Workshops

Technology and rehabilitation in multiple sclerosis
Virtual reality, augmented reality, and even digital twins: tools that seem straight out of science fiction are already transforming the lives of people with multiple sclerosis, enabling rehabilitation that is increasingly personalized, interactive, and aligned with real needs.
During the lab, you will discover how these technologies intertwine body, emotions, and cognitive abilities to create new therapeutic scenarios.
From immersive worlds to exergames – active video games engaging motor and cognitive functions – to virtual models anticipating disease progression, prepare to explore how science and innovation are building a more accessible and human future.
More information about the workshop and how to participate can be found at this link.

Robots supporting motor recovery
The challenge of rehabilitation after a stroke is not only to restore movement, but also to help damaged neural connections function again.
This is where robotic neurorehabilitation comes into play, which we will explore during the lab: intelligent robots capable of assisting movements and adapting to the specific needs of each patient, captured by true digital twins.
During the lab, you will learn how these systems work, their potential and limitations, and how digital twins can help personalize rehabilitation interventions.
Through hands-on demonstrations and interactive activities with robots and motion capture systems, you will see firsthand how technology and neuroscience intertwine to support motor recovery and open new perspectives for the medicine of the future.
More information about the workshop and how to participate can be found at this link.

Robots supporting motor recovery
The challenge of rehabilitation after a stroke is not only to restore movement, but also to help damaged neural connections function again.
This is where robotic neurorehabilitation comes into play, which we will explore during the lab: intelligent robots capable of assisting movements and adapting to the specific needs of each patient, captured by true digital twins.
During the lab, you will learn how these systems work, their potential and limitations, and how digital twins can help personalize rehabilitation interventions.
Through hands-on demonstrations and interactive activities with robots and motion capture systems, you will see firsthand how technology and neuroscience intertwine to support motor recovery and open new perspectives for the medicine of the future.
More information about the workshop and how to participate can be found at this link.

Designing tomorrow’s healthcare
Smart glasses and sensor-equipped chairs: these are some of the devices you will see and try during today’s lab.
These are technological solutions for non-invasive patient monitoring, developed within Spoke 2 of the RAISE project.
Starting from here, you will explore the creation of new applications by defining a new use case, evaluating possible integrable technologies, and developing a short presentation and practical demo to show how sensors can be used to tackle new challenges in healthcare.
You will discover how the integration of non-invasive sensors – environmental or wearable – with artificial intelligence algorithms can support objective patient assessment, contributing to more effective and personalized medicine.
More information about the workshop and how to participate can be found at this link.

Designing tomorrow’s healthcare
Smart glasses and sensor-equipped chairs: these are some of the devices you will see and try during today’s lab.
These are technological solutions for non-invasive patient monitoring, developed within Spoke 2 of the RAISE project.
Starting from here, you will explore the creation of new applications by defining a new use case, evaluating possible integrable technologies, and developing a short presentation and practical demo to show how sensors can be used to tackle new challenges in healthcare.
You will discover how the integration of non-invasive sensors – environmental or wearable – with artificial intelligence algorithms can support objective patient assessment, contributing to more effective and personalized medicine.
More information about the workshop and how to participate can be found at this link.