What are some of the major challenges you face in your research? What are some of the key areas where your work could be applied?
Designing, analyzing, assembling and programming an automated robotic system for flight campaigns while considering the critical emergency situations and the standards of safety that must be followed have been both challenging and rewarding.
There have been many unforeseeable design hurdles due to the constraints on flying this type of robotic apparatus. But with the invaluable support of my colleagues and the incredible supervision of Krzysztof Skonieczny, an assistant professor in the Department of Electrical and Computer Engineering and the Canada Research Chair in Aerospace Robotics, we have found solutions for unexpected surprises so far.
The principal technological application is the development of software tools for rover operators which link available rover telemetry to classes of terrain interactions.
What person, experience or moment in time first inspired you to study this subject and get involved in the field?
I don’t remember a day that I wasn’t fascinated by space exploration. While growing up reading sci-fi books and watching sci-fi movies, space travel and exploration seemed like a future I would like to live in. My interests in robotics were developed gradually. Right after graduating from university, I applied to two open positions in Germany.
Following a stint with the robotics department at the Karlsruhe Institute of Technology (KIT), I moved to the Netherlands to acquire knowledge and experience in space robotics at the European Space Agency before continuing my studies and joining the Aerospace Robotics Laboratory at Concordia.
How can interested STEM students get involved in this line of research? What advice would you give them?
The field of robotics is growing fast so there will be countless opportunities out there for students who specialize in this field to get involved. For space enthusiasts, joining Space Concordia or other student projects can provide indispensable experiences in robotics, satellites, or even rocketry.
I would advise students to find a mentor to steer them in the right direction, surround themselves with passionate people, be creative, indulge in curiosity and enjoy it.
What do you like best about being at Concordia?
The opportunities to get involved in student projects, particularly space-related student projects, is fairly unique at Concordia compared to many other universities in Canada.
The main reason I moved from the west coast of Canada to Montreal is the space-related opportunities. So far, my favourite time at Concordia is working with my colleagues in the lab.
Are there any partners, agencies or other funding/support attached to your research?
We are funded by the Canadian Space Agency with MDA as our industrial partner in research collaboration with McGill University. In addition to that, we have been in contact with the European Space Agency and have received tremendous support and feedback from them.
Learn more about Concordia’s Institute of Aerospace Design & Innovation.