University: Carleton University
Team Members: Hunter Brzezinski, Emily McColville, Sophie Kasdorf, Cassandra Stabile, David MacKay, Samrina Nasrin Yousuf
Faculty Advisor: Dr. Heath MacMillan
The Carleton University based team studied the effects of microgravity on edible crickets, which can be used as a source of nutrition in deep space missions. Their novel experiments analyzed cricket immune response, viral loads, and performance traits after exposure to microgravity. The team also investigated antivirals (valacyclovir) to try to mitigate stress induced immune responses. Their results are expected to provide a comprehensive dataset to help pioneer insect astro-farming research.
University: University of Waterloo
Team Members: Megan Chang, Devshi Perera, Emilia Castillo, Ryan Mark, Mysha Hamid, Andre Arroyo-Cottier, Lili Strong, Sameek Sharma, Nathan Bellsmith, Relja Vojvodic, Asmi Kaur Gujral
Faculty Advisor: Dr. Michael Mayer, Conrard Giresse Tersassi Feugmo
This project of the team from University of Waterloo aimed to test whether solder joints formed in microgravity can be improved using a centrifuge, a device commonly used in microgravity experiments to simulate Earth’s gravity. The team hypothesized that soldering within a centrifuge will recreate Earth’s gravity conditions, resulting in solder joints with reduced porosity and improved quality. The goal of the research was to devise a method to improve the quality of in-space solder joints to allow replacements of electrical components in long-duration space missions.
University: Southern Alberta Institute of Technology
Team Members: Samuel Relja, Kylan Mazak, Ethan Good, Leif Teigen, Isaac Richardson
Faculty Advisor: Olga Malikova
The goal of this team from Southern Alberta Institute of Technology (SAIT) was to investigate the behaviour of an unmanned, electrically powered craft in microgravity. The team studied the maneuvering abilities of the craft while traveling at both low and high speeds, propelled using electrohydrodynamic ion thrusters and stabilized using a mechanical and digital gyroscope. The goal of the project was to further the development of a vehicle that can be used for various applications in outer space.
University: University of Alberta
Team Members: Sandro Nevesinjac, Uriah Martinkus, Avi Jay, Tam Ajoku, Tanzim Mira, Jacob Feng, Matthew Thomson, Bibek Kahlon, Jady Xu, Bayan Shayeb
Faculty Advisor: Dr. Dan Sameoto
The team from the University of Alberta studied the behaviour of compliant hinges in microgravity environments. They studied the moment of inertia, the angle at which it opens, and any parasitic motion of the compliant hinge in microgravity. Each hinge was subjected to thermal cycling and stowage to see how they will react. The team aims to employ this kind of hinge design for AlbertaSat’s upcoming satellite mission.
University: Concordia University & Queen’s University
Team CRISiS (Cardiovascular Resuscitation Identification Simulator in Space) from Concordia University aims to engineer a new class of cardio-pulmonary resuscitation (CPR) manikins as a testing platform to provide real-time feedback of volumetric flow rate within a cardiovascular fluidic system. This project is a stepping-stone in establishing a “gold standard” CPR for human spaceflight.
University: University of Alberta
Team Members: Aleeza Batool, Kinston Wong, Evan Frandsen, Justin Van Engelen, Troy Coward, Ryan Bererton Faculty Advisors: Prashant Waghmare, Hani Henein
Faculty Advisor: Prashant Waghmare, Hani Henein
Methods for additive manufacturing and 3D printing have become increasingly popular in recent years, especially in demanding aerospace applications. But can you 3D print metal parts in space? This team aimed to understand the use of Binder Jetting Additive Manufacturing (BJAM) under microgravity conditions. By examining the material properties of the manufactured parts, MEMEs hoped to learn what are the limits of additive manufacuring and determine optimal printing parameters for BJAM. Improved understanding of BJAM and it’s performance under microgravity conditions can enable new methods for in-space manufacturing.
University: University of British Columbia Okanagan
Team Members: Elana Wood, Brody Bird, Yosamin Esanullah, Sydney Fang, Abrar Mahir, Alexandra Rybka, Iain Reid, James Ropotar
Faculty Advisor: Ray Taheri
StratoNeers tested hardware protective techniques to mitigate the occurrence of bit flips due to cosmic radiation in computer’s binary code. This experiment would provide new insights into protective techniques to safely store data onboard satellites, rovers, and space telescopes.
University: McGill University
Team Members: Umut Given, Maneesha Kahale, Maninder Bir Sigh, Zachary Hayden, Alexander Buge, Alex Truong, Jakob Rylo, Harry Liang, Andrew Zeng, Eric Shen, Jenny Su
Faculty Advisor: Arun K. Misra
McGill Space Group studied the flux of greenhouse gases in the atmosphere from seasonal forest fires. Analysis of atmospheric flux of hydrocarbons, nitrous oxide, and black carbons could help forecast air quality in impacted areas and student environmental and health impacts of forest fires.
University: Carleton University
Team Members: Andrew Yip, Iuliia Kolotylo, Zachary Pogue, Aaron Yu, Sukriti Kumar, Mili Patel
Faculty Advisor: Anatoli Ianouul
AstroBubble tested the feasibility of sensing cosmic radiation using plasmonic nanoparticles (metallic particles with unique optical properties of efficiently absorbing and scattering light). This experiment would provide new insights into plasmonic nanoparticles and manufacturing of lightweight, autonomous ionizing radiation detectors for space applications.
University: Polytechnique Montreal
Team Members: Ioana Bruj, Nikolay Tokmantsev, Jean-Thomas Dagenais, Frédéric Brunel, Sarah Albos, Yianni Hudon-Castillo, Andrei Alexandru Apostu, Rayenne Belakrouf, Xavier L’Heureux, Louis Racicot, Olivier Leclair, Richard Marcotte, Clément Mougeolle, Gabriel Chenier, Charles Le Pailleur, Fanny Fabre, Andrew Karim, Régis Guertin, Tom Guerin, Sawsen Chaffai, Nicole Tebchrany, Oscar Joaquin Isasmendi Ramirez, Dylan Tassé, Jérémy Bélec, Melissa Karabaghli, Arthur Morand, Aymene Mahroug, Ania Abdesselam, Paul-Emile Jennevin, Baptiste Langlet, Lyna Myriam Amaouche, Rayan Douair, Dahlia Iness Bouaou, Kenza Mansouri, Chloé Mireault-Lecourt, Ugo Mahue
Faculty Advisor: Dr. Giovanni Beltrame
PolyOrbite tested a novel “optical nose” sensor to characterize the composition of the atmosphere (CO2, O2, C2H4, H2O) during the entire balloon flight as a demonstration of the capability and robustness of the sensor in harsh environments compared to more traditional electronic/MEMS sensors. In addition, the payload was validating a plant incubator system which is intended to fly on-board a 3U cubesat.
University: Queen’s University
Team Members: Kate Szabo, Joshua Wade, Thomas Sears, Cal Graham, Emma Paczkowski, Sean Tedesco, Karsten Faethe-Jackson, Varnikaa Gupta, Hawking Tan, Syed Muhammad Ali Hassnain, Joshua Gonzales, Tobias Chong, Thomas Tesselaar, Aidan Sheedy, Anthony Jones, Justine Kuczera
Faculty Advisor: Dr. Laura Fissel
The HORIZON payload tested a low-cost and lightweight attitude determination system using commercial off-the-shelf cameras to image Earth’s limb and estimate large-angle attitude changes during the stratospheric balloon flight. This test serves as both a proof of concept and help to characterize the performance parameters of the camera in comparison to traditional attitude determination systems.
olaoluwa.awe@mail.mcgill.ca
‘Nifemi is currently undertaking the Master of Laws program in Air and Space Law at McGill University as an Erin J.C. Arsenault Fellow in Space Governance.
Her research at McGill focuses on the role of law in propelling African States to exploit space technologies for Africa’s socio-economic development.
‘Nifemi is a high achiever and multiple award winner who has received various scholarships and awards for her program at McGill. In recognition of her academic excellence, she was awarded the Setsuko Ushioda-Aoki Prize by the Faculty of Law, McGill University. She was also awarded the African Space Industry Top 10 Under 30 Award in 2021.
She is a researcher and volunteer whose work aims to contribute to the development of space law and policy in Africa. She volunteers her time with organizations and programs geared towards Africa’s space governance and the development of the next generation of aerospace practitioners in Africa.
‘Nifemi is currently a National Space Society Legal Fellow and the Secretary-General of the African Air and Space Law Association.
In her spare time, ‘Nifemi loves to sing and travel!
newsha.haghgoo@mail.utoronto.ca
LinkedIn https://www.linkedin.com/in/newsha-haghgoo
Newsha Haghgoo is currently pursuing a Master of Engineering in the Mechanical and Industrial Engineering Department at the University of Toronto and is a Space Exploration Project Group member at the Space Generation Advisory Council (SGAC). Newsha and her team have been working on a research project that focuses on the health of female astronauts and their adaptation to space during long-duration missions and commercial spaceflight. Newsha also comes from a background in sustainable energy systems and is interested in using space technologies to study and protect Earth. Last year, she was involved in a CubeSat project that explored the impact of climate change by gathering oceanic data. She presented this research on behalf of her team at the 12th European CubeSat Symposium in Paris. In addition, she attended NASA’s 2021 SpaceApps Challenge with her team and worked on a project about flooding and simulating its detrimental impacts using the data provided by Earth-observation satellites. The competition committee selected her team as one of the global nominees in this challenge. Finally, she hopes that by gaining more experience in this industry, she can get new insights about space technologies and leverage that to achieve a better and more sustainable future for all.
