The Electric Scooter Made using Robotic Origami
If you’ve ever taken a look at the electric two-wheeler market, you’ll know that the pinnacle of models stand out, not because they’re aesthetically pleasing or turn the heads of passersby, but because they deliver outstanding performance and battery range. Fortunately, as e-scooters become more popular, companies are producing prototypes that provide both the aesthetic and performance that riders need. , a Swedish smart manufacturing innovation company, happens to be paving the way in this very market.
Manufactured to Ride in Style
Through a combination of unique design and a sustainable new production technique, STILRIDE is responsible for producing the very first stainless steel electric scooter. With as its partner, the company is planning to challenge traditional manufacturing techniques and pave the way for the new design by using robots to fold steel.
“Our ambition was to create the world’s most attractive, most sustainable electric scooters. By using industrial robotic origami we can fold structures from a flat sheet of metal in completely new ways and create shapes true to the material’s characteristics and geometric nature,” says Tue Beijer, industrial designer at Semcon and one of the founders of STILRIDE.
It all began as a Vinnova-funded research project, looking at how a new way of shaping steel could pave the way for new design and business opportunities. One result of this project is the new STILRIDE SUS1 electric scooter, which is now introduced to the market. This powered scooter has a unique design, innovative technical features, durable, efficient batteries and a powerful electric motor.
Sustainability Above All Else
“The environmental footprint of the production process for this product is minimal. Our LIGHT.FOLD production technology makes for flexible manufacture. Stainless steel can be recycled, too, and it has a long service life,” says Tue Beijer.
Semcon’s responsibilities in the project have involved CAD, mechanical design and engineering project management. The unique production method devised by the project will now be examined further by the business community and academia, working closely together.
The STILRIDE research project is lead by founders Jonas Nyvang and Tue Beijer. A tight collaboration between them, the product development company Semcon, the steel engineering workshop Brantheim, the research institute RISE IVF as well as the global stainless steel manufacturer Outokumpu has been the foundation of the success. The STILRIDE project is part of the research program Metalliska material coordinated by Jernkontoret and funded by The Swedish Innovation Agency: Vinnova.
Fluent.ai x BSH: Voice Automating the Assembly Line
Fluent.ai has deployed its voice recognition solutions in one of BSH’s German factories. BSH leads the market in producing connected appliances—its brands include Bosch, Siemens, Gaggenau, NEFF, and Thermador, and with this new partnership, the company intends to cut transition time in its assembly lines.
According to BSH, voice automation will yield 75-100% efficiency gains—but it’s the collaboration between the two companies that stands out. ‘After considering 11 companies for this partnership, we chose Fluent.ai because of their key competitive differentiators’, explained Ion Hauer, Venture Partner at BSH Startup Kitchen.
What Sets Fluent.ai Apart?
After seven years of research, the company developed a wide range of artificial intelligence (AI) software products to help original equipment manufacturers (OEM) expand their services. Three key aspects stood out to BSH, which operates across the world and in unique factory environments.
- Robust noise controls. The system can operate even in loud conditions.
- Low latency. The AI understands commands quickly and accurately.
- Multilingual support. BSH can expand the automation to any of its 50+ country operations.
How Voice Automation Works
Instead of pressing buttons, BSH factory workers will now be able to speak into a headset fitted with Fluent.ai’s voice recognition technology. After uttering a WakeWord, workers can use a command to start assembly line movement. As the technology is hands-free, workers benefit from less physical strain, which will both reduce employee fatigue and boost line production.
‘Implementing Fluent’s technology has already improved efficiencies within our factory, with initial implementation of the solution cutting down the transition time from four seconds to one and a half”, said Markus Maier, Project Lead at the BSH factory. ‘In the long run, the production time savings will be invaluable’.
Future Global Adoption
In the coming years, BSH and Fluent.ai will continue to push for artificial intelligence on factory lines, pursuing efficiency, ergonomics, and a healthy work environment. ‘We started with Fluent.ai on one factory assembly line, moved to three, and [are now] considering rolling the technology out worldwide’, said Maier.
Said Probal Lala, Fluent.ai’s CEO: ‘We are thrilled to be working with BSH, a company at the forefront of innovation. Seeing your solution out in the real world is incredibly rewarding, and we look forward to continuing and growing our collaboration’.