NEURA Robotics
Your mission & challenges
As an AI Robotics System Engineer, you will work within the central AI team to develop AI-based functions and applications for our entire robotics portfolio — ranging from the cognitive robot arm MAiRA, to the humanoid 4NE-1, and the service robot MiPA. Your scope of work covers all types of applications: customer projects, internal development projects, trade fair and demo setups, as well as exploratory prototypes.
Develop and integrate AI-based functions across the robotics portfolio (robot arms, humanoids, service robots).
Implement AI capabilities into end-to-end robotic systems, from design and prototyping to testing and validation on real hardware.
Integrate sensors, actuators, ROS-based software, and AI models into reliable, production-ready systems.
Collaborate closely with AI researchers to translate models and algorithms into practical robotic applications.
Work with project managers, software engineers, and business partners to define requirements and scalable implementation paths.
Support customer projects, demos, trade fairs, and exploratory prototypes.
Assist users in NeuraGym with application setup, data collection, skill training, and hardware testing.
Enable teams, partners, and customers to develop, validate, and independently operate AI-powered robotic systems.
Apply expertise in C++, ROS, robotics, kinematics, motion and grasp planning, including classical and learning-based approaches.
What we can look forward to
A degree in Robotics, Computer Science, or a related technical field
At least three years of hands‑on experience in developing robotic applications or robotic systems
Very strong programming skills in C++ and/or Python, especially in object‑oriented software development
Solid experience with ROS (Robot Operating System) and working with real robotic platforms
Ideally, several years of experience in machine learning for robotics, with strong expertise in at least one of the following areas:
Visual manipulation
Reinforcement / imitation learning
Multimodal models
Expertise in developing low‑latency and high-performance software modules
Knowledge of cloud environments (e.g. AWS, Azure, GCP) and robot simulation tools such as Isaac Sim or MuJoCo is a plus
Strong team spirit and the ability to work independently, in a structured and proactive manner within a dynamic, interdisciplinary environment
Strong analytical and organizational skills, enabling you to manage multiple projects efficiently in parallel
Clear and open communication skills, both internally and externally, allowing you to confidently bridge research, engineering, and users
Fluent English
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Develop and integrate AI-based functions across the robotics portfolio (robot arms, humanoids, service robots).
Implement AI capabilities into end-to-end robotic systems, from design and prototyping to testing and validation on real hardware.
Integrate sensors, actuators, ROS-based software, and AI models into reliable, production-ready systems.
Collaborate closely with AI researchers to translate models and algorithms into practical robotic applications.
Work with project managers, software engineers, and business partners to define requirements and scalable implementation paths.
Support customer projects, demos, trade fairs, and exploratory prototypes.
Assist users in NeuraGym with application setup, data collection, skill training, and hardware testing.
Enable teams, partners, and customers to develop, validate, and independently operate AI-powered robotic systems.
Apply expertise in C++, ROS, robotics, kinematics, motion and grasp planning, including classical and learning-based approaches.
What we can look forward to
A degree in Robotics, Computer Science, or a related technical field
At least three years of hands‑on experience in developing robotic applications or robotic systems
Very strong programming skills in C++ and/or Python, especially in object‑oriented software development
Solid experience with ROS (Robot Operating System) and working with real robotic platforms
Ideally, several years of experience in machine learning for robotics, with strong expertise in at least one of the following areas:
Visual manipulation
Reinforcement / imitation learning
Multimodal models
Expertise in developing low‑latency and high-performance software modules
Knowledge of cloud environments (e.g. AWS, Azure, GCP) and robot simulation tools such as Isaac Sim or MuJoCo is a plus
Strong team spirit and the ability to work independently, in a structured and proactive manner within a dynamic, interdisciplinary environment
Strong analytical and organizational skills, enabling you to manage multiple projects efficiently in parallel
Clear and open communication skills, both internally and externally, allowing you to confidently bridge research, engineering, and users
Fluent English
#J-18808-Ljbffr