LinkedIn – https://www.linkedin.com/in/janagebara/ ,
Instagram: @MissionSpaceWalker
My name is Jana and I am currently completing a Bachelors of Science in Mechanical Engineering and a certificate in International Learning at the University of Alberta. I am a member of Mission SpaceWalker, one of four groups selected for this year’s SEDS Canada CAN-RGX challenge. I am also involved in several outreach initiatives to educate youth about space, as well as support underrepresented students in science, engineering, and technology. I hope to one day work in the aerospace industry and participate in the advancement of space exploration and development.
grecia.olanob@spaceconcordia.ca
https://www.linkedin.com/in/grecia-olano/
Grecia is a McGill University Alumni. She is currently attending the Gina Cody School of Engineering and Computer Science at Concordia University, specializing in Web Services and Applications.
Having previously held business as well as technical roles in various companies including Bombardier and Boeing, she is passionate about all aspects of the aerospace sector. Her interests lie in combining computer science, engineering, and business to bring about positive change.
She is proud to represent Concordia at multiple competitions and outreach events supporting Women In Stem. Grecia currently serves as Vice President of Marketing at Space Concordia, Concordia University’s very own aerospace association. In addition, she is also a member of both the Rocketry and Space Health divisions. She is passionate about science communication and enjoys designing engaging content to showcase a wide variety of engineering, and research projects.
Aaron.rosenstein@mail.utoronto.ca
https://www.linkedin.com/in/aaronhrosenstein/
Aaron is a PhD student at the University of Toronto studying bioengineering. Part of his research involves identifying human genes which could protect astronauts from both microgravity and radiation experienced in space. During his MSc., Aaron discovered that DNA polymerase enzymes, essential components of DNA repair and replication pathways, make more errors in microgravity than on earth. He is a past participant of CAN-RGX II, and in his spare time enjoys hiking, skiing, exploring and eating tacos!
marieke.dekorte@mail.utoronto.ca
Marieke graduated from the University of Toronto with an HBSc in Molecular Genetics, Neuroscience and Immunology. During her undergraduate degree, she was involved with the UofT Aerospace Team, where she helped to design a microbiological payload to be launched into space onboard of a 3U CubeSat. Marieke’s passion for space medicine was ignited through her involvement with the team. As such, she is currently completing her PhD at the University of Toronto, where she studies the effects of microgravity on human immune cell function.
Anna Voelker (they/them) is the founder and Executive Director of the SciAccess, an international nonprofit dedicated to advancing disability inclusion in STEM. Through SciAccess, they lead numerous science inclusion initiatives, including an annual conference launched by their receipt of The Ohio State University (OSU) President’s Prize in 2018. Along with George Whitesides, former CEO of Virgin Galactic, Anna serves as the Co-Founder of Mission: AstroAccess, a new SciAccess project that aims to pave the way for disabled space explorers. On October 17, 2021, Mission: AstroAccess flew its inaugural crew of disability ambassadors on a zero gravity parabolic flight.
Anna specializes in accessible science outreach for diverse learners and is passionate about making STEAM (science, technology, engineering, arts, and mathematics) accessible to all, as detailed in their 2017 TEDx Talk. In May 2021, Anna hosted alive NASA event where astronauts on the International Space Station (ISS) answered questions from students with disabilities. This was the first ISS event to feature American Sign Language in over a decade. Anna was named a 2018 Brooke Owens Fellow, 2021 Future Space Leader, and previously worked at NASA Kennedy, NASA Goddard, the Space Telescope Science Institute, OSU Department of Astronomy, and the Aerospace Corporation.
Nicole Mortillaro is an award-winning science reporter, as well as the editor of the Journal of the Royal Astronomical Society of Canada.
Stephen Matier, President and CEO of Maritime Launch Services (MLS), is the visionary and driving force behind the development of Canada’s first spaceport, a world-class commercial space complex that will launch Canada into the global space industry from near Canso,, Nova Scotia. A mechanical engineer (Bachelor of Science, University of New Mexico, 1989) and an award-winning former NASA contractor engineering manager (NASA White Sands Test Facility), Matier is leading coordination and approval among provincial, federal and international governing bodies, conducting environmental assessments, negotiating land-use agreements, securing private financing, leading satellite sales, coordinating launch vehicle integration and selecting best-in-class commercial firms for the design, construction, and launch operations at Maritime Launch. As part of Steve’s work with Maritime Launch, he is driving the collaboration and partnerships that will support the development of a safe and environmentally sustainable commercial space market in Canada. With satellite clients within Canada and around the globe interested in Maritime Launch’s offering, and a principal launch vehicle developer in Ukraine, Maritime Launch is joining a global industry that will exceed one trillion dollars annually within the next 20 years. While Steve’s day-to-day focus is squarely focused on developing Canada’s first commercial spaceport, Matier’s interest in space extends beyond the technology and the launch itself. Steve has a passion for teaching, which means he is never far from the classroom, whether guest lecturing at a local high school physics class in Canso, or presenting to kids at summer programs in Antigonish. He has driven partnerships with St. Francis Xavier University and Cape Breton University and is a supporter of Dalhousie’s Cubesat program. His passion for working with schools began in his early career in the Space Shuttle program, with the recognition that kids can look up into space and see opportunity for themselves on the ground.
Hira Nadeem is currently an M.E.Sc. graduate student in the Electrical and Computer Engineering Department at Western University’s Institute for Earth and Space Exploration and received her B. Eng. from McMaster University. Hira is a strong believer in making space accessible and interdisciplinary. Through her involvement as the former President of the Students for the Exploration and Development of Space (SEDS) Canada, and the Co-Founder of the McMaster Planetary Society, Hira has led teams to create opportunities for Canadian students and young professionals locally and nationally.
Last year, Hira was selected as the first Canadian Brooke Owens Fellow with the opportunity to intern at Planet in San Francisco, CA in the fall of 2020. Hira is excited to research solutions to problems both on Earth and in space during her Master’s, and looks forward to continuing to support and contribute to the Canadian space industry.
Dr. Parshati Patel is an Astrophysicist turned Science Communicator and STEM Education Researcher based in London, Ontario, Canada. She is the Educational Outreach and Communications Specialist at the Institute for Earth and Space Exploration at Western University. She is currently on leave from this position and on secondment to the Canadian Space Agency, where she is the Program Designer and Education Advisor with the Youth STEM Initiatives team. Dr. Patel is an Adjunct Research Professor in the Faculty of Education at Western University. She recently completed professional certification in Public Relations and Communications as well as certification in Digital Communications and Innovation from Western University’s School of Continuing Studies.
Originally from Ahmedabad, Gujarat, India, Parshati moved to Canada in 2006 to pursue Astronomy and graduated in Hons. BSc in Astronomy & Physics from the University of Toronto in 2010. She received her M.Sc. and Ph.D. in Astronomy and Planetary Science and Exploration under the supervision of Dr. Aaron Sigut & Dr. John Landstreet from Western University. You can learn about her astrophysics research here! Parshati has been communicating her passion for space science and technology with students and the public for the past 9 years in various capacities through outreach initiatives and programs at Western University. She develops and leads classroom workshops and camps, produces podcasts, organizes public events, trains educators, and acts as a science consultant for children’s books. Parshati conducts research in the Faculty of Education to understand and gauge the engagement of the participants as well as their outlook on STEM (Science, Technology, Engineering and Mathematics) careers and interest in STEM fields, you can learn more about her research here!
She has co-founded Women of Color in STEAMM (Science, Technology, Engineering, Arts, Mathematics and Medicine) Canada in 2018. Since June 2019, Parshati has been part of the Principal Scientific Adviser’s Consultative Group to the Government of India. She is also currently on the Board of Advisors for SEDS-Canada.
Christine Tovee has been involved with a spectrum of space projects since her university years. After growing up in Sudbury, Ontario with roots in both the east and west of the country, Christine completed a Bachelor of Applied Science in Engineering Science-Aerospace from the University of Toronto. She then earned a Masters in Aeronautics and Astronautics from the Massachusetts Institute of Technology. As part of her research work at MIT’s Man-Vehicle Lab, she developed a virtual reality experiment and trained the astronauts for NASA’s Neurolab Space Shuttle mission.
Christine Tovee has been involved with a spectrum of space projects since her university years. After growing up in Sudbury, Ontario with roots in both the east and west of the country, Christine completed a Bachelor of Applied Science in Engineering Science-Aerospace from the University of Toronto. She then earned a Masters in Aeronautics and Astronautics from the Massachusetts Institute of Technology. As part of her research work at MIT’s Man-Vehicle Lab, she developed a virtual reality experiment and trained the astronauts for NASA’s Neurolab Space Shuttle mission.
