John Deere and Audi Apply Intel’s AI Technology – Automation World

While many earlier applications of artificial intelligence (AI) in manufacturing have focused on data analytics and identifying product and component defects with machine vision, use of the technology is already expanding beyond such applications in the real world. Two good examples of this can be seen at John Deere and Audi, where Intels AI technology is being used to improve welding processes.

Christine Boles, vice president of the Internet of Things Group and general manager of the Industrial Solutions Division at Intel.Explaining how Intel got involved in addressing industrial welding applications, Christine Boles, vice president of the Internet of Things Group and general manager of the Industrial Solutions Division at Intel, said, Intel and Deere first connected at an industry conference to discuss some of the ways technology could be used to solve manufacturing challenges. Arc welding defect detection came up as an industry-wide challenge that Intel decided to take on.

She added that, like with Deere, Intel met with Audi at a conference years ago and the first project we worked on was spot welding quality detection in Audis Neckarsulm plant. Boles added that this initial project with Audi has since expanded into other areas of collaboration around edge analytics and machine learning.

Gas metal arc welding (GMAW) is used at Deeres 52 factories around the world to weld mild- to high-strength steel to create machines and products. Across these factories, hundreds of robotic arms consume millions of pounds of weld wire annually.

The specific welding issue Deere is looking to address with Intels AI technology is porositycavities in the weld metal caused by trapped gas bubbles as the weld cools. These cavities weaken the weld strength.

Its critical to find porosity defects early in the manufacturing process because, if these flaws are found later, re-work or even scrapping of full assemblies is often required.

AdLinks EOS-i6000-M Series AI GigE Vision Systems for the Edge featuring Intel Movidius Myriad VPU.Intel and Deere worked collaboratively to develop an integrated, end-to-end system of hardware and software that could generate insights in real-time at the edge. Using a neural network-based inference engine, the system logs defects in real-time and automatically stops the welding process when defects are found to correct the issue in real time.

Combining an industrial grade ADLink Machine Vision Platform and a MeltTools welding camera, the edge system at Deere is powered by Intel Core i7 processors and uses Intel Movidius VPUs (vision processing units) and the Intel Distribution of OpenVINO toolkit.

Deere is leveraging AI and machine vision to solve a common challenge with robotic welding, said Boles. By leveraging Intel technology and smart infrastructure in their factories, Deere is positioning themselves to capitalize not only on this welding solution, but potentially others that emerge as part of their broader Industry 4.0 transformation.

A key aspect of this goal involves Audis recognition that creating customized hardware and software to handle individual use cases is not preferrable. Instead, the company focuses on developing scalable and flexible platforms that allow them to more broadly apply advanced digital capabilities such as data analytics, machine learning, and edge computing.

MeltToolss Sync is a GigE based arc view camera.With that perspective in mind, Audi worked with Intel and Nebbiolo Technologies (a supplier of fog/edge computing technologies) on a proof-of-concept project to improve quality control for the welds on vehicles produced at its Neckarsulm, Germany, assembly plant. Approximately 1,000 vehicles are produced every day of production at the Neckarsulm factory, with an average of 5,000 welds in each car. That translates to more than 5 million welds each day.

Nine hundred of the 2,500 autonomous robots on its production line at this facility carry welding guns to do spot welds that hold pieces of metal together. To ensure the quality of its welds, Audi performs manual quality control inspections. Because its impossible to manually inspect 1,000 cars every day, Audi uses the industrys standard sampling method.

To do this, Audi pulls one car off the line each day and 18 engineers with clipboards use ultrasound probes to test the welding spots and record the quality of every spot, says Rita Wouhaybi, principal engineer for the Internet of Things Group in the Industrial Solutions Division at Intel and lead architect for Intels Industrial Edge Insights software.

To cost effectively test the welds on the other 999 vehicles produced each day, Audi worked with Intel to create algorithms using Intels Industrial Edge Insights software and the Nebbiolo edge platform for streaming analytics. The machine-learning algorithm developed by Intels data scientists for this application was trained for accuracy by comparing the predictions it generated to actual inspection data provided by Audi.

The machine learning model uses data generated by the welding controllers, rather than the robot controllers, so that electric voltage and current curves during the welding operation can be tracked. Other weld data used includes configuration of the welds, the types of metal, and the health of the electrodes.

A dashboard lets Audi employees visualize the data, and the system alerts technicians whenever it detects a faulty weld or a potential change in the configuration that could minimize or eliminate the faults altogether.

Overview of artificial intelligence at the edge in action at Audi.Inline inspection of 5,000 welds per car and inferring the results of each weld within 18msec highlights the scale and real-time analytics response Nebbiolos edge platform brings to manufacturing, says Pankaj Bhagra, software architect at Nebbiolo. Our software stack provides the centralized management for distributed edge computing clusters, data ingestion from heterogeneous sources, data cleansing, secure data management and onboarding of AI/ML models, which allowed Audi and Intel data science teams to continuously iterate the machine learning models until they achieved the desired level of accuracy.

According to Intel, the result is a scalable, flexible platform that Audi can use to improve quality control for spot welding and as the foundation for other use cases involving robots and controllers such as riveting, gluing and painting.

Intel was the project leader, said Mathias Mayer of the Data Driven Production Tech Hub at the Audi Neckarsulm site. They have production experience as well as knowing how to set up a system that does statistical process control. This is completely new to us. Intel taught us how to understand the data, how to use the algorithms to analyze data at the edge, and how we can work with data in the future to improve our operations on the factory floor.

Henning Loser, senior manager of the Audi Production Lab, agrees: This solution is like a blueprint for future solutions. We have a lot of technologies in the factory, and this solution is a model we can use to create quality-inspection solutions for those other technologies so that we dont have to rely on manual inspections.

Moving from manual inspections to an automated, data-driven process has allowed Audi to increase the scope and accuracy of its quality-control processes, said Loser. Other benefits include a 30%- 50% reduction in labor costs at the Neckarsulm factory.

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John Deere and Audi Apply Intel's AI Technology - Automation World