1

Graduate Robotics Engineer Jobs in California (NOW HIRING)

Its robots are engineered to perform a variety of tasks in the home and commercial markets. Figure ... Bachelor's or graduate degree in Electrical Engineering or related field. * Experience with Altium ...

The Role We're looking for an AI Engineer to join the Fury Orchestration Team with a deep passion ... Advanced graduate research in AI, robotics, or machine learning is a plus. * Bonus: Experience ...

Its robots are engineered to perform a variety of tasks in the home and commercial markets. Figure ... Bachelor or graduate degree in Electrical Engineering or related field * 2+ years of industry ...

Its robots are engineered to perform a variety of tasks in the home and commercial markets. Figure ... Bachelor or graduate degree in Electrical Engineering or related field * 2+ years of industry ...

Its robots are engineered to perform a variety of tasks in the home and commercial markets. Figure ... Bachelor or graduate degree in Electrical Engineering or related field * 2+ years of industry ...

next page

Showing results 1-20

Graduate Robotics Engineer information

See California salary details

$28.6K

$104.2K

$166.8K

How much do graduate robotics engineer jobs pay per year?

As of Jul 13, 2026, the average yearly pay for graduate robotics engineer in California is $104,222.00, according to ZipRecruiter salary data. Most workers in this role earn between $82,400.00 and $125,300.00 per year, depending on experience, location, and employer.

What engineers make $300,000 a year?

Senior engineers in specialized fields such as software engineering, petroleum engineering, and aerospace engineering can earn $300,000 or more annually, especially with extensive experience, advanced skills, and leadership roles. High compensation often involves working in high-demand industries, holding managerial positions, or possessing rare expertise and certifications.

What can I do with a robotics engineering degree?

A robotics engineering degree prepares individuals for roles such as robotics engineer, automation engineer, or control systems engineer, involving designing, developing, and testing robotic systems. Graduates often work in industries like manufacturing, aerospace, healthcare, or research, utilizing skills in programming, mechanical design, and electronics. Certifications in programming languages or robotics platforms can enhance job prospects, and hands-on experience with tools like CAD software or embedded systems is valuable.

Is robotics a dead field?

Robotics is an active and growing field with ongoing advancements in automation, AI integration, and sensor technologies. Robotics engineers are in demand across industries such as manufacturing, healthcare, and research, requiring skills in programming, control systems, and hardware design.

What engineer makes $500,000 a year?

Highly experienced engineers in specialized fields such as aerospace, petroleum, or certain senior executive roles in engineering companies can earn $500,000 or more annually. These positions often require advanced skills, extensive experience, and leadership responsibilities, and may include bonuses or profit sharing.

What are the key skills and qualifications needed to thrive in the Graduate Robotics Engineer position, and why are they important?

To thrive as a Graduate Robotics Engineer, you need a solid understanding of robotics principles, programming (such as Python or C++), and engineering fundamentals, typically backed by a relevant engineering degree. Familiarity with industry tools like ROS (Robot Operating System), CAD software, and experience with embedded systems or hardware prototyping is highly valuable. Strong problem-solving abilities, a collaborative mindset, and effective communication skills make candidates stand out in multidisciplinary teams. These skills are crucial for efficiently developing, testing, and deploying robotic solutions in dynamic and innovative workplace settings.

What kinds of projects and technologies do Graduate Robotics Engineers typically work on?

Graduate Robotics Engineers are often involved in designing, building, and testing robotic systems, which may include tasks like programming motion controls, integrating sensors, and troubleshooting hardware or software issues. Projects can range from developing autonomous vehicles and industrial automation systems to experimenting with AI-driven robotics in research environments. The technologies used may include robotic arms, mobile robots, embedded microcontrollers, and advanced simulation tools. Team members usually collaborate closely with mechanical, electrical, and software engineers, offering opportunities to learn from diverse specialties. This hands-on experience with modern robotics technologies provides a strong foundation for professional growth within the industry.

What is a Graduate Robotics Engineer job?

A Graduate Robotics Engineer is an entry-level role for recent graduates specializing in robotics, automation, or related fields. They assist in designing, developing, and testing robotic systems for various applications, including manufacturing, healthcare, and autonomous systems. Responsibilities typically include programming, circuit design, simulation, and hardware integration. They work closely with senior engineers to improve robotic performance and implement innovative technologies. This role provides hands-on experience and professional development for a career in robotics engineering.

What are the most commonly searched types of Graduate Robotics Engineer jobs in California? The most popular types of Graduate Robotics Engineer jobs in California are:
What job categories do people searching Graduate Robotics Engineer jobs in California look for? The top searched job categories for Graduate Robotics Engineer jobs in California are:
What cities in California are hiring for Graduate Robotics Engineer jobs? Cities in California with the most Graduate Robotics Engineer job openings:
NIWC - Graduate Student I - UAV/ Robotic Design, Development, and Integration Project (Task No. 43-0

NIWC - Graduate Student I - UAV/ Robotic Design, Development, and Integration Project (Task No. 43-0

San Diego State University Research Foundation

San Diego, CA • On-site

$22.84/hr

Full-time

Re-posted 11 days ago


San Diego State University rating

7.2

Company rating: 7.2 out of 10

Based on 14 frontline employees who took The Breakroom Quiz

343rd of 553 rated colleges and universities


Job description

The hourly rate for this position is $22.84 per hour for Graduate Student I and is non-negotiable.