After MIT, Christine moved to Europe to work in the aerospace and defense industry, initially with BAE Systems in the UK and subsequently at EADS, the European Aeronautic Defense and Space Company (now Airbus Group), initially with Paradigm Secure Communications subsidiary. As part of the technical management team, she worked on the Skynet V satellite telecommunications system, at the time the largest private-public partnership in the world.
Christine then joined EADS Astrium Services in Paris to explore future technical strategies in the areas of Ka band satellite telecommunications and services related to unmanned aerial systems. After a stint as Chief of Staff to the EADS Corporate Technical Office in Germany, Christine was appointed Vice President for Research and Technology and Chief Technology Officer for Airbus Group, Inc., the US-based subsidiary.
At Airbus, Christine helped determine the technology needs of all business lines in the US and delivered US-based research for the entire company. Based at the campus of California Polytechnic State University, she initiated collaboration between Cal Poly and Airbus Group on CubeSats, the new standard for micro-satellites.
Having returned to Canada in 2016, Christine now focuses on organizational topics related to innovation and engineering. She has a passion for expanding the contribution of women in technology leadership as well as the impact of science and technology on social challenges. As a member of the advisory board at Genecis Envirotech Inc., Christine provides strategic advice on technology and innovation management to an environmental startup spun out of the University of Toronto. She also works as a consultant to other Toronto-area technology startups on technology road mapping, strategy, and organizational design.
Christine is a member of Canada’s Space Advisory Board, which provides advice on Canada’s space strategy to the Minister for Industry, Science, and Economic Development.
Jason Michaud founded Stardust Technologies in 2014 with the mission to empower the space industry through innovations in technologies, science, with the goal of making space more accessible to humanity. Through this Jason Michaud has established multiple international innovation projects with universities from around the world.
Through Stardust Technologies, Jason has established many international collaborations in the industry, notably the Canadian Space Agency, Western University, the National Research Council of Canada, Lockheed Martin, Beaverhouse First Nation, Habitat Marte, Blue Abyss, to name a few.
Jason has worked in collaboration with the Canadian Space Agency and the National Research Council of Canada on the EDEN project creating solutions for mental health of astronauts utilizing virtual reality, neural systems, haptics feedback in Lunar, Martian, and Micro gravity environments with the goal to make the first remote space hug possible with your loved ones on earth.
Most recently a very important international partnership between Stardust, ispace, EXPLOR, and the University of Technology Sidney was formed under the leadership of Jason to create the first haptics robotics arm, which will tentatively fly to the south pole of the moon in 2024 and will be aimed at promoting STEM education for the youth through the recorded sensations of the surface of the moon through haptics and the develop the future tools for the space industry.
Jason as studied at Collège Boréal in Computer Engineering and is a Certified Practitioner for CyberSecurity Certification (CPCSC) by Watsec Cyber Risk Management and most recently recognized as being part of the TOP Men in Aviation and Aerospace to Follow on Linkedin 2021
Jason is also involved as a Director at the Habitat Marte, in Brazil to further enhance its international collaborations, promote STEM education.
Jason also serves on multiple boards such as the ASBX 2021 on the organizing committee, the Centre de Formation as an Administrator, the Cochrane Board of Trade as a Board Director, and the Canada Nickel – Contributions and Procurement Committee.
With Stardust Jason as recently joined the International Astronautical Federation at the last IAF General Assembly that took place in Dubai, U.A.E., during the IAC 2021.
Jason had the honor and privilege to part of a panel representing Canada and Stardust for the Space Business Forum during the Expo 2020 Dubai organized by the Dubai Chamber, the UAE Space Agency, the Mohammed Bin Rashid Space Centre, and the incredible team at EXPO 2020!
He is an interdisciplinary scientist, working on astrophysics and on the intersection of science, astronomy, and Indigenous knowledge. As a Mi’kmaw person, he strives to embrace and integrate Indigenous knowledges and methodologies to better understand the physics of stars and the Universe and our place in it. More specifically, he probes the physics of stars, from the nuclear-burning core out to the circumstellar medium where stellar winds interact with the interstellar medium to understand connections between stars and planets; stars and cosmology; and stars and us. He exploits theoretical and numerical tools to compare with observational data sets to reveal the hidden physics of stars. He enjoys teaching at the undergraduate and graduate levels as well as participating in public outreach and science communication.
Dr. Cecilia Leung is a planetary scientist specializing in the present-day water cycle on Mars. Her research focuses on the atmospheric structure and dynamics of water, dust, and winds in the planetary boundary layer and in the lower atmosphere. Unlike the Earth, a significant percentage of Mars’ polar ice cap sublimates into water vapor every year, which gets carried by winds and deposited in other regions of the planet forming interesting clouds and surface features before circulating back to the poles and becomes incorporated into the polar ice caps once again. Dr. Leung’s research combines the use 3D numerical atmospheric models (global circulation models and mesoscale atmospheric models) and spacecraft data to study the global and regional atmospheric circulation of water, subsurface-atmospheric exchange processes, as well as coupling between the water and dust cycles. While earning her PhD from the Lunar and Planetary Lab at the University of Arizona, she worked on water-ice fogs in Valles Marieris, and modeling atmospheric influences on the formation of Recurring Slope Lineae. She also simulated regional dust storms in support of the Entry-Descent-and-Landing (EDL) of the InSight Mars Lander.
Cecilia Leung is currently a NASA Postdoctoral Program fellow at JPL, collaborating with Dr. Leslie Tamppari and the Mars Climate Sounder team to understand the vertical distribution water vapor above the Phoenix Mars Lander and the Curiosity Rover landing sites.
Keith Vanderlinde studies the nature and evolution of large-scale structure in the Universe, as well as the evolution of the cosmos itself. Studying large-scale structure requires specialized instruments and Vanderlinde is a member of collaborations using and developing ones that are unique.
One such instrument is the South Pole Telescope (SPT). The SPT surveys the sky at microwave frequencies to reveal the Cosmic Microwave Background—a snapshot of the Universe less than 400,000 years after the Big Bang.
Vanderlinde is also a member of a cross-Canada collaboration operating an innovative, digital radio telescope near Penticton, B.C. The Canadian Hydrogen Intensity Mapping Experiment, or CHIME, is a radio array creating a three-dimensional map of the largest volume of the Universe ever. CHIME will also be an excellent detector of radio pulsars and the newly recognized phenomenon of Fast Radio Bursts (FRBs). CHIME began science operations in the fall of 2017.
The group includes the Dunlap Institute, CITA, UBC, McGill University and the Dominion Radio Astrophysical Observatory.
Vanderlinde is also a member of a team using the Algonquin Radio Observatory in northern Ontario and the Giant Metre-wave Radio Telescope in India to make ultra-high resolution observations of pulsars, using pockets in interstellar gas as billion-kilometre-wide lenses.
Vanderlinde received his PhD from the University of Chicago and joined the Dunlap Institute in 2013. He is also a 2014 TEDxToronto fellow.
Dr.Jamil Sharrif is a Astrophysicist currently working on robotic hardware for space exploration at MDA.
Dr. Jamil Sharrif is a postdoc at the Canadian Institute for Theoretical Astrophysics, specializing in observations of the Cosmic Microwave Background (CMB)
From 2015-2016, He was a postdoc in physics at Case Western Reserve University, working with Prof. John Ruhl on CMB polarization experiments.
He completed my PhD in Astrophysics in 2015 at the University of Toronto, in the Balloon Astrophysics Group. During this time, he specialized in developing the flight power systems, control systems, and scan strategy for two balloon-borne telescopes: the SPIDER and BLASTPol experiments. He also worked on the analysis of submillimetre dust polarization data from BLASTPol’s observations of molecular clouds in the Galactic plane.
For three months from late 2014 to early 2015, He lived at McMurdo Station, Antarctica, where he worked as part of a team of 20 scientists to prepare SPIDER for its launch and 16-day stratospheric balloon flight around Antarctica.
As a graduate student he co-ran the AstroTours: a series of free monthly astronomy public lectures and observing sessions at the University of Toronto downtown campus. He also participated in organizing outreach activities at such events as Science Rendezvous.
Farah Alibay is a French-Canadian Aerospace Engineer. Born in Montreal (Quebec, Canada), she spent most of her childhood in Joliette (Quebec) and of her teenage years in Manchester (United Kingdom) tinkering with any project she could get her hands on and fascinated with space and exploration. These passions led her to pursue a Bachelor’s and Master’s degree in Aerospace & Aerothermal Engineering from the University of Cambridge (Cambridge, United Kingdom) before moving back across the Atlantic ocean to pursue a PhD in Aerospace Engineering from the Massachusetts Institute of Technology (Boston, USA) with a focus on Systems Engineering. In 2014, she joined NASA’s Jet Propulsion Laboratory (JPL) where she is currently part of the M2020 mission, working on the Perseverance rover, which landed on Mars in February 2021, and the Ingenuity helicopter, which performed the first powered flight on another planet in April 2021. Prior to joining the M2020 team, she worked on several other missions, including the InSight Mars Lander and its companion mission the Mars Cube One (MarCO) CubeSats.
Outside of her day-to-day job, Farah has a passion for science communication, having appeared in newspapers, tv and radio shows, and conferences across the world. She is a fierce advocate for women and minorities in STEM and has given herself the mission of contribute towards making this field more diverse and equitable. She is also active in her local community, notably as a Big Sister in the Los Angeles Big Brother Big Sister program, and as a Court Appointed Special Advocate, helping children navigate the foster care system. Finally, in her spare time, Farah can be found exploring the mountains near her home where she enjoys hiking, rock climbing, and mountaineering.
