ACCESS Academy’s inaugural AI Summer Camp builds critical technology skills—and miniature robots

In the kitchenette on the third floor of Fuse at Mason Square, 43 students huddle around laptops and inspect the codes on display in their Microsoft MakeCode programs. By their sides are little micro:bit three-wheeled robots. One sings a little 8-bit tune. Another flashes a pattern of colored lights. Another chirps like a bird, as the students at the table share a perplexed look.

These high school students have spent the past week working on their robots, from assembly to coding, to make them do basic tasks like follow a provided track. Now, they’re each trying to do something new: make it go faster, sing a song, drive in reverse, or flash its lights like a turn signal. With every spin-out, slow-motion crash, or odd sound, the students return to their laptops to reprogram the bot and try again. If one student is struggling, they turn to their peers. Together, they’re making the robots work.

This is the inaugural ACCESS Academy Artificial Intelligence Summer Camp. Open to all 9th—12th graders across Virginia, the camp runs three one-week sessions at the ACCESS Academy headquarters in Fuse at Mason Square. Through hands-on exploration of artificial intelligence (AI) and robotics, students can imagine and begin preparing for technology-sector careers. Only in its first year, the camp already has 130 total participants over the course of three sessions.

"The goal of ACCESS Academy is to create a more inclusive pathway to college and high-demand careers for students who may not have previously seen those opportunities as within reach,” said Dean Ingrid Guerra-López of George Mason University’s College of Education and Human Development (CEHD).

“We continue to hear from industries that we are not preparing our high school graduates to be employable,” said Roberto Pamas, professor of education leadership and director of the ACCESS Academy. Prior to his transition to teaching higher education, Pamas served 30 years in Fairfax County Public Schools as both an educator and an administrator. “They want both technology skills and soft skills. How to collaborate, how to communicate: we’re building those skills in these programs. And CEHD is in the business of teaching, learning, and leading.”

AI was a natural choice for the camp’s curriculum. Working with faculty from the College of Engineering and Computing, the CEHD ACCESS Academy team developed a five-day program to build foundational skills to set students up for success.

The first four days of the camp focus on conceptual understanding and real-world applications of those ideas. On Friday, guest speakers from local education innovation technology company Kovexa engaged with students as part of a tinkering lab.  

“AI represents a cutting-edge field and a dynamic problem space where students can practice essential skills such as critical thinking, ethical reasoning, collaboration, and problem-solving,” said Guerra-López. “It’s not just about coding, but about asking better questions, evaluating outputs, and imaging new possibilities.”

The students agree.

“I really like the atmosphere of people coming together and doing the things that they love,” said Mariia Tkach, a rising sophomore at Marshall High School. Her father works in cybersecurity, and she hopes to follow in his footsteps. “We had an AI training, and it was very challenging. The process of figuring it out and competing with one another was fun.”

Arkash Reith, who is entering his sophomore year at Evergreen Christian School, said, “This camp gave me experience in what AI can help you do as well as what it can’t help you do. Like, with coding, it can help with basic stuff, but nothing too hard.”

After each day, students write down one word to describe their experience. From this first week, the white board is filled with words like “fun,” “inspiring,” and “fascinating.”

Guerra-López envisions the bootcamp not only as a hands-on learning experience for students, but as a launchpad for expanding access to AI education across the region.

“The tinkering lab model in particular is a powerful way to reduce anxiety around emerging technologies, increase skill and self-efficacy for both students and educators, and foster a stronger sense of community around innovation,” she said.

Plans are underway to explore how this model can scale—both to offer more advanced learning tracks for students and to engage educators in professional development that supports responsible, inclusive digital innovation.

“George Mason is a keeper of knowledge for Northern Virginia,” Pamas said. “And I believe it is our moral imperative to share that knowledge, particularly with students who otherwise might not have access to higher education.”