About Us

Mana Robotics is a German Robotics company developing the world’s smallest, fully autonomous cooking robots, set to disrupt corporate catering and home cooking. We are based in Dresden, Germany and work hyper-focussed on applying breakthroughs in AI and robotics to food preparation.

Our vision is to enable “meal-on-demand streaming”, by providing compact devices that can autonomously prepare fresh & healthy meals from raw ingredients at no effort, anywhere, at any time — just like Netflix, but for nutritious meals.

Your Role at Mana

You will implement and adapt Machine Learning methods that enable our devices to perceive and interpret their surroundings and generate motion — enhancing reliability, autonomy, and the overall user experience.

If you're excited by high-impact engineering with real-world applications, this is your opportunity!

In this Role, you will

• Implement and optimize Robot Learning and Computer Vision methods for object detection, and motion generation in our cooking environment.
• Develop a cloud computing architecture for centralized robot coordination, perception, and planning.
• Test reliable system performance across edge and cloud components, including fallback strategies and monitoring tools.
• Stay up-to-date with research trends in cloud robotics, computer vision, and robot learning — and apply them pragmatically to our product.

You might thrive in this Role if you

• Have at least 3 years of hands-on experience in software development for machine learning or robotics applications.
• Enjoy a fast-paced, small-team environment, where you’ll have a high degree of ownership and autonomy.
• Are passionate about building intelligent systems, from cloud-based orchestration to perception pipelines and robot learning models.
• Embrace a growth mindset, continuously refining your skills while navigating the progressively expanding field of robotics
• Are excited about working on-site at our Dresden headquarters, where you’ll collaborate with a dynamic, interdisciplinary team dedicated to redefining the boundaries of what’s possible in ultra-compact robotics.