Dr. Matt Russo is an astrophysicist and musician who teaches physics at the University of Toronto. He completed his PhD and
postdoctoral research in theoretical astrophysics and is also a graduate of the University of Toronto’s Jazz Guitar Performance
program. He is the director of SYSTEM Sounds, a sci-art outreach project that converts astronomical data into music and
sound. Their work has been featured in the New York Times and they frequently collaborate with NASA to make astronomy
more accessible to the visually impaired. Matt’s TED Talk “What does the universe wound like? A Musical Tour” has been viewed
over 1.7 million times.
Dr. Kris Lehnhardt is the Element Scientist for Exploration Medical Capability at the NASA Johnson Space Center. He is also Senior Faculty with the Baylor College of Medicine in the Center for Space Medicine and Department of Emergency Medicine. He is board-certified in Emergency Medicine in both Canada and the U.S.A and he works clinically in the Emergency Department at the Ben Taub Hospital in Houston. Prior to these positions, Kris was an Attending Physician and Assistant Professor at The George Washington University (GWU) School of Medicine and Health Sciences. Kris is a reservist in the Royal Canadian Air Force, a private pilot, and a PADI advanced open water SCUBA diver.
Mariek Schmidt is an Associate Professor of Earth Sciences at Brock University and a geologist who studies igneous and volcanic rocks on both Earth and Mars. She received a BA in Geology from Colby College in Maine before going to Oregon State University where she got a PhD researching the eruptive history and geochemistry of volcanic rocks in the Oregon Cascade Range. Professor Schmidt first started working on Mars in 2005 when she was hired as a Postdoctoral Fellow at the National Museum of Natural History at the Smithsonian Institution in Washington, D.C.. For this position, she was a Postdoctoral Collaborator on the Mars Exploration Rover mission and worked with data from both the Spirit and Opportunity rovers. She joined the Earth Science Department at Brock University in 2009 and established a research program investigating the eruptive and environmental histories of volcanic fields on Earth and Mars. In 2012, Professor Schmidt was selected by NASA to be a Participating Scientist on the Mars Science Laboratory mission, working with the Curiosity rover, a project that is ongoing. And in late 2020, she was selected by NASA to be a Participating Scientist on the Mars 2020 rover mission and will get to work with data from the Perseverance rover. Schmidt also keeps active in terrestrial research with ongoing projects on the histories of volcanic fields in central Oregon, New Mexico, Nevada, and Iceland.
Dr. Kendall is the Faculty Emeritus of the International Space University. Dr. Kendall is also the past Chair of the United Nations Committee on the Peaceful Uses of Outer Space (2016-2017). During his career he has held senior positions with the Canadian Space Agency including as the Director General of Space Science and Space Science and Technology. He is also a faculty member of the International Space University based in Strasbourg, France and a founding member of the Outer Space Institute. He holds an undergraduate degree in physics from the University of Swansea, UK, and masters and doctoral degrees from the University of Calgary in atmospheric physics. In 2002, Dr. Kendall was awarded the Queen Elizabeth II Golden Jubilee Medal in recognition of his significant contributions and achievement to Canada.
University: University of Alberta
Team Members: Kirtan Dhunnoo, Amira Aissiou, Kinston Wong, Shankar Jha, Sherry Gao, Vasu Gupta, Vince Montero, Nafisa Hasan, Rahul Ravin, Darsh Trivedi
Faculty Advisor: Dr. Adetola Adesida
Did you know that approximately 1/6 of people on Earth are affected by knee osteoarthritis? For this year’s CAN-RGX campaign, the UASDG team of University of Alberta Engineering and Medical students have designed a payload to investigate the gene expression of bio-engineered cartilage tissue in microgravity. After the flight, UASDG is looking to track changes in precise gene expression and metabolites, for both male and female tissues. Not only is the experiment pertinent to astronauts returning to the ground, their our findings could contribute to improving the health outcomes of knee osteoarthritis patients on earth.
Where are they now?
Analyzing their data from their recent microgravity flight; they’ll also be at IAC 2021 in Dubai!
University: University of Toronto
Team Members: Erin Richardson, Anthony Piro, Catherine MacKenzie Campbell, Dunja Matic, Emma Belhadfa, Krish Joshi, Luca Castelletto, Miranda Badovinac, Nicole Richardson, Samantha Aberdein, Taylor Peters
Faculty Advisor: Associate Prof. Rodrigo Fernandez-Gonzalez (University of Toronto)
The NASA Twins Study saw Astronaut Scott Kelly spend 340 days on the ISS while his twin brother Mark remained on Earth, providing researchers with the opportunity to measure
differences between the genetically matched subjects in two different environments. Unexpectedly, Scott’s telomeres lengthened in outer space but were subsequently shortened to pre-flight lengths within 48h of arriving on Earth. Due to the many factors present in the study such as microgravity, radiation, temperature, and other stressors of spaceflight, it remains unknown why Scott’s telomeres lengthened. It is therefore important to isolate the potential contributing factors, and determine if any have influence on telomere regulation, particularly microgravity. Therefore, team TelOmG aimed to investigate the effect of changes in gravity on the genetic regulation of telomeres.
Where are they now?
Analyzing their data from their recent microgravity flight; they’ll be at IAC 2021 in Dubai!
University: University of British Columbia
Team Members: Paul Juralowicz, Eric Grant, Justin Lawrence, Kassandra Hawes, Peter Voznyuk, Robert Beda, and Samuel Young
Faculty Advisor: Prof. Thomas Mattison (University of British Columbia)
UBC Rocket’s experiment aimed to study the behaviour of microbial fuel cells in both micro- and hyper-gravity conditions. Microbial fuel cells are likely to play an important role in the future of space travel due to their ability to produce electricity while simultaneously doing useful work such as waste-water treatment in extreme conditions or methane production. UBC Rocket measured the current and voltage of four microbial fuel cells throughout a parabolic flight, hoping to gather information about the behaviour of MFC’s utilizing Shewanella Oneidensis bacterium.
Where are they now?
Analyzing their data from their recent microgravity flight.
University: University of Victoria
Team Members: Sean Farley, Sachi Premathilaka, Eric Fraser, Shannon Dawson, Annaliese Meyer, Malaki Vandas, Natasha Stefani, Tessa Charlton, Leo Vandas, Meet Dobariya, Sarah Ebert, Sean Waugh, Avery Hiebert, Cheyenne Heenan, River Leuba, Graham Killinger, Aaron Brandt
Faculty Advisor: Dr. Chris Nelson
Recent work by NASA has investigated genomic changes in astronaut Scott Kelly induced by time in a spaceflight environment compared to his brother Mark Kelly who remained on earth, raising interesting questions about biological sciences in space. UVic Rocketry entered the growing field of space and biological sciences by using RNA sequencing technology to sequence the full transcriptome of a robust eukaryotic model organism, Saccharomyces cerevisiae, in response to a periodic microgravity environment.
Where are they now?
During his graduate work, Sean Farley developed a miniaturized version of the team’s CAN-RGX experiment. This miniaturized platform was tested on board the Falcon 20 in 2021.
University: University of Ottawa
Team Members: Andrew Zavorotny, Tamjeed Elahee, Magdalena Richardson, Aashna Sharma, Jillian Prins, Jonathan Papineau
Faculty Advisor: Dr. Eric Brown (McMaster University)
Does our medicine work in space? What will astronauts do if they get sick on their way to the Moon or Mars? Partnering with McMaster University’s Brown Lab, uORocketry’s CAN-RGX’s team is poised to discover whether last line of defence antibiotics will be as effective in space as they are on Earth. Gentamicin, an antibiotic that is commonly used in antibiotic research, was used to interrogate the changes in the antibiotic resistance profile during microgravity. By investigating the changes in E. Coli response to gentamicin in a microgravity environment, they seek to understand new antibiotic resistant pathways in Enterobacteria. uORocketry also partnered with LetsTalkScience to visit local high schools to teach tomorrow’s scientists and engineers about working in STEM fields.
Where are they now?
The team is working on analysis of their flight data, in partnership with McMaster University’s Brown Lab. The team will likely re-fly their experiment in 2022.
Founders: Joseph De Luca (University of New Brunswick), Anna Olesen (University of Calgary)
Tridacna’s mission is to provide safe, effective, and environmentally-friendly radiation shielding options capable of protecting individuals and sensitive cargo on and off Earth, as well as in low Earth orbit.
Tridacna’s vision is to produce world-leading, practical radiation shielding options that are not lead nor polyethylene-based, for use by space agencies, organizations, and companies developing technologies and textiles primarily intended for use in space. Tridacna is particularly focused on the development of shielding options that can be reproduced in situ, exactly where they are needed, as opposed to requiring transportation to site.
