Researcher biography

Dr Antonio Padilha L. Bo completed the BEng and MSc at the University of Brasília, Brazil, in 2004 and 2007, respectively, and he was awarded the PhD from the University of Montpellier, France, in 2011. From 2011 to 2019, he has been a tenured assistant professor in electrical engineering at the University of Brasilia, Brazil, where he coordinated Project EMA (Empowering Mobility and Autonomy), which is one of the teams that took part in the Cybathlon competition in 2016 and 2020. He has co-authored over 75 peer-reviewed publications, including awards from societies such as IFAC, IFESS, and MICCAI.

Over the past ten years, Dr Bo has been engaged in research projects concerning the development of technology dedicated to healthcare, particularly in the design of systems to be directly used by a patient in rehabilitation or assistive settings. Every effort featured strong experimental work and was conducted in close collaboration with local rehabilitation centers. In his work, tools from neuroengineering, robotics, control, virtual reality, and instrumentation are often integrated to create devices and algorithms to sense and control human motion. For instance, he has used wearable sensors to segment and estimate parameters of human movement in real-time, a technique that may lead to novel rehabilitation protocols. More importantly, his work has also focused on developing closed-loop control strategies for electrical stimulation applications and prosthetic/orthotic devices. Some examples include systems based on superficial electrical stimulation to enable persons with spinal cord injury to exercise using the lower limbs (e.g. in cycling or rowing) and to attenuate the effects of pathological tremor in essential tremor and Parkinson's Disease.

His long-term research goal is to develop and evaluate the use of noninvasive technology, including electrical stimulation, robotics, virtual reality, and wearable devices, for improving rehabilitation and assistance for persons with motor disabilities.

Featured projects Duration
Neuroengineering and rehabilitation

Areas of research