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Live In Underwater Robotics Jobs (NOW HIRING)

Vecna Robotics

Robotics Software Engineer

Waltham, MA · On-site

$95K - $125K/yr

Work directly with data from deployed customer sites to triage and debug issues on live robots * Own the full improvement loop: identify the problem, build the fix, deploy it to robots in the field ...

Stanford University

Hardware Engineer

Stanford, CA

$145.10K - $191.50K/yr

Advise all of the flagship projects in the SRC on hardware decisions: field robotics, underwater ... Stanford University has revolutionized the way we live and enrich the world. Supporting this ...

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OB/GYN - Live in the Mountains!

Santa Fe, NM · On-site

$245.40K - $265K/yr

... Santa Fé, NM) Live in a beautiful vacation destination with a great climate and mountain ... Davinci Robotics System Available Background: * Board Certified / Board Eligible OB/GYN * Ability ...

Oceaneering

Project Software Engineer

Hanover, MD · On-site

Preferred : • Experience developing in underwater vehicle or robotic software frameworks and expanding framework capabilities. • Experience working on Department of Defense software efforts. • ...

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OB/GYN - Live in the Mountains!

Taos, NM

$243.70K - $263.20K/yr

Live in a beautiful vacation destination with a great climate and mountain atmosphere! About the ... Davinci Robotics System Available Background: * Board Certified / Board Eligible OB/GYN * Ability ...

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Live In Underwater Robotics information

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$11K

$291.6K

$400K

How much do live in underwater robotics jobs pay per year?

As of May 31, 2026, the average yearly pay for live in underwater robotics in the United States is $291,565.00, according to ZipRecruiter salary data. Most workers in this role earn between $250,000.00 and $394,500.00 per year, depending on experience, location, and employer.

What are the key skills and qualifications needed to thrive as a Live-In Underwater Robotics Technician, and why are they important?

To thrive as a Live-In Underwater Robotics Technician, you generally need expertise in robotics, mechanical or electrical engineering, and underwater systems, often supported by a relevant degree or technical certification. Familiarity with remotely operated vehicles (ROVs), sonar systems, underwater communication tools, and certifications like ROV pilot/technician credentials are typically required. Strong problem-solving skills, attention to detail, adaptability, and effective teamwork are essential soft skills for this role. These skills and qualities are crucial for ensuring the safe and efficient operation, maintenance, and repair of underwater robotics in challenging and isolated environments.

What are some common challenges faced by professionals working in live-in underwater robotics roles?

Professionals in live-in underwater robotics roles often encounter unique challenges, including adapting to remote or confined living environments for extended periods and maintaining effective communication with team members both on and offshore. Additionally, they must manage complex underwater equipment in harsh conditions, troubleshoot unexpected technical issues, and prioritize safety at all times. Collaborating closely with multidisciplinary teams—including engineers, marine biologists, and operators—is essential to ensure smooth operations and the successful deployment of robotic systems.

What are Live In Underwater Robotics?

Live In Underwater Robotics professionals are experts who operate, maintain, and monitor robotic systems that function underwater, often for extended periods. These specialists typically live on-site, such as on research vessels or underwater habitats, to provide immediate support for remotely operated vehicles (ROVs) and autonomous underwater vehicles (AUVs) used in research, exploration, or industrial tasks. Their work involves troubleshooting, repairs, and data collection in challenging underwater environments. This role is crucial in fields like marine biology, offshore energy, and underwater archaeology.

What is the difference between Live In Underwater Robotics vs Underwater Robotics Technician?

AspectLive In Underwater RoboticsUnderwater Robotics Technician
CredentialsRelevant engineering or technical certifications, specialized trainingTechnical certifications, hands-on training in robotics maintenance
Work EnvironmentExtended periods underwater, often in remote or confined spacesOnshore or vessel-based, working with underwater equipment
Industry UsageUsed in research stations, offshore exploration, and underwater installationsMaintains and repairs underwater robots, supports operations

Live In Underwater Robotics involves working in submerged environments for extended periods, often requiring specialized certifications and training. In contrast, Underwater Robotics Technicians typically work onshore or on vessels, focusing on maintaining and repairing underwater robots. Both roles are essential in underwater exploration and industry, but they differ mainly in work environment and responsibilities.