“The dangers of space radiation, to people and sensitive electronics alike, is one of the most challenging issues faced by the space industry to date; as humanity transitions towards more frequent and long-term space travel, this danger remains one the most important problems to solve. Current solutions include the use of significant amounts of either dense, toxic lead or polyethylene; but these options are not sustainable long-term due to their bulk and cost. Tridacna’s product was inspired by mycosporines and mycosporine-like amino acids; UV-protectant molecules produced by the Tridacna genus, as well as other animals and bacteria evolved to live in high-volume sunlight environments. Through diligent research, it is Tridacna’s hope our alternative will be lighter, more economical, and even reproducible in-situ, making it a clear winner against other contemporary radiation-shielding options.”
Founders: Charles Sirois (Polytechnique Montréal), Kaitlyn Lee (University of Waterloo), Kuthan Celebi (University of British Columbia)
Port-L’s vision is to lead the space research market in technology and business development and allow rapid growth in the commercial use of the Earth’s orbit and beyond.
Port-L’s mission is to create a set of integrated payload platforms that could house various experiments and provide all necessary manipulation and data collection capabilities remotely to researchers, at an affordable price.
“The end goal of Port-L is an end-to-end service to make LEO more accessible to research. Our primary goal is to allow researchers to be able to focus solely on their research, without having to worry about the logistics and challenges of sending it space (and possibly retrieving it). To do so, we will take care of booking the launch and the ground control segment but most importantly, we will make a payload that is able to automate research processes. In order to reach this end goal, Port-L will develop two products to build its brand and gain revenue to expand the business. Port-L’s first product offering will be specialized hardware on the ISS to automate pipetting. Port-L’s second product will be a chemical analyzer.”
Founders: Hashim Farooq (Brandon University), Zaid Shariq (McMaster University)
TimeSule’s vision is to build an impenetrable data storage solution(s) in space for the storage of sensitive and classified data.
TimeSule’s mission is to provide users with a unique and highly secure way of storing sensitive or classified data by utilizing satellite solutions.
“Initially, TimeSULE will create a time capsule satellite that lets customers send voice messages, pictures and videos through an app that are then stored on the satellite; the messages can also be sent to another user at a later time. The user will also be able to track the satellite and see what the satellite sees from its camera. The time capsule functionality will continue to operate, but the focus will shift towards highly secure “big” sensitive/classified data storage (for use by banks, governments, companies, individuals, etc.). The End goal is to build data storage satellites for sensitive and or classified data.”
Dr. Tanya Harrison is the Director of Science Strategy for the federal arm of Planet. She is also a “Professional Martian,” having spent the last decade working in mission operations for NASA’s Mars orbiters and rovers. She holds a Ph.D. in Geology with a Specialization in Planetary Science and Exploration from the University of Western Ontario, a Masters in Earth and Environmental Science from Wesleyan University, and a B.Sc. in Physics and Astronomy from the University of Washington. Tanya is also an avid science communicator, having made appearances on TV, radio, and podcasts around the world. You can find her prolifically tweeting about space, Mars, and inclusion in STEM on Twitter as @tanyaofmars.
Founders: Chelsea Bahenduzi (Concordia University), Bedhya Bhattarai (McMaster University), Snigdha Majeti (McMaster University)
SpaceShield’s vision is to become the leading company that enhances the safety and well-being of explorers.
SpaceShield’s mission is to explore and develop smart and efficient solutions for pioneers’ numerous safety problems today.
“SpaceShield strives to ensure the safety of travelers. Our goal is to minimize the risk of exploration activities in different atmospheric pressures and harsh environments. Our service is to provide safe, sustainable, and comfortable equipment for our explorers. Our first product is a new leak-proof extravehicular activity (EVA) helmet. Our plan is to expand our product line and make the equipment available to space tourists, divers, and more.”
Founders: Keel Scruton, Alex Leak, Sean Clarke (all from McGill University)
BioARC’s vision is to be the name behind the future of deep space food production.
BioARC’s mission is to create novel food production technologies or systems that require minimal inputs and maximize safe, nutritious, and palatable food outputs for long-duration space missions. These solutions can also be deployed on Earth to mitigate food insecurity in remote regions and minimize the environmental footprint of globalized agriculture.
“Our proposed product is an insect growth and processing system that can provide a crew of 4 with sufficient nutrients (primarily protein) for the duration of their mission. The system will be relatively small, ≤ 2m3, and draw a limited amount of power, approximately 1,500 W average. Additionally, the system will require limited maintenance, roughly 4 hours per week for operations, and be able to separate egg, larvae, pupae and adult insects, autonomously, in order to properly process the adults into a palatable, safe food choice, while not harming the eggs, larvae and pupae. The system must use limited resources inputs (water, energy, insect feed, oxygen, etc.) and manage outputs (food waste, insect waste and gasses) with no dependency on direct periodic resupply from Earth over durations increasing from months to years.”
Founders: Liam Hinderks (University of Waterloo), Bryce Roseman (UBC), Abhinav Pathrabe (UBC), Jared He(University of Waterloo)
LEEP’s vision is to spark interest and foster appreciation for space exploration.
LEEP’s mission is to provide students with a unique program experience that provides hands-on classroom projects with an observable extra-planetary component.
“Our company would send a tadpole to space, as well as tadpoles of the same species to classrooms across Canada. Over the course of the development of the frogs, students would learn about the changes in development of the frogs due to the different environment. They would be given talks about what changes occur between the terrestrial frogs, and the frogs in space, as well as what causes these changes.”
University: The University of Western Ontario
Team Members: Benjamin Wolfman, JP Schnabel, Finn Hafting, Mohamed Toman, Amelia Colborne, Millpreet Kamboj, Rishab Bhatt, Oladayo Ogunjimi, Artem Alimenkov, Eustace Imafidon, Fland Pan, Zuzanna Jaglarz, Kunj Patel, Kevin Jing, Brandon Yip, Mahir Rahman, Jacqueline Chen, Melissa Jiang, Tiffany Chu
Faculty Advisor: Dr. Gordon Osinski
The goal of the Western UBT high-altitude experiment was to measure the effects of ionizing radiation on organic compounds. Samples of Vitamins B1, B12, and C, under different treatments, would have been sent to the stratosphere along with several sensors. Lab tests could then be conducted to measure structural and chemical changes in the samples.
University: McMaster University
Team Members: Paula Bosca, Jonathan Densil, Julian Morrone, Michael Chen, Nicholas Vrzovski, Dianna Dumitrescu, Devan Wagner, Aaron Pitcher, Travis Ratnaharan, Joshua Budisa, Kasra Abbasi, Sobia Nadeem, Andrew Masala, Yih-Chyuan Hsiao, Christos Liaconis
Faculty Advisor: Dr. Andrei Hanu
On Earth, our atmosphere shields us from the harmful radiation of space. However, as we send astronauts further and further into space, and for longer periods of time, they are being exposed to large amounts of radiation. These high amounts of radiation can severely increase the chances of developing cancer and other harmful diseases. The NEUtron DOSimeter Experiment (NEUDOSE) is designed to be able to detect and measure radiation, specifically being able to distinguish between charged and neutral radiation. This differentiation is important as charged and neutral particles interact with human tissue differently. Knowing more about the extent of each type of radiation can help us better protect humans as we explore the cosmos!
For updates from the NEUDOSE team check here!
Annie Martin works at the Canadian Space Agency with the Operational Space Medicine group. She is the portfolio manager for the Health Beyond initiative, which aims at exploring and advancing innovation for the delivery of healthcare for deep space missions, with benefits to terrestrial communities. She is involved in strategic and management activities such as engagement with the innovation ecosystem and remote health stakeholders, collaboration with international and national partners, technology development, demonstration and approaches to medical care of astronauts on future missions to the Moon, Mars and beyond. In the recent years, Annie also worked with the CSA Innovation Planning group and the CSA Policy group, providing her with a wide perspective on the space industry and the space innovation continuum. Annie holds a PhD in Industrial Engineering from Polytechnique Montreal; her thesis was on innovation and collaboration in the Canadian space sector.
Mr. Merali is CEO of Escape Velocity Services Inc., a project management and technical consultancy supporting growth of small and medium enterprises. He is also Chief Operating Officer of 4pi Lab Inc., a Calgary-based space start-up providing unique early wildfire detection and monitoring capabilities using low-cost satellites for smart, real-time, global coverage. Mr. Merali is the Founder of Zenith Canada, a non-profit organization establishing a national aerospace career development and mentorship program for post-secondary and early-career professionals. Additionally, he is also a member of the International Astronautical Federation‘s Workforce Development-Young Professionals Programme Committee (WD/YPP). In 2018, he was awarded globally as a Top 35 Under 35 of the space industry. He holds a B.A.Sc. in Mechanical Engineering (University of Toronto) & M.Sc. in Space Management (International Space University). Mr. Merali is a Project Management Professional (PMP) & a licensed Professional Engineer (P.Eng).
Iain was the CEO of a successful space start-up company, Neptec Design Group. Iain worked for Neptec for 22 years, spending the last 7 as president and CEO. Iain also worked as the Executive Vice President of a national trade association representing the Aerospace industry in Canada for six years with responsibility for the policy shop and for business operations.
Iain has long experience in the space business having worked in mission planning, and operations, R&D, business development and both project and company management. During his time at Neptec the company successfully brought six different sensor systems from the lab bench to working on orbit on the space shuttle and International Space Station.
He also has a long experience of working with government procurement and support programs. In addition to running his own consulting company, he currently teaches in the Telfer School of Management in the Complex Project Leadership program, is a mentor in the space stream of the Creative Destruction Lab and is the host of podcast called Terranauts about people who “work in space… without ever leaving the planet”.
