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case study

Swiss company uses Siemens solutions for innovative relaxation chair with VR-controller

Limbic Life relies on Solid Edge to invent chair with virtual reality capabilities

Limbic Life

Limbic Life develops and distributes the Limbic Chair for weightless sitting and freedom of movement. Motion sensors allow precise control of virtual reality and other applications in gaming, medical diagnostics and engineering.

http://limbic-life.com
Headquarters:
Zurich, Switzerland
Products:
NX, Solid Edge, Teamcenter
Industry Sector:
Consumer products & retail

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“For us as a product developer and manufacturing company, Solid Edge offers just the right mix of functions that we need. In addition, the system is unbeatably easy to learn.”
Thomas Schätti, Principal and Designer
Schätti

Improving quality of life

Located in Zurich, Switzerland, Limbic Life develops and distributes the Limbic Chair for weightless sitting and freedom of movement. Motion sensors in the chair allow precise control of virtual reality (VR) and other applications in gaming, medical diagnostics and engineering.

Dr. Patrik Künzler, the director and founder of Limbic Life, created his company soon after his time at the MIT Media Lab, when he returned to Zurich.

“The principle of form follows function originated in the 20th century,” says Künzler. “Today, we develop products that are fun, healthy and useful based on neuroscience and medicine.”

Basics developed at MIT Media Lab

This idea for a new type of chair was created at the Massachusetts Institute of Technologie’s (MIT) Media Laboratory. After Künzler received his doctorate in medicine at the University of Zurich and doing post-doctoral research at the Picower Institute of Learning and Memory (also a part of the MIT) where he studied neurology and the limbic system, Künzler put his vision into motion.

“The limbic system connects the body with emotions, and emotions with the thinking brain,” says Künzler. “In evolution, the limbic system was developed during the mammalian development phase. The ‘mammal brain,’ which all mammals have, regulates sensations such as concern for offspring, fear, love, lust, play instinct and learning through imitation. There are certain movements, which we call incentivized movements, that can cause and express feelings of happiness.”

Figure 3: The innovative relaxation chairs combine modern design with high quality standards.

Figure 3: The innovative relaxation chairs combine modern design with high quality standards.

Figure 2: The electronics are located on the central section above the turnstile; four sensors transmit movement data via USB cable or Wi-Fi, which are interpreted on the computer.

Figure 2: The electronics are located on the central section above the turnstile; four sensors transmit movement data via USB cable or Wi-Fi, which are interpreted on the computer.

The chair for weightless sitting

Together with students from the MIT Media Laboratory, Künzler used the chair as an example of a new approach to product development based on research. Instead of following the traditional pattern of form follows function, they wanted to create a chair that conveys feelings of flying and weightlessness.

Initial sketches were drawn, and prototypes were made; first on paper, then later of laminated plywood. The sensation of free, weightless sitting could by conveyed by two independent, specially suspended shells that support an individual’s thighs. This confirmed the experiment’s success.

The chair as an input device

In a follow-up project, the fast and precise movement impulses of the body recognized from brain research were used to control a game console. For this purpose, shells were equipped with motion sensors, a game program was analyzed and the control options were programmed.

“We digitized the chair and developed an input device from it,” says Künzler. “This confirmed the thesis that some movement sequences can be controlled faster and more precisely with the legs than with the hands.”

An idea becomes a product

The Limbic Chair, which is marketed by Limbic Life, was the result of years of work based on experience and insight. Over 200 global customers own one or more of the custom-made models, which are recognized as remedies by select health insurance companies. The chair is being redesigned for mass production to offer its benefits to a larger audience.

In 2016, Schätti AG Metallwarenfabrik (Schätti) became a development and production partner. Schätti assists product developers and designers in converting their designs into products that can be manufactured and meet market demand.

Schätti has extensive experience with designing products such as chairs, espresso machines, mobile whiteboards and light-emitting diode (LED) lamps. The company is also schooled in sheet metal processing, computer numerical control (CNC) machining, profile processing and robot and laser welding. Additional finishing and assembly processes make Schätti a complete service provider for individual parts and finished products in series of 20 to 20,000 pieces.

