(Edmonton) A team of University of Alberta students who are designing and building the first made-in-Alberta satellite are preparing to meet their colleagues in a global partnership to launch 50 cube satellites next year.
Members of the AlbertaSat student project team are jetting to an international conference in Liege, Belgium, this week.
The U of A students are part of QB50, a European Commission project to launch 50 cube satellites built by university students from 28 countries. Cube satellites are small satellites that are launched in "swarms," making launch costs affordable. The student-made satellites will orbit Earth for up to nine months, collecting information about the thermosphere. The U of A satellite, Ex-Alta 1, will also gather information about the planet's magnetic field.
In Liege, the team will meet with QB50 organizers to get details about next year's planned launch, exchange ideas with other QB50 participants, and gather state-of-the-art information about space exploration and satellite technology from researchers and industry reps.
"One of the things we're going to get from this is a re-energized team," says team leader Charles Nokes, who is in his final year of undergraduate engineering physics. "It will be good to have face-to-face meetings with the QB50 organizers, and once we get some firm dates from them, it will allow us to make solid plans for the next year."
Meeting with the different university teams building satellites will be educational, adds team member Taylor Robertson, a U of A physics graduate who is working on his master's degree in electrical engineering. "We all face similar challenges in designing and building our satellites, but each university group will approach it from a different angle," he says. "It's going to be interesting to find out how other teams have overcome the same challenges in different ways."
The U of A team will deliver four podium presentations at the conference, including one on their thermal modelling simulator and the development of an algorithm that keeps battery charges stable over time--as opposed to having batteries run down and shut off while they recharge. In one of the team's three poster presentations, Robertson will explain the testing and verification processes for Ex-Alta 1's attitude determination and control-a vital aspect of the design.
Follow the team's experiences at this prestigious conference on their team blog.