Cédric Seynat is RHEA Group’s Corporate Strategy Officer, helping to steer the company’s strategic trajectory and bridge the gap between technology and business management. Cédric joined RHEA Group in 2016. Over the last 20 years, Cédric has lived and worked on three continents and gained all-round experience in science, engineering, programme management, business development, corporate operations and business strategy. He has held positions in the public, commercial and academic sectors, in organizations ranging from start-ups to large multinational institutions. Cédric holds a Master’s degree in space engineering and a PhD in remote sensing from Cranfield University, UK, and an engineering degree from Ecole Centrale de Lille, France.
Mr. Martin retired from NASA after 32 years supporting space science missions, advanced technology development, technology transfer, and human spaceflight. He was seconded by NASA to ISU as the Space Studies Program (SSP) Director for SSP06, SSP07, SSP12, and SSP13. In addition, he has been elected multiple times to the ISU Academic Council and continues to lecture and chair Team Projects for different ISU programs. In 2017, Mr. Martin became a Senior Advisor to the Luxembourg Ministry of the Economy, where he contributed to the establishment of the Luxembourg Space Agency. In 2020, Gary was appointed the role of VP North American Operations at ISU. Mr. Martin holds a Master’s in Mechanical Engineering/Astronautical Engineering from George Washington University, dual bachelor’s degrees in Physics and Applied Mathematics from Virginia Commonwealth University and bachelor’s in Anthropology from Colorado State University.
Lucy Stojak holds an undergraduate degree in law from the Université de Montréal, and a Masters and Doctorate degree in law from the Institute of Air and Space Law, McGill University. She has over 25 years of experience in the development and management of international, interdisciplinary, and intercultural educational programs. She served as the first Director of the Space Studies Program (SSP), a 9-week professional development program in the aerospace field, offered by the International Space University (ISU). She is a lawyer specialized in space law. Her fields of interest include security and space, the commercialization of space, and intercultural negotiation and team building.
She has been a member of the Canadian delegation to international organizations such as the United Nations, the EU, the OECD, the Conference on Disarmament and the European Space Agency (ESA). She is a Faculty member of the ISU and a current elected member of the ISU’s Academic Council. She is a member of the SEDS-Canada Board of Directors. She is a member of the New Space Associate Editorial Board (AEB). She is the Chair of the Canadian Space Advisory Board (SAB). In 2008, she joined HEC Montréal, the oldest business school in Canada. She is Executive-Director of Mosaic, a multidisciplinary platform for research and training in the management of creativity and innovation. Mosaic carries out academic research, action-research with local and international businesses and organizations, workshops, seminars, events, training and development programs, and a yearly Summer School on Management of Creativity and Innovation. This intensive 2-week program is designed to compare creative practices & methods from diverse fields ranging from industry and art to science, to foster innovation within organisations.
Matthew has worked with the Creative Destruction Lab’s Space Stream for the last two years. In this role, he has helped over 50 of the world’s most promising space startups. Prior to joining CDL he worked at an early-stage deep learning computer chip company and provided consulting services for startups.
Previously he managed the implementation of a robotic milking system on his family’s dairy farm in Prince Edward Island. He holds a JD/MBA from the University of Toronto Faculty of Law and the Rotman School of Management.
Daniel Schulten is MDA’s LaunchPad director based in Ottawa, ON. LaunchPad is MDA’s new initiative to accelerate and grow partnerships with innovative SMBs and Academia in Canada. Companies and academia that interested in collaborating with MDA are encouraged to contact the LaunchPad team.
Prior to LaunchPad Daniel has been responsible for business development of several space programs both at MDA and Space Systems Loral (SSL) in the US.
Before joining MDA in 2001, Daniel worked on the European Robotic Arm (ERA) Program for Fokker Space in the Netherlands. In 1998, Daniel attended the International Space University Summer Session in Cleveland, Ohio and has a Masters Degree in Mechanical Engineering of the University of Twente in the Netherlands.
Ryan Anderson is the current president and CEO of Satellite Canada Innovation Network, a member-based, non-for-profit organization dedicated to driving the global competitiveness of the Canadian space industry by facilitating the growth of new and existing space technology and applications companies, the development of revolutionary products, and the promotion of disruptive services with the speed and success of industry.
Previously, he was the director of satellite systems at QShifts Inc., and a Mission and Systems Specialist at Mission Control Space Services. He was the co-lead in bringing NASA’s SpaceApps Challenge to the city of Ottawa and co-chaired the 2017 Canadian Space Summit. Ryan’s extensive professional and public engagement experience gives him a unique perspective we are happy to have at SEDS-Canada.
Specialties: Spacecraft Mission Planning and Design Satellite Operations Dynamic Satellite Simulators Spacecraft Operations Automation Telecommunications Spacecraft Systems Engineering Satellite Ground Control Systems Engineering.
https://www.apastronspace.com/
Founder: Adam Paul
Apastron technologies will change the way spacecraft communicate by introducing a simple and reliable communications platform that provides 24/7 satellite connectivity with low infrastructure costs. Historically, satellites communicate with the ground using a link between one satellite and a ground station, meaning that communication can only be established for a few minutes per day. Apastron’s radios will network with each other, allowing for satellites around the world to talk with each other and relay data to a small number of ground stations, ensuring that a satellite anywhere in the world has constant communication. Furthermore, since Apastron radios rely on fewer ground stations and no dedicated satellites, constant communication can be accomplished for much cheaper than current solutions. As the nanosatellite industry continues to grow and missions become more ambitious, a better communications solution is needed, and Apastron aims to provide that.
https://www.obruta.com/
Founders: Kevin Stadnyk, Kirk Hovell
Orbital debris poses an increasing risk to operational satellites as more objects are launched into space each year. The slow decay of currently orbiting objects compared to the rate at which new ones are being launched means that the active removal of high-collision risk debris will be essential to maintaining a safe and operational future Lower Earth Orbit (LEO). Our company looks to capitalize on this emerging market through removing high-risk LEO debris either on the behalf of governments or private entities who are not capable of deorbiting their spacecraft at the end of its mission life.
Founders: Amine Doulfikar, Ian Cabales
Elementary, middle and high school students are losing interest in STEM and most notably space sciences as they progress through their education. This leads to students graduating from high school with no particular interest in pursuing careers in the space industry. This will no doubt hurt the space industry in the many years to come. Our products and services will add hands-on exciting and rewarding space sciences/engineering projects to students education. These projects will reignite the passion many students have for space and increase the number of students wishing to target the space industry when pursuing their careers. This will also have the positive effect of leading more students into STEM fields.
Kate Howells is a science communicator, space policy advisor, and non-profit management consultant based in Guelph, ON. Kate’s day job is with The Planetary Society, a U.S.-based non-profit that works with the public to advance space science and exploration. She is also the author of Space Is Cool As F*** and serves on the board of directors of Royal City Science in Guelph.
Dr. Parshati Patel is an Astrophysicist turned Science Communicator, and STEM Education Researcher based in London, Ontario, Canada. She is an Educational Outreach and Communications Specialist at Western University’s Institute for Earth and Space Exploration. She is currently on leave from the Institute and on secondment to the Canadian Space Agency. Parshati is an Adjunct Research Professor in the Faculty of Education at Western University. Parshati has a Ph.D. in Astronomy and Planetary Science & Exploration from Western University. Parshati has been communicating her passion for space science and technology with students and the public for 9+ years through various outreach initiatives. Parshati is passionate about Equity, Diversity and Inclusion as well as uplifting women in STEM.
I am a postdoctoral research fellow at the University of Alberta advancing curation methods for planetary materials by investigating best practices in preserving samples returned from future space missions through simulations of returned sample curation and analysis. My Ph.D. dissertation focused on stable isotope ratios of oxygen and silicon isotopes in lunar material. I love all things planetary science, especially the Moon.
Sohrab is the visionary leader of SpaceRyde. He has a PhD in Aerospace Engineering from University of Toronto, and was one of the first engineers developing Cruise Automation’s autonomous driving technology in San Francisco. Before Cruise, Sohrab was developing cutting edge technologies at Safran Landing Systems, Mitsubishi Electric Research Lab, and Cymer. In 2017, Sohrab left his job leading Controls and Planning teams at Cruise to move back to Canada and start the space launch industry in his home country. Sohrab has been an innovator for over 10 years, and published 12 patents before SpaceRyde. His entrepreneurial journey started in his youth when he developed a digital calendar in 1996 before Google existed. His first profitable business was running a tea stand at the university during his undergraduate studies where he served beverages and snacks on his breaks between classes. Sohrab is living his dream everyday, opening access to space, and bringing Canada to the forefront of the space launch industry.
Ryan is the founder and President of Satellite Canada Innovation Network, a not-for-profit industry association dedicated to driving the competitiveness of the Canadian space industry. Satcan provides strategic consulting services to small and medium enterprises and recently brought together an advanced Optical Satcom Consortium (OSC), in collaboration with the National Research Council.
