The heart of the XoSoft device is a system giving the user quasi passive actuation based on elastic bands and custom made pneumatic soft clutches. The elastic bands are stretched and put under tension through the movements of the wearer. The elastic bands "store" enough energy to support the patient while walking. This process is controlled by clutches that engage and lock at the right moment to return the wearer energy and provide support. "We try to give the body energy back at the right moment," explains ZHAW researcher Eveline Graf. Simplified, XoSoft can be compared with a self-winding watch. Simi-lar to the spring of the watch being charged by the wearer’s arm movements, energy in the form of tension is stored in the elastic bands through the users’ steps when walking.
Another advantage of XoSoft: the system is resource efficient and allows the wearer to control their movements. This flexibility is made possible by the system accurately recognising the patient's movements. Sensors in the garment register the movements and send the information to a controller which is currently still located in a backpack carried by the user. The controller in turn interprets the gait phase of the user and activates or deactivates the clutches depending on if tension needs to be stored.

According to Eveline Graf from the ZHAW School of Health Professions, innovations are often driven by technology without involving future users. «XoSoft has been developed taking into account the needs and requirements of users as well as their affiliates such as family members and physiotherapists by involving them in the design process from the start.» This ensures a higher acceptability by the users, says Graf. Multiple versions of the XoSoft prototype were developed and each prototype of the system included innovative and novel technologies including smart materials, sensors and actuators as well as biomimentic control, monitoring and connected health systems which needed to be integrated into one system before the prototype could be tested. The use of novel technologies in smart materials, advanced algorithms for biomimetic control, user centred design and an energy efficient implementation provided the technology and user need basis to accomplish XoSoft.