This position is open until filled

Under direction, incumbents must have course work in the discipline requested on the task order Statement of Work.

This Statement of Work outlines the need for student services in the design, development, and integration of UAV and Robotic systems. The student will apply advanced engineering principles to develop UAV and Robotic prototypes, integrate UAV systems, and conduct performance assessments. The work involves using cutting-edge tools for unmanned system design, control systems development, sensor integration, and flight and field testing.

The RESTORE project aims to research and develop UAV systems and robotics capable of performing complex missions in various operational environments. This initiative is crucial to advancing unmanned capabilities within the Navy and DOD, ensuring that the systems developed are reliable, efficient, and meet operational requirements. The student will work closely with a multidisciplinary team to explore innovative unmanned solutions, focusing on both hardware and software components.


The student contractor shall provide analytical and technical support in the following areas as specified under individual task orders, to the work sponsor:

UAV/Robotic Design and Development:

  • Assist with the conceptual and detailed design of UAV airframes using CAD software.
  • Assist with the assembly, testing, and troubleshooting of UAV/Robotic prototypes.
  • Contribute to the development of autonomous flight control algorithms, including path planning, obstacle avoidance, and decision-making systems.
  • Support the integration of sensors and payloads into unmanned platforms, ensuring compatibility and optimized performance.
  • Assist with the development and testing of unmanned systems in simulated and real-world environments, including the setup of test protocols, data collection and analysis.
  • Participate in the design and implementation of ground control systems for UAV operation and monitoring.
  • Aid in the development of AI-based solutions for enhancing autonomy, including machine learning techniques for real-time decision making.
  • Assist in the development of communication systems for UAV-to-UAV and UAVto-ground station data transmission.
  • Develop and sustain software for UAV/Robotic control and mission planning, ensuring robust and secure operation.
  • Assist in ensuring UAV/Robotic compliance with relevant safety and regulatory standards.

Graduate Student 1: Under general direction, incumbents must be enrolled in a masters degree program related to the required discipline requested on the task order statement of work. Under general direction, incumbents must be enrolled in a masters degree program related to the required discipline requested on the task order statement of work.

Minimum Qualifications Requirements:

Graduate Level 1: Electrical Engineering, Computer Science, Aerospace Engineering, Mechanical Engineering, or related field with coursework or experience relevant to UAV design and development.

Desired Coursework and/or relevant work experience:

  • UAV Design and Development
  • Autonomous Systems
  • Control Systems Engineering
  • Robotics
  • AI and Machine Learning
  • Sensor Integration
  • Computer Vision
  • Embedded Systems
  • Power Systems

Additional Qualifications Desired:

  • Experience with CAD software for UAV design (e.g., SolidWorks, CATIA)
  • Proficiency in programming languages such as Python, C++, or MATLAB
  • Knowledge of AI/ML techniques applied to autonomy
  • Familiarity with UAV simulation tools (e.g., Gazebo, ROS)
  • Experience with UAV flight control systems and autopilot software (e.g., PX4, ArduPilot)
  • Experience in integrating hardware and software components into UAV systems
  • Experience with communication protocols for UAV systems (e.g., MAVLink)
  • Strong analytical and problem-solving skills
  • Ability to work independently and in team settings

ADDITIONAL APPLICANT INFORMATION:

  • This position will require the employee to obtain and maintain a DoD Secret security clearance.
  • The student will work at NIWC Pacific Old Town OT2 Room 1656. The student will be working primarily with Code 43170. Telework arrangements may be available, in compliance with NIWC protocols. In-person meetings may be required.
  • Due to the regulations established by the Department of Defense, only US Citizens may qualify.
  • This is a student position and is limited to working 20 hours per week.
  • This position will remain open until filled.
  • Candidate must reside in California and live within a commutable distance from SDSU at time of hire.
  • Job offer is contingent upon satisfactory clearance based on background check results (including a criminal record check).
  • San Diego State University Research Foundation is an equal opportunity employer. Consistent with California law and federal civil rights laws, SDSU Research Foundation provides equal opportunity in employment without unlawful discrimination or preferential treatment based on race, sex, color, ethnicity, or national origin or any other categories protected by federal or state law.  
  • Employment decisions are based on an individual’s qualifications as they relate to the job under consideration. Our commitment to equal opportunity means ensuring that every employee has equal access to resources and support. 
  • SDSU Research Foundation complies with Titles VI and VII of the Civil Rights Act of 1964, Title IX of the Education Amendments of 1972, the Americans with Disabilities Act (ADA), Section 504 of the Rehabilitation Act, the California Equity in Higher Education Act, California’s Proposition 209 (Art. I, Section 31 of the California Constitution), and other applicable state and federal anti-discrimination laws including grant or contract terms and conditions related to funded program activities. Further the SDSU Research Foundation maintains a Nondiscrimination Policy that prohibits discriminatory preferential treatment, segregation based on race or any other protected status, and all forms of unlawful discrimination, harassment, and retaliation in all programs, policies, and practices.  
  • SDSU Research Foundation makes all employment decisions including, but not limited to, applicant screening, hiring, promotion, demotion, compensation, benefits, disciplinary actions, and terminations on the basis of merit.

What San Diego State University employees say

Pay

Benefits

Hours and flexibility

Workplace

Get the full story on Breakroom