
Understand
Understand
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at

30 %
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
86 %
55 %
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at



Understand
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at


To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at


To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
37 %
Understand
Understand
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
Entlastungsfaktor | Ergebnis (bis zu) | Quelle / Studie | |
---|---|---|---|
Muscle fatigue | - 86 % | ETH Zurich | |
Reduced muscle activity | - 30 % | ETH Zurich | |
Static holding period | +55 % | ETH Zurich | |
Posture improvement | +37 % | Offenburg University of Applied Sciences | |
Relief for deep back muscles | - 25 % | Uni Innsbruck |


To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at





To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at
Understand
To prove our developments, we meticulously check our results. The BionicBack was tested by us in the test laboratory at ETH Zurich. Thanks to the measurement technology used, we can reliably prove the relief in a muscle-specific manner. The aim of our investigations is to measure the fatigue and strain in the affected muscles. Our holistic approach is not only aimed at maximizing support, but also focuses on optimally coordinating all factors involved.
The way in which exoskeletons work is focused on influencing biomechanical parameters. These can be measured, for example, using so-called surface electromyography.
tested at