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Robotics Jobs (NOW HIRING)

Sorting Robotics Inc. is on the lookout for a Robotics Technician to join our growing team. In this role, you will work closely with engineers to build, test, and maintain robotic systems used in the ...

Sorting Robotics Inc. is on the lookout for a Robotics Technician to join our growing team. In this role, you will work closely with engineers to build, test, and maintain robotic systems used in the ...

Sorting Robotics Inc. is on the lookout for a Robotics Technician to join our growing team. In this role, you will work closely with engineers to build, test, and maintain robotic systems used in the ...

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Robotics information

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$84K

$96K

$116.5K

How much do robotics jobs pay per year?

As of Jul 18, 2026, the average yearly pay for robotics in the United States is $96,000.00, according to ZipRecruiter salary data. Most workers in this role earn between $90,000.00 and $102,000.00 per year, depending on experience, location, and employer.

How do robotics professionals typically collaborate with other engineering disciplines during a project?

Robotics professionals frequently work in cross-functional teams alongside electrical, mechanical, and software engineers. This collaboration ensures that robotic systems are seamlessly integrated, from hardware design to control algorithms and user interfaces. Effective communication and iterative problem-solving are key, as team members must align on technical requirements, system architecture, and testing protocols. Such teamwork not only enhances project outcomes but also provides valuable opportunities to broaden technical skills and learn from other engineering domains.

What are the jobs in robotics?

Jobs in robotics include robotics engineer, automation technician, control systems engineer, robotics technician, research scientist, and software developer. These roles involve designing, building, programming, and maintaining robotic systems, often requiring knowledge of programming languages, mechanical design, and electronics.

What kind of job can you get with a robotics degree?

A robotics degree can lead to jobs such as robotics engineer, automation engineer, control systems engineer, or research scientist. These roles typically involve designing, developing, and maintaining robotic systems, often requiring knowledge of programming, mechanical design, and electronics. Opportunities are available in industries like manufacturing, aerospace, healthcare, and research institutions.

What are the key skills and qualifications needed to thrive as a Robotics Engineer, and why are they important?

To thrive as a Robotics Engineer, you need a solid background in mechanical engineering, electrical engineering, and computer science, typically supported by a relevant degree. Proficiency in programming languages (such as Python, C++, or ROS), CAD software, and familiarity with robotics hardware or automation systems is essential. Strong problem-solving abilities, teamwork, and effective communication help you stand out in multidisciplinary projects. These skills ensure the successful design, development, and implementation of innovative robotic solutions in dynamic environments.

What is the difference between Robotics vs Mechanical Engineering?

AspectRoboticsMechanical Engineering
Required CredentialsTypically requires a degree in Robotics, Electrical, or Mechanical Engineering; certifications in automation or control systemsRequires a degree in Mechanical Engineering; professional licensure may be preferred
Work EnvironmentOften involves working with automation systems, programming robots, and integrating hardware/softwareFocuses on designing, analyzing, and manufacturing mechanical systems
Industry UsageUsed in automation, manufacturing, aerospace, and researchApplied across automotive, aerospace, energy, and manufacturing sectors

Robotics and Mechanical Engineering share overlapping skills, especially in design and systems analysis. However, Robotics emphasizes automation, programming, and system integration, while Mechanical Engineering focuses on mechanical design and analysis. Both fields are vital in manufacturing and technology sectors, but Robotics professionals often work more with software and control systems, whereas Mechanical Engineers concentrate on physical components.

Is robotics a good career choice?

Robotics is a growing field that involves designing, building, and programming robotic systems, often requiring skills in engineering, programming, and problem-solving. It offers opportunities in industries such as manufacturing, healthcare, and research, with a demand for professionals holding degrees in engineering, computer science, or related fields. Career prospects can be strong for those with technical expertise and experience with tools like CAD software and programming languages such as Python or C++.

What Are the Qualifications to Get a Job in Robotics?

The qualifications you need to get a job in robotics depend on the position you are interested in. Engineers and designers typically need a bachelor’s or master’s degree in robotics, mechanical or electrical engineering, or computer science, as well as strong programming skills. Some technicians and operators also need to have a bachelor’s degree or extensive training. Good technical and analytical skills are required for work in robotics. The duties of these positions vary significantly, although in many cases job responsibilities overlap. For example, engineers often gather advice and technical knowledge from technicians and operators about how robots function when they design new systems.

What 5 jobs will survive AI?

Robotics engineers, AI specialists, cybersecurity experts, healthcare professionals, and skilled tradespeople are likely to continue thriving as these roles require complex problem-solving, hands-on work, and specialized knowledge that are difficult for AI to fully replicate. These jobs often involve creativity, critical thinking, and human interaction, making them more resilient to automation.

What are robotics jobs?

