Photo: Engineers at the AMRC have researched the use of the cloud to capture data from machine tools with new Tier Two member Amido.
Cloud data solutions being trialled at the University of Sheffield Advanced Manufacturing Research Centre (AMRC) could provide a secure and cost-effective way for small and medium sized manufacturers to explore how machine learning and Industry 4.0 technologies can boost their productivity.
Jon Stammers, AMRC Technical Fellow in the Process Monitoring and Control team, said: “Data is available on every shop floor but a lot of time it isn’t being captured due to lack of connectivity, and therefore cannot be analysed. If the cloud can capture and analyse that data then the possibilities are massive.”
Engineers in the AMRC’s Machining Group have researched the use of the cloud to capture data from machine tools with new Tier Two member Amido, an independent technical consultancy specialising in assembling, integrating and building cloud-native solutions.
Jon added: “Typically we would have a laptop sat next to a machine tool capturing its data; a researcher might do some analysis on that laptop and share the data on our internal file system or on a USB stick. It is quite old school.
“There is a lot of data generated on the shop floor and it is our job to capture it, but there are plenty of unanswered questions about the analysis process and the cloud has a lot to bring to that.”
In the trial, data from two computer numerical control (CNC) machines in the AMRC’s Factory of the Future, the Starrag STC 1250 and DMG MORI DMU 40 eVo, was transferred to the Microsoft Azure Data Lake cloud service and converted into parquet format, which allowed Amido to run a series of complex queries over a long period of time.
Steve Jones, Engagement Director at Amido, said handling those high volumes of data is exactly what the cloud was designed for: “Moving the data from the manufacturing process into the cloud means it can be stored securely and then structured for analysis; the data can’t be intercepted in transit and it is immediately encrypted by Microsoft Azure.”
Security is one of the huge benefits of cloud technology, said Jon: “When we ask companies to share their data for a project, it is usually a blanket ‘no’ because they don’t want their data going off site. Part of the work we’re doing with Amido is to demonstrate that we can anonymise data and move it off site securely.”
In addition to the security of the cloud, Steve said transferring data into a data lake means large amounts can be stored for faster querying and machine learning.
“One of the problems of a traditional database is when you add more data, you impact the ability for the query to return the answers to the questions you put in; by restructuring into a parquet format you limit that reduction in performance. Some of the queries that were taking one of the engineers up to 12 minutes to run on the local database, took us just 12 seconds using Microsoft Azure.
“It was always our intention to run machine learning against this data to detect anomalies. A reading in the event data that stands out may help predict maintenance of a machine tool or prevent the failure of a part.”
Storing data in the cloud is extremely inexpensive and that is why, according to Software Engineer in the Process Monitoring and Control team Seun Ojo, cloud technology is a viable option for SMEs working with the AMRC, part of the High Value Manufacturing (HVM) Catapult.
“SMEs are typically aware of Industry 4.0 but concerned about the return on investment (ROI) in new technology. Fortunately, cloud infrastructure is hosted externally and provided on a pay-per-use basis. Therefore, businesses may now access data capture, storage and analytics tools at a reduced cost.”
Steve added: “Businesses can easily hire a graphics processing unit (GPU) for an hour or a quantum computer for a day to do some really complicated processing. You can do all this on a pay-as-you-go basis; so you use it, see if there are any benefits, but know that you can stop at any time.
“The bar to entry to doing machine learning has never been lower. Ten years ago, only data scientists had the skills to do this kind of analysis but the tools available from cloud platforms like Microsoft Azure and Google Cloud now put a lot of power into the hands of inexpert users.”
Steve said the trials being done with Amido could feed into research being done by the AMRC into non-geometric validation: “Rather than measuring the length and breadth of a finished part to validate that it has been machined correctly, I want to see engineers use data to determine the quality of a job.
“That could be really powerful stuff and if successful would make the process of manufacturing much quicker. That shows the importance and relative value of data in manufacturing today.”
Notes to editors
About the AMRC
The University of Sheffield Advanced Manufacturing Research Centre (AMRC) is a world-class centre for research into advanced manufacturing technologies used in the aerospace, automotive, medical and other high-value manufacturing sectors.
The AMRC has a global reputation for helping companies overcome manufacturing problems and is a model for collaborative research involving universities, academics and industry worldwide.
Combining state of the art technologies with the AMRC’s expertise in design and prototyping, machining, casting, welding, additive manufacturing, composites, robotics and automation, digital manufacturing and structural testing, has created a manufacturing resource far beyond anything previously available in the UK.
The AMRC is a member of the High Value Manufacturing (HVM) Catapult, a consortium of leading manufacturing and process research centres, backed by the UK’s innovation agency, Innovate UK.