Senior / Staff Robotics and Controls Engineer

Job Description

Job DescriptionReports to: Manager of Robotics and Controls Workplace Type: Hybrid (onsite average of 3 days/week in Santa Cruz and the
new Bay Area office near West Menlo Park).

At Capstan Medical, we’re building one of the most exciting and innovative companies in medtech—developing a first-of-its-kind robotic platform for minimally invasive heart valve treatment. Our team combines surgical robotics, catheter-based delivery, and next-generation implants to transform complex procedures into safer, lower-stress solutions for patients and clinicians alike. As a highly collaborative, hands-on team, we move fast, wear multiple hats, and believe the best ideas can come from anyone.

Based in Santa Cruz, our unique workspace blends cutting-edge Bay Area innovation with a lifestyle-driven environment near trails, beaches, and open space—creating the perfect place to do meaningful, career-defining work.

What You’ll Do:

• Design, implement, and verify robotic control algorithms for Capstan's
  catheter-based surgical platform — kinematics, dynamics, teleoperation,
  and motion control.
• Develop forward and inverse kinematic models for continuum and tendon-
  driven mechanisms, and validate them against real-world data.
• Build trajectory engines, drive modes, and constraint-aware motion
  algorithms that translate surgeon intent into safe, precise catheter motion.
• Design and execute characterization studies on actuators, tendon
  transmissions, and full system performance; translate experimental results
  into models, parameters, and acceptance criteria.
• Define algorithm-level performance specifications and hazard-driven fault
  detection thresholds; partner with Systems and Quality to support design
  verification and regulatory submissions
• Translate clinical and user needs into design requirements, prototype
  rapidly on real hardware, and carry features through verification to
  product launch
• Drive technical direction for path planning, catheter control, or robotics
  algorithms across multiple hardware programs (increased level of
  architectural ownership and cross-program scope for Staff)
• Mentor engineers on the team, lead design reviews, and contribute to
  hiring and onboarding (increased level of mentorship for Staff)
• Document your work through design reviews and released DHF
  documentation, and identify gaps and pitch in as needed to keep the team
  moving

Strongly Preferred:

• Strong foundation in robot kinematics and dynamics - forward/inverse kinematics, Jacobians, rigid-body dynamics, and ideally continuum, concentric tube, or tendon-driven systems
• Fluent with classical and modern control -- PID, feedforward, model-based, optimal/MPC, impedance/admittance -- and the judgment to know when each is appropriate
• Hands-on experience implementing control algorithms in modern C++ (14/17/20) for real-time, safety-critical systems, with Python for rapid prototyping, data analysis, and tooling
• Motion planning and trajectory generation experience — constrained nonlinear optimization, collision-aware planning, or task-space control paradigms
• State estimation and sensor fusion experience — Kalman/EKF/UKF, particle filters, or nonlinear observers, with a working understanding of noise models and sensor calibration
• Comfortable characterizing real electromechanical systems on the bench; you can design the experiment, run it, analyze the data, and turn it into a model.
• Close-to-hardware sensibility: encoders, motor controllers, force sensors, brakes, IMUs -- you understand the gap between textbook systems and real ones
• Strong object-oriented design instincts, with the discipline to factor algorithm code so it can be unit-tested, reviewed, and maintained as the team scales
• Medical robotics or safety-critical systems background -- you know why "it works in sim" or "it works most of the time" isn't good enough
• Understanding of how early design decisions cascade into downstream cost; ability to make smart calls on clinical workflow, regulation, and risk management to save time and effort later

Requirements:

• BS/MS in Robotics, Mechanical Engineering, Electrical Engineering, Computer Science, or equivalent; MS or PhD preferred
• 5+ years (Senior) or 8+ years (Staff) of hands-on robotics or controls development; PhD with directly relevant research or projects can offset some industry experience
• Track record of shipping robotic control algorithms in real production systems, ideally end-to-end from concept to production, IDE/clinical use, or FDA-cleared product
• Experience navigating ambiguity in early- and mid-stage development while delivering concrete, testable results
• Experience with medical device development process — design control, risk management, design verification — or equivalent experience in another safety-critical regulated domain
• Demonstrated ability to derive math from first principles and implement it in working code; we want the whiteboard and the IDE in the same person
• Strong written and verbal communication, meaning that you can write a clear design doc, defend a design review, and explain a controller to a non-controls engineer
• Comfortable working hands-on in a lab environment alongside hardware, benchtop fixtures, animals (preclinical), and clinicians
• Ability to work in a hybrid work environment, working onsite an average of 3 days a week, in a mix of our Santa Cruz HQ and our new Bay Area office near West Menlo Park.

Bonus

• Flexible robotics experience -- concentric tube robots, tendon-driven, soft, or other compliant manipulators
• Surgical robotics or another regulated, safety-critical robotics background
• Sensing, electromagnetic tracking, or other catheter-tip localization experience
• Experience integrating fluoroscopy, ultrasound, or CT imaging into robotic guidance, registration, or visual servoing
• ROS1 or ROS2 experience in production systems, with an understanding of its real-time tradeoffs
• Working knowledge of regulatory standards (FDA, IEC 62304, ISO 14971, IEC 60601) and how they shape algorithm and architecture decisions
• Experience with simulation environments (Drake, MuJoCo, Isaac Sim, or custom) for development, regression, and verification
• Familiarity with QNX or real-time Linux: you don't have to own the stack, but you should understand the constraints it places on your algorithms
• Track record of technical leadership and mentorship at a comparable medical robotics or capital equipment company

We are an equal opportunity employer. All qualified applicants will receive consideration for employment without regard to race, color, religion, national origin, sex, sexual orientation, gender identity, veteran status, and disability, or other legally protected status.

We may use artificial intelligence (AI) tools to support parts of the hiring process, such as reviewing applications, analyzing resumes, or assessing responses and identifying potential inconsistencies or verification signals in application materials based on available information. These tools assist our recruitment team but do not replace human judgment. Final hiring decisions are ultimately made by humans. If you would like more information about how your data is processed, please contact us.