WP4: Application Case Studies to bridge the knowledge gap
All DCs collaborate across four tracks: (i) health monitoring and analysis, (ii) regaining motor function, (iii) independent mobility, and (iv) ambient intelligent interaction. Their collective efforts ensure the comprehensive development and sustained ef- fectiveness of Symbiotic Assistive Health Technology throughout its lifecycle. Collaborative data exchange enables holistic evaluation, addressing safety, functionality, and symbiotic solutions. WP4, the final deliverable, acts as a pilot, integrating outcomes from WPs 1-3. Four DCs lead case studies covering the design cycle, offering practical feedback and benefiting from where researchers engage in a two-way exchange, enriching the collective understanding. DC12 focuses on developing and evaluating wearable sensors that utilise biosignals for assistive communication and health monitoring. DC13 also collaborates with DC2 (WP1) within the AERIALIST program, specifically focusing on leveraging gaming technology for in-game assessments in the field of Rehabilitation Robotics. DC14 aims to advance prosthetic limb technology by leveraging AI and computational technologies. The current challenges faced by individuals with lower-limb amputations, such as limited adap- tability to unforeseen situations, necessitate intel- ligent control methods. DC15 is committed to developing user-centered control approaches for wearable robotic systems, focusing on highly precise Model Predictive Control (MPC) models.