top of page
hTRIUS Logo – Hersteller des BionicBack Exoskeletts zur Rückenentlastung bei körperlicher Arbeit
Header 2.jpg

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

images.png
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

Uni Insbruck
Uni Innsbruck.avif
01 01.jpg
htrius2025_03_013_edited.jpg

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

AGR Header.jpg

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

images.png
zehnder-teaser-gross.jpg

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 %
ETH Zürich

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
hTRIUS-lab-ETH-Zürich-Testing.jpg
hTRIUS-BionicBack-EMG-Messung.jpg

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

universitaet-innsbruck-logo-cmyk-farbe.jpg
Studienergebniss Vergleichsstudie Uni Innsbruck.jpg

More external voices

Health care and safety technology

Zehnder
Adobe Express - file.jpg
Adobe Express - file (1).jpg
Adobe Express - file (2).jpg

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

Understand

bottom of page