Solid Edge integrated with Teamcenter

Schätti’s team of designers has consistently deployed Solid Edge® software, as well as other solutions, from Siemens Digital Industries Software. They feel Solid Edge is an easy-to-learn solution that offers the perfect blend of functions.

“For us as a product developer and manufacturing company, Solid Edge offers just the right mix of functions that we need,” says Thomas Schätti, founder and designer, Schätti. “In addition, the system is unbeatably easy to learn.”

The company’s goal was to advance the Limbic Chair from the individual production stage to series production. Solid Edge helped make that goal a reality, allowing the company to develop a shell shape made of carbon fibers suitable for all users, according to Künzler. Those seat shells will soon be injection-molded from plastic. The company does this by generating CNC programs in Siemens’ NX™ software manufacturing platform, which connects the Schätti partner plant in Bulgaria through a continuous process chain.

All project-related data is managed by Siemens’ Teamcenter® software Teamcenter® portfolio, partly in the background during design with Solid Edge. This allows approvals, design and production parts lists, change management and version statuses to be mapped across multiple locations.

“Relying on Teamcenter as a single source for information, we have achieved an enormous streamlining of the processes,” says Schätti. “Now we’re extending the application to purchasing and production.”

With this infrastructure, the Limbic Chair is expected to be ready by 2020 for series production.

Figure 4: Sitting on a Limbic Chair, users can control their virtual reality software and fly through architectural or touristic applications.

Figure 4: Sitting on a Limbic Chair, users can control their virtual reality software and fly through architectural or touristic applications.

More than fun and games

With series production, Limbic Life wants to give more people the chance to sit in a healthy and relaxed way, where movement is fun. The chair’s integrated motion sensors, whose data is processed by a micro-computer in the chair and sent out via a universal serial bus (USB) cable or Wi-Fi network, further increase the value of leisure time.

“We develop computer games that are fun and can be operated with the Limbic Chair,” says Mark van Raai, astrophysicist, gaming expert and chief technology officer, Limbic Chair. “We also offer support to developers who want to use it to control their games.”

Figure 5: Gaming – 3D spaces can be comfortably and precisely flown through hands-free with the Limbic Chair.

Figure 5: Gaming – 3D spaces can be comfortably and precisely flown through hands-free with the Limbic Chair.

VR in medical diagnostics

With the advent of increasingly complex computer applications in the workplace, the musculoskeletal system is underused and the eyes, head and hands are often overloaded. The Limbic Chair offers a way to decrease an office worker’s daily stress and strain.

“Doctors attach particular importance to a healthy working environment,” says Künzler. “That’s why we’re working on several research projects where the Limbic Chair controls medical and diagnostic devices.”

For example, an ophthalmologist will scan the human eye, model it in Solid Edge and freely move in a VR model of the scan using the Limbic Chair. This leaves the doctor’s hands free to practice interventions. In radiology, magnetic resonance imaging (MRI) images can be ergonomically controlled.

“With the legs, VR application can be controlled very precisely, while the hands remain free for other tasks,” says Künzler.

Figure 6: The Limbic Chair is certified as an input device for Solid Edge, with further VR applications expected to follow.

Figure 6: The Limbic Chair is certified as an input device for Solid Edge, with further VR applications expected to follow.

VR in engineering

These features are helpful, when it comes to controlling VR or engineering software. This is the reason why Limbic Life, as a Siemens technology partner, has created a certified interface to Solid Edge. Instead of a 3D mouse, the Limbic Chair can be used to fly through, zoom in and out, or rotate a 3D model. This leaves both hands free for other activities like annotations via keyboard, marking up specific areas of the model or completing bill-of-materials (BOM). Every Solid Edge user can take advantage of the Limbic Chair and thus complete his work in more efficient and healthier way.

“The principle of form follows function originated in the 20th century. Today, we develop products that are fun, healthy and useful based on neuroscience and medicine.”
Dr. Patrik Künzler , Director and Founder
Limbic Life