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What states have the most Live In Underwater Robotics jobs? States with the most job openings for Live In Underwater Robotics jobs include:
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Live In Underwater Robotics jobs near you

Applied Robotics Engineer - Detroit, Michigan

byte-code spa

Detroit, MI • On-site

Full-time

Posted 19 days ago

Job description

About Xaba
Xaba https://www.xaba.ai/ is at the forefront of AI-driven robotics automation, pioneering cutting-edge solutions to enhance industrial processes. Headquartered globally, with a team of collaborative scientists, engineers, and designers, Xaba operates in a remote-first and distributed environment. Join us in shaping the future of AI in robotics.
The Role
We are seeking an Applied Robotics Engineer to contribute to the development and deployment of our innovative products. As a key member of the Xaba team, you will play a pivotal role in shaping AI-powered robotics automation, while closely collaborating with the leadership team.
What you will do:
  • Collaborate with Xaba's cross-functional team of engineers to support the development, testing and deployment of AI models leveraging state-of-the-art DNN, CNN and GNN models to augment industrial robotics cognition, awareness and facilitate their program generation
  • Conduct applied research in Robotics Welding, Inspection, Machining, and Assembling to gather data. This supports the development, training, auditing, and validation of physics-based AI models for robotics fabrication processes.
  • Provide training and support for Xaba's products.
  • Work closely with customers to understand their requirements and pain points, ensuring successful integration of AI-powered robotics software.

Technical Expertise:
  • Working experience with industrial robot manipulators: ABB, FANUC, UR, KUKA, etc.
  • Demonstrated hands-on experience in designing, building and deploying robotic systems.
  • Practical knowledge of robotic fabrication processes, including welding, machining, assembling, or inspection.
  • Proficiency in both spoken and written English.

Nice to have:
  • Experience with SolidWorks, AutoCAD, CloudCompare.
  • Familiarity with robotic hardware components, sensors, actuators, lasers and cameras.
  • Knowledge of robotic programming languages: RAPID, URSCRIPT, KRL, etc.
  • Solid understanding of key robotic aspects: forward and inverse kinematics, jacobians, collision detection, path-planning, control theory.

Education:
  • Background in Industrial Robotics, Automation, or degree in Mechanical Engineering.

Our location
While our team is remote-first and fully distributed, for this position you must live in Detroit, Michigan, where our robotic lab is located.
Our Team and Perks
  • We are an open, collaborative, and supportive culture including skill shares and design critiques
  • We believe that employees should be owners, which is why we provide stock option grants for full-time employees
  • We believe in supporting the health and wellbeing of our team, which is why we offer a competitive health benefits package
  • As a remote-first team, we believe in the importance of having the right set up, which is why we offer a home office budget
  • Learning and development is critical to us, which is why we have a self-directed learning budget
  • Stock option grants for full-time employees, promoting a sense of ownership.
  • Competitive health benefits package.

Our Hiring Process
  • Discover: You discover the opportunity and apply to the role
  • Talk: You take part in a 30-45 minute screening call with the Hiring Manager to chat about the role and the team.
  • Deep dive: We have a 60 minute call to dive deep into your experience and the role.
  • Meet your team: You have a video call with a few other Xaba team members.
  • Offer: You receive an offer to join Xaba!

Accommodations and Accessibility
Inclusion and equity are the cornerstones of how we recruit, hire, and develop talent. We encourage applications from all candidates, especially those who identify as members of the BIPOC community, LGBTQ++ community, women, caregivers, immigrants, and people living with disabilities. We encourage candidates to include any accommodations you require in your application. We look forward to hearing from you.
About Byte-Code SpA
As Italian hiring partner, Byte-Code is helping Xaba finding the best candidates. You can apply through our website: https://bytecode.recruitee.com/
Technical Expertise:
  • Working experience with industrial robot manipulators: ABB, FANUC, UR, KUKA, etc.
  • Demonstrated hands-on experience in designing, building and deploying robotic systems.
  • Practical knowledge of robotic fabrication processes, including welding, machining, assembling, or inspection.
  • Proficiency in both spoken and written English.

Nice to have:
  • Experience with SolidWorks, AutoCAD, CloudCompare.
  • Familiarity with robotic hardware components, sensors, actuators, lasers and cameras.
  • Knowledge of robotic programming languages: RAPID, URSCRIPT, KRL, etc.
  • Solid understanding of key robotic aspects: forward and inverse kinematics, jacobians, collision detection, path-planning, control theory.

Education:
  • Background in Industrial Robotics, Automation, or degree in Mechanical Engineering.

Apply