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Underwater Robotics Engineer Jobs (NOW HIRING)

Sr Robotics Engineer

Irvine, CA

$114K - $149K/yr

The ideal candidate brings deep expertise in embedded electronics, power systems, underwater ... Bachelor's degree in Electrical Engineering, Robotics Engineering, or a closely related field

Sr Robotics Engineer

Irvine, CA

$114K - $149K/yr

The ideal candidate brings deep expertise in embedded electronics, power systems, underwater ... Bachelor's degree in Electrical Engineering, Robotics Engineering, or a closely related field

Sr Robotics Engineer

Irvine, CA

$114K - $149K/yr

The ideal candidate brings deep expertise in embedded electronics, power systems, underwater ... Bachelor's degree in Electrical Engineering, Robotics Engineering, or a closely related field

Sr Robotics Engineer

Irvine, CA

$114K - $149K/yr

The ideal candidate brings deep expertise in embedded electronics, power systems, underwater ... Bachelor's degree in Electrical Engineering, Robotics Engineering, or a closely related field

Sr Robotics Engineer

Irvine, CA

$114K - $149K/yr

The ideal candidate brings deep expertise in embedded electronics, power systems, underwater ... Bachelor's degree in Electrical Engineering, Robotics Engineering, or a closely related field

Company Description We are a leading subsea robotics company dedicated to developing cutting-edge autonomous and remotely operated underwater systems. Our team is composed of engineers and scientists ...

Company Description We are a leading subsea robotics company dedicated to developing cutting-edge autonomous and remotely operated underwater systems. Our team is composed of engineers and scientists ...

The Software Developer Level II, SAS will work on our real-time SAS platform. This is a high-impact ... Previous experience developing software in the underwater robotics industry * Experience with the ...

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Underwater Robotics Engineer information

See salary details

$29K

$105.6K

$169K

How much do underwater robotics engineer jobs pay per year?

As of Jul 8, 2026, the average yearly pay for underwater robotics engineer in the United States is $105,605.00, according to ZipRecruiter salary data. Most workers in this role earn between $83,500.00 and $127,000.00 per year, depending on experience, location, and employer.

How much do underwater robotic engineers make?

Underwater robotic engineers typically earn between $70,000 and $120,000 annually, depending on experience, education, and location. Senior engineers or those with specialized skills in robotics, control systems, or deep-sea environments may earn higher salaries. The field often requires knowledge of robotics, programming, and underwater systems.

What are some common challenges faced by Underwater Robotics Engineers when deploying robots in real-world environments?

Underwater Robotics Engineers often encounter challenges such as unpredictable ocean currents, varying water visibility, and equipment corrosion due to saltwater exposure. Ensuring reliable wireless communication and precise navigation in deep or murky waters can also be difficult. These engineers work closely with multidisciplinary teams—including marine scientists and mechanical engineers—to troubleshoot and adapt robotic systems for diverse underwater missions. Regular field tests and iterative improvements are essential for successful deployments.

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

To thrive as an Underwater Robotics Engineer, you need a solid background in mechanical, electrical, or robotics engineering, often supported by a relevant bachelor's or master's degree. Familiarity with underwater vehicle control systems, CAD software, programming languages (such as C++ or Python), and certifications in ROV/AUV operation are typically required. Strong problem-solving skills, effective communication, and the ability to work collaboratively in multidisciplinary teams help engineers excel in complex environments. These skills and qualifications are crucial for designing, deploying, and maintaining reliable robotic systems in challenging underwater conditions.

What is the difference between Underwater Robotics Engineer vs Marine Systems Engineer?

AspectUnderwater Robotics EngineerMarine Systems Engineer
Required CredentialsBachelor's in Mechanical, Electrical, or Marine Engineering; specialized training in roboticsBachelor's in Marine Engineering, Mechanical, or Electrical Engineering; certifications in marine systems
Work EnvironmentDesigning, testing, and maintaining underwater robotic systems in labs or on shipsDeveloping and managing marine vessel systems in shipyards or offshore facilities
Industry UsageResearch institutions, defense, oil & gas, underwater explorationMaritime industry, shipping companies, offshore energy

Underwater Robotics Engineers focus on designing and maintaining robotic systems used underwater, often in research or exploration. Marine Systems Engineers work on the broader systems of ships and offshore platforms. While both roles require engineering credentials and may work in marine environments, their specific focus areas differ, with Underwater Robotics Engineers specializing in robotic technology and Marine Systems Engineers focusing on vessel and platform systems.

What do Underwater Robotics engineers do?

Underwater Robotics engineers design, develop, and test autonomous or remotely operated underwater vehicles used for exploration, research, and inspection. They work with sensors, control systems, and software to ensure the robots operate effectively in challenging aquatic environments, often requiring knowledge of engineering, programming, and marine science.

Is robotics a dead field?

Robotics, including underwater robotics engineering, remains a growing field with ongoing advancements in automation, AI, and sensor technologies. Skilled engineers are in demand for developing autonomous systems, maintaining complex equipment, and working in diverse environments such as underwater exploration and research.

What are Underwater Robotics Engineers?

Underwater Robotics Engineers are professionals who design, develop, and maintain robotic systems that operate in underwater environments. These engineers work on remotely operated vehicles (ROVs), autonomous underwater vehicles (AUVs), and related technologies used for ocean exploration, marine research, offshore energy, and underwater infrastructure inspection. Their responsibilities often include system integration, troubleshooting, programming, and ensuring the reliability of robotic systems in challenging underwater conditions. They typically have backgrounds in mechanical, electrical, or computer engineering, and strong problem-solving skills.

