1

Robot Operating System Internship Jobs in Texas (NOW HIRING)

Embedded Engineer

Dallas, TX ยท On-site

$130K - $171K/yr

Experience with ROS (Robot Operating System). Experience with low-level communication interfaces TCP/IP, Sockets, CAN, SPI. Experience developing for, or interfacing with, embedded systems and ...

Apply Early

Onboard Infrastructure Engineer

Houston, TX

$102K - $134K/yr

Experience with ROS (Robot Operating System) , or similar middleware for robotics and autonomous systems. * 3+ years of experience in onboard infrastructure, embedded systems, or systems engineering.

Onboard Infrastructure Engineer

Houston, TX ยท On-site

$102K - $134K/yr

Experience with ROS (Robot Operating System) , or similar middleware for robotics and autonomous systems. * 3+ years of experience in onboard infrastructure, embedded systems, or systems engineering.

Software Systems Engineer

Richardson, TX ยท On-site

$72K - $124K/yr

ROS2 (Robot Operating System) and associated tools like MoveIt and Drake. * Programming Python (for AI/ML) and C/C++ (for real-time systems). * AI/ML IREE, PyTorch or TensorFlow, Reinforcement ...

Software Systems Engineer

Austin, TX ยท On-site

$72K - $124K/yr

ROS2 (Robot Operating System) and associated tools like MoveIt and Drake. * Programming Python (for AI/ML) and C/C++ (for real-time systems). * AI/ML IREE, PyTorch or TensorFlow, Reinforcement ...

next page

Showing results 1-20

Robot Operating System Internship information

What types of projects do interns typically work on during a Robot Operating System (ROS) internship?

During a Robot Operating System (ROS) internship, interns often contribute to real-world robotics projects such as developing and testing algorithms for robot navigation, integrating new sensors, or enhancing perception modules. You may collaborate with engineers to debug ROS nodes, optimize code, or implement new features for autonomous robots. Expect to participate in team meetings, code reviews, and hands-on experiments with hardware or simulation environments. This experience provides valuable exposure to industry-standard tools and collaborative workflows used in robotics development.

What are the key skills and qualifications needed to thrive as a Robot Operating System (ROS) Intern, and why are they important?

To thrive as a Robot Operating System (ROS) Intern, you need a solid background in robotics, computer science, or engineering, with knowledge of programming languages such as Python and C++. Familiarity with ROS frameworks, simulation tools like Gazebo, and version control systems (e.g., Git) is typically required. Strong problem-solving skills, teamwork, and adaptability help you navigate complex projects and collaborate effectively. These skills and qualities are crucial for efficiently developing, testing, and deploying robotic solutions in dynamic research or industry environments.

What is a Robot Operating System (ROS) Internship?

A Robot Operating System (ROS) Internship is a temporary training position where students or recent graduates gain hands-on experience working with ROS, a flexible framework for writing robot software. Interns typically assist in developing, testing, and debugging robotics applications using ROS tools and libraries. This role helps participants build practical skills in robotics programming, sensor integration, and algorithm development, preparing them for careers in robotics and automation. Interns often work alongside engineers and researchers on real-world robotic systems in academic or industrial settings.

What is the difference between Robot Operating System Internship vs Robotics Software Engineer?

AspectRobot Operating System InternshipRobotics Software Engineer
Required CredentialsEnrolled in or recent graduate in Computer Science, Robotics, or related fieldsBachelor's or Master's in Robotics, Computer Science, or related fields; experience preferred
Work EnvironmentInternship programs, research labs, tech companiesFull-time employment in robotics or tech companies, R&D departments
Industry UsageTraining, skill development, project supportDesign, develop, and implement robotic software solutions

The Robot Operating System Internship focuses on gaining hands-on experience with ROS in a temporary, learning environment, while a Robotics Software Engineer is a full-time professional responsible for developing robotic software solutions. Internships are ideal for students or recent graduates, whereas engineers typically have more experience and responsibilities in ongoing projects.

What are the most commonly searched types of Robot Operating System jobs in Texas? The most popular types of Robot Operating System jobs in Texas are:
What are popular job titles related to Robot Operating System Internship jobs in Texas? For Robot Operating System Internship jobs in Texas, the most frequently searched job titles are:
What cities in Texas are hiring for Robot Operating System Internship jobs? Cities in Texas with the most Robot Operating System Internship job openings:
Embedded Engineer

Embedded Engineer

1 point system

Dallas, TX โ€ข On-site

$130K - $171K/yr

Contractor

Posted 17 days ago

Be an early applicant


Job description

Preferred Skills & Qualifications

Bachelors Degree in Computer Science, Computer Engineering, or similar field

Minimum 8+ years of relevant experience

Experience designing and implementing production software systems.

Experience with Agile development environment and a strong drive for SOPs.

Expert in Linux environment and developing for Linux systems.

Expertise in C/C++ and Python, Experience with other software technologies (Web

Development, SQL, etc.).

Experience with CI/CD and testing methodologies and implementation.

Experience with Containerization and Deployment Strategies.

Experience with version control systems, GIT preferred.

Experience with ROS (Robot Operating System).

Experience with low-level communication interfaces TCP/IP, Sockets, CAN, SPI.

Experience developing for, or interfacing with, embedded systems and microcontrollers.

Experience with Robotics technologies (Motor Controllers, Lidars, Encoders, and various

sensor technologies).

Exposure to, or development experience with, Autonomous Navigation Systems.