
Nomagic, renowned for innovating in the field of robotic manipulation, has taken bold steps to fuse academic excellence with industrial application through its Nomagic University Lab initiative. By collaborating with PhD students, Master’s candidates and faculty from top Polish universities, the company has quietly been laying the groundwork for the next generation of intelligent robotic systems.
Staying ahead in robotics doesn’t just mean building better robots, it means anticipating where the technology is going and preparing for it. Academic research allows for this foresight. Even if breakthroughs aren’t immediately deployable, their early development can pave the way for rapid integration down the line. Nomagic understands that today’s research is tomorrow’s production standard.
The lab was established with a clear mission: to stay at the forefront of robot learning, particularly in areas like vision language models and manipulation in dynamic environments. Even when certain innovations aren’t yet deployable, Nomagic sees the value in laying the groundwork early, aiming for a production ready state within one to two years.
The Nomagic University Lab is not limited to a specific product or use case. Instead, it explores a broad spectrum of robotic manipulation capabilities with several areas of concentrated research:
Transition to Dual-Arm Setup – The lab is preparing to integrate a dual-arm setup. This upgrade will allow researchers to explore more complex interactions and coordination challenges, setting the stage for next-level automation capabilities.
Addressing Environmental Changes – Adaptability is key. Whether it’s a cluttered workspace or sudden shifts in object positioning, the lab aims to make robots smarter and more responsive to such variables.
Working with Deformable Objects – Unlike rigid materials, deformables like fabric or plastic bags are unpredictable. The lab’s work in this area focuses on giving robots the sensory and reasoning skills to manipulate them effectively.
Defining Tasks Through Text or Vision – A major research push is in visuo textural instruction interpretation. Imagine telling a robot to “fold the shirt on the left” and having it understand and execute the command seamlessly. That’s where the lab is headed.
A dedicated team, led by Professor Marek Cygan, powers the Nomagic University Lab:
Mateusz is leading the charge in robot learning and Vision Language Action (VLA) models. His work is critical to enabling robots to interpret and act on complex instructions.
The lab currently engages 3–5 Master’s students who contribute through projects and hands-on experimentation. These students are also mentored by a faculty member from the University of Warsaw, bringing academic depth to practical robotics work.
With growing momentum, the lab is actively seeking a Postdoc to enrich its research capabilities. Academic supervision is expected to expand as more faculty engage with the initiative.
Nomagic isn’t just investing in research, it’s cultivating future talent.
Each year, 5–10 interns are brought on board, with some years seeing up to 15 new people join the Nomagic working teams. These internships offer hands on exposure to robotic systems, giving students practical experience while contributing to Nomagic’s mission.
Interns often participate in prototyping, software testing and even exploratory research. This reciprocal relationship benefits both parties: students gain valuable skills and Nomagic benefits from fresh ideas and additional brainpower.
The company also believes in nurturing early interest in AI and robotics. By sponsoring the Polish AI Olympiad for high school students and offering lab tours to participants, Nomagic aims to contribute to shaping Poland’s tech talent pipeline.
These lab tours give students a rare behind the scenes look at advanced robotics in action. It’s an inspiring experience that could shape their academic and professional choices for years to come.
Though the lab explores frontier research, the goal is always practical deployment. Whether it’s improving warehouse automation or developing intelligent assistants, the lab’s discoveries are steered toward real world applications.
Nomagic expects many of today’s research initiatives to be ready for production in 1–2 years. By starting early, they ensure that innovation doesn’t stop at the research stage but continues into tangible, scalable solutions.
The lab is a hub for collaboration between academia and industry. With faculty from the University of Warsaw already onboard and plans for further expansion, Nomagic is investing in a robust research ecosystem.
The lab’s success will be measured through:
The Nomagic University Lab is a shining example of how academic research, corporate innovation and educational outreach can come together to push the boundaries of what’s possible in robotics. Through visionary leadership, smart investment and community engagement, Nomagic is truly investing in the future today.
Q1: What is the main purpose of the Nomagic University Lab?
To pioneer research in robot learning and manipulation with a focus on real world applications.
Q2: What technologies is the lab focusing on?
Vision language action models, general manipulation, and robotic adaptability to dynamic environments.
Q3: How does the lab engage students?
Through internships, mentorship, and collaboration on active research projects.
Q4: What outreach efforts does Nomagic make?
Sponsoring the Polish AI Olympiad and offering lab tours to high school students.
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