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- Tasks: Design and implement intelligent control software for cutting-edge robotic systems.
- Company: Join a pioneering robotics team in Oxford, shaping the future of AI.
- Benefits: Competitive salary, hybrid working, and exciting career growth opportunities.
- Why this job: Make a real-world impact by pushing the boundaries of robotics and AI.
- Qualifications: Degree in Robotics or related field; strong skills in C++ and Python.
- Other info: Collaborative environment with a focus on innovation and exploration.
The predicted salary is between 80000 - 150000 £ per year.
Are you a software engineer who wants to build intelligent, adaptive robotic systems? Do you enjoy designing and implementing control and autonomy software that links perception, planning, and actuation, enabling robots to interact intelligently with their environment? This role is perfect for engineers with strong robotics and control fundamentals who love working at the intersection of hardware, software, and autonomy, building systems that go beyond standard automation.
If you excel in a fast-paced, exploratory engineering environment and want to push robotics and applied AI beyond existing limits while making a tangible real-world impact, this could be the right fit.
What You’ll Be Doing:
- Design and implement control and autonomy software for robotic platforms.
- Integrate perception, planning, and actuation into cohesive, intelligent systems.
- Build and maintain software architectures bridging low-level control, perception, and high-level planning.
- Configure and extend robotic middleware and interfaces (e.g., ROS 2 or similar).
- Contribute to and leverage simulation, modelling, and validation of robotic systems in virtual environments (e.g., Nvidia Isaac, Gazebo) and physical labs.
- Collaborate with cross-disciplinary teams to combine software, hardware, and intelligence.
- Contribute to the full engineering lifecycle, including architecture, lab testing, and documentation.
What We’re Looking For:
- Degree or equivalent experience in Robotics, Mechatronics, Control, or Computer Engineering.
- Strong proficiency in C++ and Python, with experience in real-time or distributed robotics software.
- Solid understanding of control theory, kinematics, dynamics, and state estimation.
- Comfortable working close to hardware and integrating sensors, actuators, perception systems and real-time control.
- Analytical thinker able to translate theory into reliable, real-world robotic systems.
Nice to Have:
- Experience with autonomy frameworks, navigation, or multi-sensor integration.
- Familiarity with real-time communication protocols (EtherCAT, CAN, Modbus) or PLCs.
- Strong Mechatronics understanding.
- Exposure to simulation and validation tools for robotic systems.
- Knowledge of Machine Learning principles for perception or control.
Offices and Lab located in Oxford. Hybrid working c.3 days in office. Salary £80,000 - £150,000 + benefits dependent on experience. Ready to help build the next generation of intelligent robots? Apply now and join a fast-moving team shaping the future of applied robotics and AI.
Robotics Software Engineer in Oxford employer: Lawrence Harvey
Contact Detail:
Lawrence Harvey Recruiting Team
StudySmarter Expert Advice 🤫
We think this is how you could land Robotics Software Engineer in Oxford
✨Tip Number 1
Network like a pro! Reach out to people in the robotics field on LinkedIn or at industry events. A friendly chat can lead to opportunities that aren’t even advertised yet.
✨Tip Number 2
Show off your skills! Create a portfolio showcasing your projects, especially those involving C++, Python, and robotics. This gives potential employers a taste of what you can do beyond your CV.
✨Tip Number 3
Prepare for technical interviews by brushing up on control theory and kinematics. Practice coding challenges related to robotics to demonstrate your problem-solving skills under pressure.
✨Tip Number 4
Don’t forget to apply through our website! It’s the best way to ensure your application gets seen by the right people. Plus, we love seeing candidates who are proactive about their job search.
We think you need these skills to ace Robotics Software Engineer in Oxford
Some tips for your application 🫡
Tailor Your CV: Make sure your CV highlights your experience in robotics and control systems. We want to see how your skills in C++ and Python shine through, so don’t hold back on showcasing relevant projects!
Craft a Compelling Cover Letter: Your cover letter is your chance to tell us why you’re the perfect fit for this role. Share your passion for robotics and how you’ve tackled challenges in past projects. Let your personality come through!
Showcase Your Projects: If you've worked on any cool robotics projects, make sure to mention them! We love seeing practical applications of your skills, especially if they involve real-time control or multi-sensor integration.
Apply Through Our Website: We encourage you to apply directly through our website. It’s the best way for us to receive your application and ensures you don’t miss out on any important updates from our team!
How to prepare for a job interview at Lawrence Harvey
✨Know Your Robotics Fundamentals
Brush up on your control theory, kinematics, and dynamics. Be ready to discuss how these principles apply to real-world robotic systems. This will show your analytical thinking and ability to translate theory into practice.
✨Showcase Your Coding Skills
Prepare to demonstrate your proficiency in C++ and Python. You might be asked to solve a coding problem or explain your previous projects. Make sure you can articulate how your code integrates with hardware and contributes to autonomy.
✨Familiarise Yourself with Tools and Frameworks
Get comfortable with ROS 2 and any simulation tools like Nvidia Isaac or Gazebo. Being able to discuss your experience with these tools will highlight your hands-on skills and readiness to contribute from day one.
✨Collaborate and Communicate
Since this role involves working with cross-disciplinary teams, be prepared to discuss how you've collaborated in the past. Share examples of how you’ve combined software, hardware, and intelligence to solve complex problems.
