Senior Systems Analyst (Robotic Algorithms and Controls)

About The Position

Requirements

• Master’s degree in Computer Science, Electrical Engineering or Mechanical Engineering, or similar technical field, with 5 years of experience in control systems, servo control, or robotics. Alternatively, a Ph.D. degree in one of the technical fields above, with 3 years of experience.
• Expert knowledge of robotics and motion‑control concepts, including kinematic/dynamic modeling and system identification.
• Expertise in position, force, and impedance control of robotic manipulators.
• Familiarity with control of compliant and flexible systems.
• Experience implementing, tuning, and diagnosing real-time servo‑control systems.
• Strong proficiency in C/C++ for real‑time control‑algorithm development.
• Proficiency in Python or MATLAB for analysis, simulation, and testing.
• Strong analytical and debugging skills for embedded software and electromechanical systems.
• Excellent written and verbal communication skills, with the ability to tailor the communication to a broad range of audiences.
• Effective cross‑functional teamwork and strong interpersonal skills.

Nice To Haves

• Experience in all phases of the product development lifecycle including design, implementation, debug, verification, validation, and transfer to manufacturing.
• Experience designing software products in a regulated industry or for mission critical applications; comfort with concepts of design input, design output, traceability, risk analysis, and mitigations.
• Familiarity with IEC 62304 and software life cycle processes for medical devices.
• Experience with Embedded Linux, or QNX, FreeRTOS or similar operating systems; experience with bare metal designs.
• Hands-on prototyping with rapid development tools (e.g., Arduino, STM32).
• Software development for multi-processor/multi-core systems.
• Fluent with version control tools and build systems.
• Hands-on engineering experience with proven ability to work effectively in a team environment.

Responsibilities

• Design, develop, and implement motion‑control and tele‑operation algorithms for next‑generation surgical robotic systems and instruments.
• Contribute to the architectural definition of the robotic control system, leveraging real‑time and event‑driven algorithms to achieve complex system behaviors.
• Participate in all phases of the Design Controls process by identifying system requirements and converting them into safe, verifiable designs.
• Lead the design, implementation and testing of safety‑critical and fault‑detection algorithms.
• Lead the electro‑mechanical and software integration of new prototypes, providing analytical and algorithmic guidance to hardware and software teams.
• Methodically refine and improve system performance throughout maturation from prototype to production, by planning and prioritizing the development on a quarterly and annual basis.
• Diligently document innovative contributions, generating and protecting intellectual property.