Outline Of An Evolutionary Morphology Generator Towards The Modular Design Of A Biohybrid Catheter
Using neuroevolution for designing soft medical devices
Fabrication of Flexible Double-Gate Organic Thin Film Transistor For Tactile Applications
A novel steerable catheter controlled with a biohybrid actuator: a feasibility study
A novel concept of steerable catheters actuated by muscle cells: the BioMeld project
A novel steerable and soft microcatheter actuated by an engineered muscle
Control of Biohybrid Actuators using NeuroEvolution
NeuroEvolution algorithms applied in the designing process of biohybrid actuators
Control of Biohybrid Actuators Using Neuroevolution
Development of an Electrical Current Stimulator for Activating Muscle Tissues in Biohybrid Machines
2.1 – The Framework Specifications
2.5 – Additional simulation modules
2.6 – Machine learning optimization
3.5 – Feedback system control software
4.3 – Performance simulations and analysis of results
5.1 – Report of the kick-off meeting
5.3 – Plan for Dissemination, Exploitation and Communication
This project has received funding from the European Union’s Horizon Europe research and innovation programme under grant agreement No. 101070328.
Views and opinions expressed are however those of the author(s) only and do not necessarily reflect those of the European Union or European Commission. Neither the European Union nor the granting authority can be held responsible for them.