A professional engineer with over 13 years’ experience, Ryan has worked on dozens of satellite programs spanning design, development, procurement and operations. Most notably, as lead of Telesat’s innovation program, Ryan was instrumental in the early development of Telesat’s LEO constellation. Other highlights include work on COSPAS-SARSAT, PCW, Anik F2, Anik G1, Nimiq 6, NEOSSat, and Urthecast’s OptiSAR constellation.
An active member of space and engineering communities, Ryan is also President of the Canadian Space Society, a national association of space professionals, students and enthusiasts. He has led the CSS to a contribution from Global Affairs Canada to support a Canada Pavilion at the International Astronautical Congress and in successful Canadian Space Summits in 2013, 2017, 2018.
Ryan serves on the Board of Advisors for the Students for Exploration and Development of Space. In the past, he has volunteered for the National Research Council’s Marsville and Engineering Challenge programs to encourage Canadian students to pursue careers in science and engineering and served as Lead Engineer on the 31st Crew at the Mars Desert Research Station.
I am a postdoctoral research fellow at the University of Alberta advancing curation methods for planetary materials by investigating best practices in preserving samples returned from future space missions through simulations of returned sample curation and analysis. My Ph.D. dissertation focused on stable isotope ratios of oxygen and silicon isotopes in lunar material. I love all things planetary science, especially the Moon.
Vinita Marwaha Madill is a space engineer and Founder of Rocket Women. Vinita is currently a Project Manager and Business Development Lead at Mission Control Space Services in Canada, focused on lunar exploration missions and leading space health initiatives. Previously, Vinita has been based at the European Space Agency (ESA) (as a contractor via TERMA B.V.) focused on human spaceflight operations for future projects, including the European Robotic Arm to be launched to the International Space Station (ISS). Vinita has worked at the German Aerospace Centre (DLR) and ESA on International Space Station (ISS) operations and spacesuit design. At ESA’s European Astronaut Centre, Vinita helped design the SkinSuit and conducted a study on future spacesuit design for lunar exploration.
At the German Aerospace Centre, she guided astronauts through experiments and wrote astronaut procedures in Germany’s version of Mission Control. Vinita studied Mathematics and Physics with Astrophysics at King’s College London and went on to gain master’s degrees in Space Management from the International Space University (ISU) and in Astronautics and Space Engineering from Cranfield University, UK.
Vinita is an advocate for STEM outreach, founding the platform Rocket Women (www.rocket-women.com) that aims to inspire women to study STEM and consider a career in the space industry. Rocket Women has been featured in media including BBC, Stylist Magazine, She The People, Fast Company and The Telegraph. Based in Canada, Vinita led an Intelligent Transportation Systems team as an Engineering Manager and took part in a focused round table discussion with Canadian Prime Minister Justin Trudeau, highlighting the importance of education. She was mentioned in ELLE magazine’s feature on ’12 Genius Young Women Shaping The Future’.
University: University of Calgary
Team Members: Alina Kunitskaya, Harry Wilton-Clark, Amy Chen, Kaitlin Schaaf, Jacob Grainger, Maliyat Noor, Preetha Gopalakrishnan, Mariya Shtil, Helen Wang, Lalit Bharadwaj, Jamie Roeske, Thomas Bichel, Nithya Gopalakrishnan
Faculty Advisor: Dr. Mayi Arcellana-Panlilio
As part of the International Genetically Engineered Machine (iGEM) competition, the Astroplastic Calgary team developed a process to facilitate both waste management and manufacturing of goods on Mars. This process uses genetically engineered bacteria to convert human waste to bioplastic which can be used to 3D print tools. Since waste management will also be an issue on the way to Mars, the team’s goal was to adapt the system for microgravity environment. In particular, the team’s experiment tested the feasibility of using air bubbles to separate plastic particles from liquid in microgravity.
How did the experiment go?
The experiment tested two air bubble sizes and two air flow rates to separate plastic particles from liquid. None of the tested conditions resulted in separation of plastic particles from liquid. This may indicate that the proposed method is not feasible for plastic separation in microgravity or that further optimization to the air bubble size and flow rate is required.
University: Queen’s University
Team Members: Aaron Rosenstein, Elisha Krauss, Matthew Bentley, Adam Tepperman, Janis Cheng, Simon Spichak, Stefan Sokic, Brenton Kuka, Izabelle Siqueira, Amanda Manget, Daniel Borisov, Matthew Duke, Min Baek, Alessandro Lanius-Pascuzzi, Viraj Bangari
Faculty Advisor: Dr. Virginia Walker
The space environment, unshielded by the earth’s magnetosphere, is abundant with ionizing radiation. Such conditions pose a challenge for DNA replication and repair machinery to effectively maintain genome integrity free of radiation-induced DNA lesions, which is an essential process required for long-term viability in space. The activity and functionality of the enzymes responsible for DNA replication and repair, known as DNA polymerases, have yet to be thoroughly investigated under conditions of microgravity. This experiment aimed to characterize a possible differential in the error rate (fidelity) and replication rate of these enzymes under conditions of microgravity in comparison to a 1G environment. This research group has developed an experimental payload to autonomously conduct polymerization experiments during flight. Post-flight, the team characterized any differential in DNA error rate and replication rate using a sequencing platform.
Where are they now?
The team has presented the results at several conferences, including the International Astronautical Congress 2019, and submitted a publication (under review).
University: Queen’s University
Team Members: Becca Bonham-Carter, Louis Burelle, Josh Galler, Katelyn Morrison, Ben Simons, Kate Lahaie
Faculty Advisor: Dr. David E. Rival
The Queen’s Vorticity Innovation Project (QVIP) addressed the fundamentals of vortex formation and dynamics in unsteady fluid flows, which are currently poorly understood in microgravity. The team’s Observation of Ring Vortex Evolution in Liquids (ORVEL) project extended the study of vortices in two-phase flows to microgravity. The experiment generated a vortex ring of ferrofluid through a tank of water. The ferrofluid was injected into the water using a piston cylinder assembly, and the vortex ring that developed was observed. The images of the developing vortex ring were processed and analyzed using image correlation and post-processing techniques. Furthermore, growth and separation of the shear layer was determined using the camera’s frame-by-frame images. Vortex ring formation in two-phase flows can be related to flood flow in the human heart. Having a better understanding of blood flow in microgravity could help explain the negative effects on the cardiovascular system of astronauts.
University: University of Toronto
Team Members: Mohamed Khalil, Twesh Upadhyaya, Hanzhen Lin, Jacob Weber, Tyler Gamvrelis, Ben Lappalainen, Wei Hu
Faculty Advisor: Prof. Philippe Lavoie
Fluids Affected by Magnetism (FAM)’s primary goal was to investigate the effectiveness of heat transfer mechanisms of a paramagnetic fluid (PM) in microgravity. The PM was manipulated using varying external magnetic fields which were modulated by altering the current supplied to the coils. On Earth, convection occurs in a fluid cell due to gravity acting on density gradients. In a microgravity environment, however, density gradients are absent. The magnetic field can be used to excite certain motion patterns in the parafluid that are akin to artificial convection. These phenomena have important implications for heat and mass transfer on spacecraft, however, they remain poorly understood. Therefore, this experiment aimed to provide a better understanding of microgravity heat and mass transport properties which could potentially improve spacecraft efficiency, sustainability, and the lifespan of its hardware.
University: University of Saskatchewan, University of Saskatchewan Space Design Team (USST)
Team Members: Carson Daly, David Forseille, J. Matthew Gjevre, Liam Gray, Jordan Himmelsbach, Skylar Koroluk, Adam Lozinsky, Aaron Peters, Austin Shirley, Seamus Woodward-George
Faculty Advisor: Dr. Glenn Hussey
The University of Saskatchewan Space Design Team (USST) is a multidisciplinary student group focused on planetary exploration and the democratization of space technology. Those members of the USST who make up the STARFOX project’s team conceptualized the project with the objective of establishing mineral processing methods suitable for microgravity environments. The team’s working hypothesis was that existing terrestrial mineral screening and separation methods may be modified to apply in microgravity. For this purpose, an axially rotating apparatus was designed to generate centrifugal force for mineral screening. A rotating cylinder was used to force mineral particles through two screens, into the screens’ respective collection bins. The apparatus was flight-tested to both optimize its design and better understand the dynamics of screening in a microgravity environment.
University: University of Alberta
Team Members: Md Farhad Ismail, Nigel Rodrigues, Megnath Ramesh, Muhammed Khan, Ali-Reza Salehi, Aleksey Baldygin
Faculty Advisor: Prashant R. Waghmare
The recent upsurge in additive manufacturing and 3-D printing has become an alternative solution for numerous in-space challenges. However, little is understood about the behaviour in micro-gravity of the materials involved. Therefore, it is imperative to understand and investigate the processes underlying the 3-D printing process in micro-gravity conditions such as curing or crystallization. In this project, iSSELab observed the process similar to curing through a freezing mechanism and, based on the morphological changes in the frozen drop shape comments could be made on the alterations in the crystallization process due to the reduced gravity environment.