Robotics jobs involve designing, building, programming, testing, and maintaining robots or robotic systems. Professionals in this field may work in industries such as manufacturing, healthcare, automotive, aerospace, and research, focusing on automation and innovative technology solutions. Roles can include robotics engineers, technicians, programmers, and researchers, all working together to improve efficiency, safety, and productivity through robotics. These positions typically require knowledge in areas like mechanical engineering, electronics, computer programming, and artificial intelligence.
What cities are hiring for Robotics jobs? Cities with the most Robotics job openings:
What are the most commonly searched types of Robotics jobs? The most popular types of Robotics jobs are:
What states have the most Robotics jobs? States with the most job openings for Robotics jobs include:
Infographic showing various Robotics job openings in the United States as of July 2026, with employment types broken down into 56% Full Time, 11% Part Time, and 33% Contract. Highlights an 100% In-person job distribution, with an average salary of $96,000 per year, or $46.2 per hour.
Sr. Robotics Engineer, Motion Planning

Sr. Robotics Engineer, Motion Planning

Contoro Robotics

Austin, TX • On-site

Full-time

Posted 7 days ago


Job description

Join Contoro Robotics - Revolutionizing Warehouse Automation with Cutting-Edge Robotics
At Contoro Robotics, we're on a mission to solve labor challenges through advanced robotic solutions. Headquartered in Austin, TX, our fast-growing startup is transforming the supply chain industry with our flagship warehouse automation technology. Our team is made up of top-tier experts in robotics, AI, and logistics, working together to push the boundaries of automation.
We're looking for talented and ambitious individuals to join us on this journey-helping shape the future of robotics while growing alongside a world-class team. If you're passionate about innovation, problem-solving, and making a real-world impact, we want to hear from you!
Senior Robotics Engineer, Motion Planning
Contoro Robotics is an Austin-based company building autonomous truck-unloading robots for warehouse operations. We deploy reliable, high-throughput robotic systems that handle heavy, unstructured freight in real logistics settings every day.
The Role
We are looking for a Senior Robotics Engineer to lead the next phase of motion-performance improvement for our robot arm. You will be the technical lead for motion planning and trajectory generation, owning how we turn planned motion into fast, smooth, dynamically feasible trajectories under real hardware constraints. Your focus is reducing cycle time while maintaining safety and payload stability, using strong fundamentals in kinematics, dynamics, constrained optimization, and hardware-backed performance validation. This is a senior individual-contributor role: you set technical direction for motion planning, own the hardest trajectory-optimization problems, and mentor other engineers, working closely with the autonomy team.
Responsibilities
Trajectory Optimization
  • Own trajectory generation and time parameterization: turn planned paths into time-optimal, dynamically feasible trajectories that minimize cycle time while respecting velocity, acceleration, jerk, and torque limits of the arm and payload.
  • Drive the next generation of our motion performance through advanced time parameterization, optimization-based motion (optimal control, QP/NLP), and payload-aware planning that meaningfully increases throughput.
  • Ensure smooth, jerk-limited motion that maintains payload stability and hardware safety, and robustly handle near-singularity and joint-limit edge cases without stalls or unsafe motion.

Path Generation and Planning Architecture
  • Own geometric path planning for a high-DOF manipulator moving boxes through cluttered, partially occluded container environments.
  • Evaluate and evolve the planning architecture and toolchain (e.g., MoveIt, OMPL, CHOMP/TrajOpt), making the build, adopt, and extend decisions for the planning stack.
  • Integrate perception outputs (container frame, box poses, occupancy) into the planning scene, reasoning about collision objects such as container walls, ceiling, and neighboring boxes.

Performance Validation
  • Define motion-performance metrics, benchmark alternative approaches, and validate gains both in simulation and on real hardware.
  • Use physics-based and kinematic simulation to develop and de-risk changes before they reach the fleet.

Technical Leadership
  • Set technical direction for motion planning and drive multi-quarter improvements in cycle time and reliability.
  • Mentor junior and mid-level engineers and raise the team's bar on motion-planning craft, testing, and reliability.
  • Collaborate across autonomy, perception, controls, and robot software to deliver end-to-end motion that is both fast and reliable across diverse box configurations.
Qualifications
Experience: 5+ years of professional experience in motion planning, trajectory optimization, or manipulator control, with production or real-hardware deployment and a track record of owning motion performance end-to-end.
Education: B.S. or M.S. in Robotics, Computer Science, Mechanical/Electrical Engineering, or a related field (or equivalent industry experience).
Technical Skills:
  • Strong grounding in classical trajectory generation and time-parameterization methods (e.g., TOTG/TOPP-RA, Ruckig, S-curve profiles), with the ability to derive, adapt, and implement them in production systems.
  • Deep grasp of manipulator kinematics and dynamics - forward/inverse kinematics, collision checking, velocity/acceleration/jerk and torque constraints, and singularity and joint-limit handling for 6/7-DOF arms.
  • Background in optimization-based motion (optimal control, QP/NLP-based trajectory optimization).
  • Deep proficiency in C++ (modern standards), Python, and ROS 1 or ROS 2.
  • Experience validating cycle-time and reliability improvements on real hardware, backed by simulation.

Soft Skills:
  • Strong problem-solving and data-driven decision-making; able to own ambiguous, high-impact problems and decompose them into actionable work.
  • Excellent communication - able to present complex technical concepts clearly to cross-functional teams and mentor other engineers.
Nice to Have
  • Hands-on expertise with MoveIt and motion planning frameworks (OMPL, RRT/RRT-Connect/PRM, CHOMP/TrajOpt).
  • Experience with industrial manipulators (e.g., KUKA) and real-time joint control.
  • Experience planning for multi-object or multi-pick manipulation.
  • Experience optimizing for throughput or cycle time in a production robotics or logistics setting.
  • Experience with GPU-accelerated or learning-based motion planning in addition to classical methods.
  • Experience with physics-based or kinematic simulation for planning validation (Isaac Sim, Gazebo, MuJoCo, Bullet).

*Recruitment Agencies: Please do not contact our employees regarding this role. We partner with a select group of approved recruiting firms and do not accept unsolicited outreach or candidate submissions.