News | June 9, 2020

Audi's Automated Factory Moves Closer To Industry 4.0 With Intel's Edge Machine Learning And Nebbiolo Technologies' Intelligent Edge Computing Software Platform

Milpitas, CA (PRWEB) - Combining forces with Nebbiolo for edge computing software, Intel is taking analytics to the edge and helping German automaker Audi automate and enhance critical quality-control processes in its factories. Working closely with Audi engineers and technicians, Intel and Nebbiolo created a scalable, flexible platform solution, embracing the transformative power of advanced digital capabilities such as data analytics, machine learning, and edge compute. Audi can use this platform as the foundation for current improvements and future innovations, enabling the company to increase efficiency and reduce costs.

Audi worked with Intel and Nebbiolo on a successful proof of concept experiment focused on improving the quality-control process for the welds on its vehicles. The experiment took place at Audi’s factory in Neckarsulm, Germany, one of the company’s two principal assembly plants. The Neckarsulm plant has 2,500 autonomous robots on its production line. Each robot is equipped with a tool of some kind, from glue guns to screwdrivers, and performs a specific task required to assemble an Audi automobile. Nine hundred of those robots carry welding guns to do spot welds that hold pieces of metal together.

Audi assembles up to approximately 1,000 vehicles every day at the Neckarsulm factory, and there are 5,000 welds in each car. That’s more than 5 million welds in a single day of production. To ensure the quality of its welds, Audi currently performs manual quality-control inspections. It is impossible to manually inspect 1,000 cars every day however, so Audi uses the industry’s standard sampling method. A single car per day is sampled and inspected.

The new infrastructure based on Nebbiolo’s Edge Software supports a hierarchical data analytics and machine learning architecture, with edge models iteratively refined by Audi’s and Intel’s Data Science teams, which enables the inspection of all the 5,000 welds per car, yielding accurate quality results for each weld within 18 milliseconds. The ultimate goal of inline quality control, with its unprecedented savings in cost and labor, is now attainable! Access the Audi use case white paper at

This successful experience with the welding process has convinced Audi that this approach can be adopted not only to improve quality control for spot welding, but also as the foundation for other use cases involving robots and controllers such as riveting, gluing and painting. Audi already has plans to use the platform for other use cases at the Neckarsulm factory, and eventually intends to deploy predictive welding inspection and other solutions across all Volkswagen Group production facilities.

This announcement is a significant endorsement for a movement towards the modernization of automotive plants based on the progressive adoption of distributed and virtualized computing, featuring advanced data management capabilities and the implementation of cloud inspired software management models at the edge.

Nebbiolo’s hardware agnostic, edge computing platform, based on fogNodes™ distributed on the Industrial Floor, powered by the highly functional fogOS™ stack, centrally managed by the fogSM™ system manager deployed on-premises or in the Cloud, addresses many of the current Industrial Automation challenges. It virtualizes and converges hardware and software components and it provides centralized software lifecycle management for distributed applications. It supports modern software defined networking, distributed security, software SDK/APIs, IT-like data management, and opens the path to the future of Industrial Control. It enables the deployment of centrally orchestrated and distributed data connectivity, data management and advanced AI/ML based analytics capabilities across the Industrial Floor.

According to Henning Löser, Senior Manager at the Audi Production Lab, the most compelling business outcome for Audi is how moving from manual inspections to an automated, data-driven process has allowed it to increase the scope and accuracy of its quality-control processes. “We are at the very beginning of collecting and analyzing our data,” Henning Löser says. “As we continue this journey, there will be many more happy surprises and new opportunities for us.”

Another key benefit of the new system and the precise inspections it enables is that Audi can be proactive and focus on avoiding problems rather than merely reacting to them. “Let’s say we do an overall inspection of 5,000 or more welds on one car a day, and maybe 95% of those welds are good and 5% are not,” Mathias Mayer, who leads automation technology planning at Audi, says. “In the future, we can focus on the 5%, because we know where they are in the factory and we can take action much sooner.”

“The value of putting the analytics platform at the edge is that it allows you to draw more data into it and look at correlations, causalities, and other interesting analytics— even some you might not think of at first,” says Brian McCarson, Vice President of the Internet of Things Group and Director of Industrial Systems Engineering and Architecture at Intel.

According to Christine Boles, Vice President Internet of Things Group and General Manager of the
Industrial Solutions Division at Intel, the breadth of Intel’s product offerings was a key element in the solution. “We’re running this solution on a Xeon processor, but if you look at the Intel product line we can scale from our Intel® CoreTM processors all the way to our Intel® Xeon® processor E and Intel® Xeon® SP server processors with no changes to the software,” she says. “We can deliver all the performance and functionality a customer needs, and then easily scale in any direction, depending on what they want to do in their business.”

“Partnering with Intel to transform Audi’s inline quality inspection of welds, from one car a day to 100% of cars produced is one of many ideal, real time use cases enabled by Nebbiolo’s distributed edge platform,” says Chandra Joshi, CEO at Nebbiolo Technologies. This project demonstrated how quickly a data science project can be converted from concept to production at scale through leveraging a converged platform. Nebbiolo Technology provides the most comprehensive, hyper converged Industrial Edge platform, purpose built to enable data driven insights with security and data ownership.

About Audi Corporation
The Audi Group, with its brands Audi, Ducati and Lamborghini, is one of the most successful manufacturers of automobiles and motorcycles in the premium segment. It is present in more than 100 markets worldwide and produces at 16 locations in 11 countries. 100 percent subsidiaries of AUDI AG include Audi Sport GmbH (Neckarsulm, Germany), Automobili Lamborghini S.p.A. (Sant’Agata Bolognese, Italy) and Ducati Motor Holding S.p.A. (Bologna, Italy).

About Intel Corporation
Intel is an industry leader, creating world-changing technology that enables global progress and enriches lives. Inspired by Moore’s Law, we continuously work to advance the design and manufacturing of semiconductors to help address our customers’ greatest challenges. By embedding intelligence in the cloud, network, edge and every kind of computing device, we unleash the potential of data to transform business and society for the better.

To learn more about Intel’s innovations, go to and

About Nebbiolo Technologies
Nebbiolo Technologies, founded in 2015, is a California based company with global deployments of its Intelligent Edge Software Platform. The company’s mission is to develop and apply the new Edge Computing paradigm to digitally transform industrial systems across industry.

Nebbiolo’s software platform brings to industry the first advanced hyper-converged infrastructure for Industrial IoT edge applications, AI enabled advanced analytics, real-time IoT device control, and end-to-end security from devices to the cloud.

Nebbiolo’s technology simplifies and modernizes legacy OT and advances the digitalization of manufacturing and industry by enabling a new class of Industrial IoT applications. The platform enables advanced data services for monitoring and diagnostics, machine performance optimization, predictive maintenance, and advanced real time control use cases all at the edge.

Source: PRWeb

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