What engineers make $500,000?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and aerospace engineering can earn $500,000 or more annually, especially with extensive experience, advanced skills, and in high-demand industries. Executive-level engineering roles or those in leadership positions may also reach this compensation level, often including bonuses and stock options.
More about Underwater Robotics Engineer jobs
What states have the most Underwater Robotics Engineer jobs? States with the most job openings for Underwater Robotics Engineer jobs include:
Infographic showing various Underwater Robotics Engineer job openings in the United States as of July 2026, with employment types broken down into 95% Full Time, 2% Part Time, and 3% Contract. Highlights an 87% Physical, 4% Hybrid, and 9% Remote job distribution, with an average salary of $105,605 per year, or $50.8 per hour.
Forward Deployed Robotics Engineer

Forward Deployed Robotics Engineer

Gecko Robotics

Pittsburgh, PA • On-site

Full-time

Medical, Dental, Vision, Retirement, PTO

Re-posted 23 days ago


Job description

What We Do

Gecko Robotics is helping the world’s most important organizations ensure the availability, reliability, and sustainability of critical infrastructure. Gecko's complete and connected solutions combine wall-climbing robots, industry-leading sensors, and an AI-powered data platform to provide customers with a unique window into the current and future health of their physical assets. This enables real-time decision making to increase the efficiency and safety of operations, promote mission readiness, and protect the environment and civilization from the effects of infrastructure failure.

Role at a Glance
We are seeking a highly skilled Robotics Engineer specializing in underwater sensor fusion and localization to lead the development and deployment of robust navigation systems for our hull-cleaning and NDT inspection robots. The ideal candidate will have deep expertise in fusing data from underwater sensor suites - including IMUs, DVLs, pressure sensors, acoustic positioning systems such as USBL/LBL, and sonar-based relative sensing - to produce accurate and reliable state estimates in GPS-denied, close-to-structure environments. You will be responsible for solving real localization problems in the field: compensating for drift, handling intermittent or delayed aiding, managing sensor dropouts and acoustic outliers, and delivering pragmatic solutions that can be deployed under tight timelines.

To be successful in this role, you must possess strong hands-on experience designing and implementing advanced filtering algorithms for real-world robotic systems, such as error-state Extended Kalman Filters (EKF), Unscented Kalman Filters (UKF), and Particle Filters where appropriate. You should be adept at deriving and maintaining both linear and nonlinear state-space models to continuously estimate critical variables such as position, velocity, attitude, and sensor biases in challenging underwater conditions. Additionally, the role requires expertise in calibrating and validating real sensor stacks - including IMU bias estimation, DVL alignment and dropout handling, pressure-depth offsets, acoustic latency, and timing synchronization - as well as a strong understanding of underwater navigation concepts such as dead reckoning, inertial navigation, observability in constrained motion, degraded-mode localization, and robust fusion when absolute aids are sparse or unreliable.

Required Skills and Expertise:
  • Advanced Filtering Algorithms: Proficiency designing and implementing localization and navigation filters, including Kalman Filters, error-state Extended Kalman Filters (EKF), Unscented Kalman Filters (UKF), and Particle Filters when warranted by the sensing environment or failure modes.

  • Underwater Multi-Sensor Integration: Experience fusing data from complementary and redundant underwater sensors, including IMUs, DVLs, pressure sensors, USBL/LBL systems, sonar-derived relative measurements, and other non-vision localization inputs to improve robustness and reliability.

  • State-Space Modeling & Observability: Strong background in formulating continuous-time and discrete-time dynamic models for underwater vehicles, including position, linear/angular velocity, attitude, sensor biases, and other latent states, with an understanding of observability under constrained motion and close-proximity operations.

  • Sensor Calibration, Timing & Noise Management: Expertise in managing real-world uncertainties such as drifting IMU biases, DVL misalignment or bottom-lock loss, pressure sensor offsets, acoustic multipath and latency, clock synchronization issues, and magnetic disturbances near large steel structures.

  • Underwater Navigation: Thorough understanding of GPS-denied underwater localization concepts, including dead reckoning, inertial navigation, acoustic aiding, hull-relative localization, and fallback behavior when absolute position updates are unavailable or degraded.

  • Forward-Deployed Problem Solving: Demonstrated ability to deploy working sensor fusion solutions within tight timelines, debug failures from field logs and replay tools, tune estimators under operational pressure, and make practical engineering tradeoffs to keep systems moving forward.

  • Fusion System Design: Familiarity designing resilient localization architectures that can tolerate delayed and asynchronous measurements, intermittent aiding, sensor dropouts, and compute or bandwidth constraints common in deployed underwater robotic systems.

Who We Are

At Gecko, our people are our greatest investment. In addition to competitive compensation packages, we offer company equity, 401(k) matching, gender-neutral parental leave, full medical, dental, and vision insurance, mental health, ongoing professional development, family planning assistance, and flexible paid time off. 

Gecko values collaboration, innovation, and partnership, and we believe we do our best work when we're together in person. We’re an office-first culture but understand that sometimes you may need to work from home. Many people are in the office five days a week, others need a bit more flexibility. Ultimately, we care about the outcomes we achieve - and creating a culture of autonomy and trust that enables that impact.

Gecko is committed to creating a culture of inclusion and belonging, and we are proud to be an equal opportunity employer.  We believe it is our collective responsibility to uphold these values and encourage candidates from all backgrounds to join us in our mission to protect today’s infrastructure and give form to tomorrow’s. All qualified applicants will be treated with respect and receive equal consideration for employment without regard to race, color, creed, religion, sex, gender identity, sexual orientation, national origin, disability, uniform service, veteran status, age, or any other protected characteristic per federal, state, or local law. If you are passionate about what you do and want to use your talents to support our critical mission, we’d love to hear from you.