manufacturing is more than just adopting new technologies; it's about integrating various digital layers to create a fully optimised, intelligent factory - A Smart Factory. It’s a culture change in the company of how things are done from here on forward. Each step in the digitalisation process before contributes to moving away from paper and excel towards digitalisation. By combining data collection, manufacturing data analytics and making sense of this real-time data using production scheduling software, you can achieve a seamless, fully digitalised environment. 

Implementing an effective OEE improvement plan requires a systematic approach, from assessing current performance to setting goals, optimizing processes, and engaging employees. By leveraging GlobalReader’s comprehensive suite of tools and services, manufacturers can gain real-time insights, predict and prevent equipment failures, and continuously improve their OEE. Start your journey towards higher efficiency and productivity with GlobalReader today.

Real-time factory data refers to the immediate collection and analysis of information. This involves using sensors, IoT devices, and data analytics tools

Understanding and addressing the Six Big Losses in manufacturing is crucial for improving manufacturing efficiency and productivity.

Learn how tracking performance reports with GlobalReader’s Operator tool enhances OEE by monitoring operator activities, reducing downtime, and improving productivity with data-driven insights.

Industrial IoT involves connecting all the equipment, sensors, and systems in an industrial setting to the internet, allowing them to exchange data in real-time

OEE Implementation in a manufacturing environment can be transformative, driving significant improvements in productivity, efficiency, and quality. However, many companies face common challenges that can impede the successful adoption of OEE practices.

It is essential to improve OEE for manufacturing efficiency and profitability. By implementing these top 10 strategies, manufacturers can identify inefficiencies, reduce downtime, and enhance overall productivity. Start implementing these strategies today to see a marked improvement in your OEE and operational performance.

Interested in knowing what is overall equipment effectiveness? Good! When it comes to the question of what is Overall Equipment Effectiveness (OEE), we can say it is a crucial performance metric for manufacturers, measuring the percentage of manufacturing time that is genuinely productive. By evaluating the efficiency and effectiveness of equipment, OEE provides a comprehensive insight into how well a manufacturing operation is utilised. It encompasses three key components: Availability, Performance, and Quality, offering a clear picture of areas needing improvement.

Machine downtime is a universal challenge that affects manufacturers worldwide, impacting efficiency, costs, and competitiveness. It refers to the periods when equipment is not operational due to various reasons, such as breakdowns, maintenance, or changeovers.

A critical first step in realising Lean Manufacturing, improving OEE, and adopting Industry 4.0 concepts is integrating data-driven strategies from the shop floor to the boardroom manufacturing. This strategy change is a step towards sustainable practices and smart manufacturing, not only an improvement in operations. Explore how the clarity of real-time data may transform your manufacturing operations by reading this article.

Real-time factory tracking combined with Lean Manufacturing principles is the easiest way to increase OEE (Overall Equipment Efficiency) and make your factory smart. Also drive your factory towards a sustainable future, where data-driven insights shape decisions and saves time and money.

Merging lean manufacturing with Industry 4.0 is helping to change factories to be smarter and greener. By combining waste-cutting lean principles with advanced tech like real-time data analytics, manufacturers are increasing efficiency while cutting their environmental impact. This approach not only increases OEE but also significantly reduces waste and energy use, paving the way for a more sustainable manufacturing future. It's a win-win, better for business and kinder to the planet.

Discover the differences between Lean Manufacturing and Six Sigma methodologies. Lean manufacturing reduces waste & streamlines processes, while Six Sigma enhances quality by minimizing defects. Learn how GlobalReader, a hardware-enabled SaaS solution, aids manufacturers in achieving Lean Manufacturing or Six Sigma.

In today's fast-paced manufacturing industry, efficiency is crucial for competitiveness. One effective way to achieve this is through Overall Equipment Effectiveness (OEE). This blog post delves into what OEE is, how to calculate it, and its essential role in boosting productivity and driving continuous improvement.