Dr. Timothy Constandinou introduces the Next Generation Neural Interfaces research group at Imperial College London.

discusses the importance of long-term reliablity of implantable devices and describes his research work within the ENGINI project.

Katarzyna Szostak-Lipowicz talks about challenges in microfabrication and packaging of future autonomous neural interfaces.

This work is a part of the ENGINI project.

Michal Maslik talks about his work on developing electronics for the next generation of neural implants that could allow control of artificial limbs and help patients with spinal cord injuries.

This work is part of the ENGINI project.

Dr. Lieuwe Leene talks about using electronic micro systems for medical implants and the novel signal processing techniques being investigated by his research.

This work is part of the ENGINI project.

Peilong Feng, PhD talks about developing completely wireless infrastructure for distributed mm-sized neural implants to deliver power and transmit data.

This work is a part of ENGINI project.

Nur Ahmadi talks about his research on developing a stable and low power brain-machine interface (BMI) that uses local field potentials (LFPs) as signal source.

This work is part of the ENGINI project.

Presented at World Economic Forum - Annual Meeting of the New Champions in Dalian, China

Timothy Constandinou reviews recent advances in Brain Machine Interfaces (BMIs) and identifies key challenges with the current state-of-the-art moving forward. The ENGINI vision aims to address these by developing next generation technology that is mm-scale, distributed, autonomous and completely wireless.

Dr. Laszlo Grand talks about Deep Brain Stimulation for Parkinson's disease and his project on developing a closed-loop implantable system for event based stimulation.

Dorian Haci talks about the shift from a centralised to a distributed approach for implantable medical devices and how such network-based solution can improve treatments for neurological disorders.

This work is part of the CANDO project.

Dr. Yan Liu describes how his research is implementing new fully-integrated electronic devices for recording electrical signals from networks of neurons (neural electrophysiology).

This work is part of the CANDO project.

Dr. Song Luan talks about his work on a miniature multi-channel neural recording platform for recognising individual neurons in real-time.

This work is part of the NGNI and iPROBE projects.

Dr. Ian Williams talks about developing a prosthetic arm that feels like a part of your body.

This work is part of the SenseBack project.

Adrien Rapeaux talks about how we can improve spinal cord-injured patients' independence by improving the way we use already approved implant technologies.

This work is part of the SenseBack project.

discusses using light beams to detect neural activity in peripheral nerves and the possible applications of optical coherence tomography to non invasive neural recording.

Bryan Hsieh talks about the development of a compact, light weight, EEG (Electroencephalogram) device that can be used to help researchers understand the process of sleep and how it links to brain functions.

Presented at the 3-minute thesis 2016 competition - Imperial College London Graduate School.

Timo Lauteslager presents his research that is applying impulse radar to non-invasive biosensing and bioimaging applications - towards functional neuroimaging.

This video features Dr Constandinou presenting his research on applying modern micro-electronics to medical device applications.