Foto Credits: Ken Friedl (4), TUM (2)



The convergence between engineering and neurobiology brings about new discoveries in the brain as well as innovations for future neuroprosthetics and brain-technologies-interfaces. In addition, applying knowledge from the neuro world will be exploited to investigate design methods and architectures for improving technical systems out of the neuro application domains. As a new interdisciplinary center, the CoC for Neuro-Engineering brings new capabilities to the growing research community at TUM, with state-of-the-art computational and fabrication facilities for developing novel technologies that will benefit a wide range of societal needs, such as health care and active ageing.

On April 19, 2018 we had our last CoC networking meeting. Pictures and more details are available here: Neuro-Engineering Networking Workshop

International Neuroengineering Symposium 2022

For the first time, since the Corona Pandemic the symposium took place as an in-person scientific event on May 16th 2022.  It was organized by TUM, inviting all researchers and students interested in neuroengineering to meet and discuss recent developments withCoC members, MSNE associated faculty and students of the Elite Network of Bavaria (ENB) Master Program in Neuroengineering (TUM). Here are some pictures of the event:


Mission & Goals

Understanding how the brain reacts to sensory stimuli, encodes perceived and abstract information, reasons on such information and generates behavior from previous experience will be the core research question of the center: Neuronal information processing from sensory input to behavior, and its implementation in technology. We link this closely to medicine (such as neuro-muscular rehabilitation, or active sensing and acting prostheses) but also to technical systems, where an understanding of neuronal style of distributed information processing will give rise to the next large leap in computing performance (such as massively parallel processing systems with intertwined processing and storage).

The center will be a multidisciplinary research endeavor in the cross-border area of neuroscience and application-oriented engineering – closely interacting with biology, zoology, medicine; and thereby providing a bridge to ongoing activities beyond TUM’s existing strong engineering disciplines, enabling access to neurological programs such as of LMU, BCCN.

The center will offer breadth and depth in NeuroEngineering research and will be attractive in education with growing programs for young engineers. They share the common goal of analyzing the function of the nervous system, developing methods to restore damaged neurological function, and creating artificial neuronal systems by integrating physical, chemical, mathematical, biological, and engineering tools.

Core Competencies

  • Neuro-Medical electronics
  • Neuro-Sensory systems and information processing in visual, auditory and haptic domains
  • Closed loop Neural Perception-Cognition-Action Systems
  • Bio-sensors
  • Brain-Machine and Brain-Computer Interfaces
  • Neuro-based electronics
  • Neuronal data processing
  • Self-organizing multi-core processors


  • Neuronal circuits and information processing at the systemic level for technical implementation (such as robotics) and medical settings (such as prosthesis, BMI/BCI)
  • (Neural) Systems-on-chip
  • Bio-Sensors
  • Neuro-Rehabilitation
  • Neural computation
  • Autonomic and organic computing