University: University of Toronto
Team Members: Andrew Ilersich, Michael Lawee, Caulan Rupke, Neell Young
Faculty Advisor: Dr. Philippe Lavoie
The objective of Team AVAIL was to investigate the coiling properties of various liquids under a microgravity environment. The coiling of liquids is a result of the coupling of the intermolecular forces within a liquid, namely the inertia, viscosity and surface tension which act to maintain the shape of a liquid column; and the external forces such as gravity which act to stretch the column like a rope. This experiment aimed to show the effect of a reduced gravity environment on the tendency and behaviour of coiling liquids. The team expected this experiment to demonstrate the effect of a microgravity environment on the rope coiling of liquids; in particular, they expected liquids to sustain a longer column before buckling and a reduced coiling frequency.
How did the experiment go?
The experiment showed that it is possible for liquid rope coiling to occur in microgravity environment. The team collected video data to examine the coiling frequency and buckling height and made observations about the relationship between fluid height and coiling frequency in microgravity.
University: Carleton University
Team Members: Max Polzin, Keyanna Coghlan, Ted Gan, Richard Vicente, Michael Aziz
Faculty Advisor: Prof. Mostafa El-Sayed
Their experiment aimed to collect data about the effectiveness of different dust collection methods in low-gravity environments. The objective came from previous research and evidence that showed the negative effects of dust in space on both equipment and personnel. The COSM team would drill into lunar and Martian regolith simulant with a hammer drill encased inside an aluminum support frame. This would release large quantities of dust, at which point two different collection mechanisms will be implemented. The data collected aimed to be helpful in determining the effectiveness of different systems of dust mitigation, and analyses of this data could be central to designing equipment for future space research that effectively deals with harmful dust contamination.
University: Queen’s University
Team Members: Fernando Camacho Cadena, Patrick Chin, Jack Guebert, Chelsea Wallace, Peter Wright
Faculty Advisor: Dr. Bahman Gharesifard
Exercising control over the movement of fluids in microgravity is an important research problem facing the Canadian space industry. The problem of fluid control is appearing more and more frequently in many practical applications such as pumps, heat transfer systems, and propulsion systems for small spacecraft. Terrestrial fluid control devices are designed to move liquids under the dominant gravitational forces, however in the absence of gravity there are more efficient and long lasting options. QDMT tested a novel device which controls the deformation of a fluid droplet suspended in microgravity by selectively applying a strong non-uniform electric field. Fluid control devices using this technology promise higher efficiency, lower weights, and longer service times for extended travel of small spacecraft.
How did the experiment go?
Deformation of a fluid droplet was observed under varying electric fields. However, the amount of deformation was not as much as expected.
University: University of Waterloo
Team Members: Adam Paul, Riley Holierhoek, Hussein Saafan, Justin Robinson, Aidan Ha, Kyle Tam, Ryan Tan, Jacob Deery, Doris Jiang
Faculty Advisor:
The MAgnetic Pump Loop Experiment (MAPLE) aimed to demonstrate an efficient method for fluid transfer in space. MAPLE used out-of-phase solenoid currents to generate a magnetic field to pump a ferrofluid through a plumbing loop. The investigation aimed at describing the effects of reduced gravity on the pump to ensure that it is suitable for spacecraft applications, as well as measuring potential efficiency gains in reduced gravity.
Where are they now?
The team has further worked on this project for the Spaceport America Cup/SDL Payload Challenge.
University: McMaster University
Team Members: Jonathon Casella, Jarod Coppens, Gregory Lech, Elizabeth Sharpley, Michael Stramenga, Adam Tweedle, Gabriella Wynn
Faculty Advisor: Dr. Mohamed Hamed
On orbit satellite refueling is an emerging technology in the space industry that will provide major reliability and cost benefits to the sector once implemented – but refueling has its own challenges! As fuel enters the empty vessel, it will undergo sloshing, a common phenomenon where fluid moves irregularly in a microgravity environment. Sloshing results in dynamic forces that could affect the stability of the two rendezvousing satellites, introducing dangerous vibrations. MERGE’s experiment studied the effects of sloshing during satellite refueling and techniques to mitigate the effects. Specifically, MERGE examined the effectiveness of using slat-screens (commonly used in fluid dampers of ships and buildings) to minimize the sloshing of fluid being pumped into an empty tank in microgravity.
Where are they now?
The team has continued working on the project and has another flight aboard Falcon 20 scheduled in 2021.
Taryn Tomlinson has spent her career committed to exploring and discovering space, from roles in academics to industry and now in government. Taryn co-founded a high-tech space startup in 2003, and subsequently sold it in 2008, after which she joined the Canadian Space Agency (CSA) to work on the robot “Dextre” for the International Space Station. She has been an engineer and project manager at the CSA for 10 years, as well as serving as the Chief of Staff to the President. Taryn gravitates to discussions on innovation, on leadership, and the contribution of the diverse players in the space sector ecosystem. Taryn holds a Bachelor’s Degree in Electrical Engineering from McGill University and a Master’s Degree in Space Science from the University of California, San Diego.
Dr. Hilding Neilson is a CLTA assistant professor in astronomy at the University of Toronto where he studies stellar physics and exoplanets while working to integrate Indigenous knowledges and methodologies into the academic study of astrophysics. He is Mi’kmaw and a member of the Qalipu First Nation of Newfoundland.
Jennifer Elliott is VP Business Development and co-founder of QEYnet. QEYnet is a startup working on Quantum Key Distribution using satellites. Jennifer’s background is in aerospace engineering, specializing in the development of micro and nano satellites. During her time working at the UTIAS Space Flight Laboratory, she contributed to the development of five cutting-edge satellite missions that are currently in orbit. At QEYnet, Jennifer’s focus is on sales and business development.
Dr. Gordon Osinski is currently a Professor in the Department of Earth Sciences and the NSERC/MDA/CSA/CEMI Industrial Research Chair in Earth and Space Exploration at the University of Western Ontario. He is a world-renowned expert in planetary exploration and the winner of multiple research awards.
His research interests include, but are not limited to:
Professor Alex Ellery is a Canada research professor who is involved in a number of far-sighted, futuristic research projects. Among his various research interests, he focuses on cyber-security and building self-replicating robots to colonize the moon. His work on cyber-security is focused on building autonomous space systems. These systems would be more secure than current systems because they will not require an operator to upload instructions to them – these instructions potentially being vectors for logic bombs and viruses. Dr. Ellery received his phD in aerospace engineering from the University of Cranfield, UK. He is also the author of two textbooks: “An Introduction to Space Robotics” (2000) and “Planetary Rovers” (2016). Currently, he is writing a popular science book “Manna from Heaven” about how to save the world through space exploration.
Dr. Gwendolyn Eadie is an Assistant Professor of Astrostatistics at the University of Toronto (U of T), jointly appointed between the David A. Dunlap Department of Astronomy & Astrophysics and the Department of Statistical Sciences. Prof. Eadie’s research bridges astronomy and statistics, including estimating the masses of astronomical systems using hierarchical Bayesian inference and studying fast radio bursts using time series analysis. At the U of T, Prof. Eadie is building Canada’s first Astrostatistics Research Team (ART) consisting of people in both astronomy and statistics. She recently won the 2020 Connaught New Researcher Award at U of T, and her 2017 PhD Thesis won the Plaskett Medal from the Canadian Astronomical Society and Royal Astronomical Society of Canada.
Dr. Shawna Pandya is a physician-scientist and astronaut candidate with Project PoSSUM, an aquanaut, public speaker, martial artist, diver, skydiver, pilot-in-training, VP Immersive Medicine with Luxsonic Technologies, and Fellow of the Explorers’ Club. She is Director of the International Institute of Astronautical Sciences (IIAS)/PoSSUM Space Medicine Group, Chief Instructor of the IIAS Operational Space Medicine course, a clinical lecturer at the University of Alberta, Primary Investigator for the Shad-Blue Origin student payload competition, Chair of Strategic Directives for the PoSSUM13, session organizer for ASCEND 2020, Life Sciences Team Lead for the Association of Spaceflight Professionals, and medical advisor to several space companies, including Orbital Assembly Construction and Mission: Space Food. Her publications include book chapters on space spin-offs for medical benefit, psychological resilience in long-duration spaceflight, and reproduction and sexuality in long-duration spaceflight. She previously interned at ESA’s European Astronaut Center and NASA’s Johnson Space Center. Dr. Pandya earned her aquanaut designation during the 2019 NEPTUNE (Nautical Experiments in Physiology, Technology, and Underwater Exploration) mission. She previously served as Commander during a 2020 tour at the Mars Desert Research Station.
Andrea is the CEO and founder of Luna Design and Innovation, a Toronto-based startup that helps biotech and pharmaceutical companies plan missions to space. Luna’s goal is to advance health for humanity so people can lead full, healthy, and purposeful lives in space and on Earth. Luna is a channel partner for Blue Origin’s New Shepard suborbital reusable vehicle, focusing on global biotech/pharma and Canadian payload opportunities. Andrea is a biologist, design strategist, and public health practitioner with an extensive career designing human-centered products and services in the healthcare sector.
Jean-Francois Gauthier is a mechanical engineer and lifelong space geek with over 15 years of experience in the commercial space industry in various capacities at COM DEV including design and test, project management and sales and marketing. He holds a Bachelor of Engineering from Dalhousie University and an MBA from Wilfrid Laurier University. He is also a graduate of the International Space University’s Summer Session Program (2006). In October 2016, he joined GHGSat to help commercialize the products and services from their breakthrough satellite around the world. He now leads the growing Sales and Marketing team for the company.