Sensor Systems Engineer-Federal

Field Ai
Irvine, US
On-siteCareer-pivot friendly

Who this role is best for

Best suited to mid-level engineers with hands-on sensor experience and systems thinking, working in robotics and field environments.

Best fit for

  • Engineers with hands-on experience integrating diverse sensors like LiDAR and IMUs.
    — “Hands-on work with perception sensors such as LiDAR, depth cameras, IMUs, GPS.
  • Candidates comfortable with cross-functional collaboration across hardware and software teams.
    — “Cross-functional collaboration experience across electrical, mechanical, and software teams.
  • Individuals skilled in sensor calibration and performance characterization under real-world conditions.
    — “Experience designing and executing intrinsic, extrinsic, and temporal calibrations.

Things to consider

  • Role involves working in harsh field environments with ruggedized robots.
    — “Experience developing systems for harsh field environments.
  • Expect to contribute across all hardware domains despite sensor focus.
    — “While your focus will be on sensors you will likely contribute across all hardware domains.

How to stand out

  • Highlight experience scaling sensor systems from prototype to production.
    — “Experience taking systems from prototype to large scale production.
  • Emphasize real-world deployment experience in autonomous vehicles or drones.
    — “Experience working on robotics deployed in real world settings such as autonomous vehicles, drones, or ruggedized robots.
  • Showcase fluency in both hardware and software aspects of robotics.
    — “Fluency across software, electrical, and mechanical systems.
Pace · Fast PacedCollaboration · HighAutonomy · MediumDecision Impact · TeamLevel · Senior

Derived from job-description analysis by Serendipath's career intelligence engine.

What success looks like

  • Designed and integrated sensing systems
  • Calibrated sensors for optimal performance
Typical background
Bachelor's degree in Electrical Engineering, Mechanical Engineering, or Computer Science

Skills & requirements

Required

Sensor IntegrationElectrical EngineeringMechanical EngineeringSoftware EngineeringRobotics

Preferred

LidarDepth CamerasImusGPSROS

Stack & domain

LidarDepth CamerasImusGpsRosPythonRCommunicationProject ManagementSelf-directed PrioritizationRoboticsSensor Systems

About the role

Original posting from Field Ai via Lever

Who are We?

Field AIis transforming how robots interact with the real world. We are building risk-aware, reliable, and field-ready AI systems that address the most complex challenges in robotics, unlocking the full potential of embodied intelligence. We go beyond typical data-driven approaches or pure transformer-based architectures, and are charting a new course, with already-globally-deployed solutions delivering real-world results and rapidly improving models through real-field applications.

Learn more at https://fieldai.com.

About the Job

At FieldAI, we build autonomous robotic systems that operate in demanding, real-world environments where tight integration between hardware and software is critical. We’re looking for a Sensor Systems Engineer to support system and component level design, integration, and validation for sensing systems on wheeled robotic platforms across both federal and commercial programs.

Sensor Systems Role:

As a Perception Systems Engineer on the Federal Team, you will contribute to the design, integration, calibration, and validation of the sensing and compute systems that underpin our autonomy stack. You will work with a diverse array of sensors—LiDARs, depth cameras, IMUs, GPS, and more—ensuring each one delivers accurate, time-synchronized, and spatially consistent data in a range of environments and operating conditions. You will collaborate closely with the autonomy, compute, electrical, and mechanical teams to build tightly integrated solutions ready for deployment in challenging field environments. Additionally, while your focus will be on sensors you will likely contribute across all hardware domains. 

What You Will Get To Do

  • Sensor System Design

Sensor Architecture: Work across hardware and software teams to define sensing requirements. Identity, test, and select sensors such as LiDARs, depth cameras, GPS, IMUs, ToF, and other devices.

Systems Integration: Integrate sensors with electrical (USB, Ethernet, I2C, CAN, GMSL), mechanical (mounts, jigs, isolation), and software (configurations, drivers, ROS nodes) systems. Ensuring power, thermal, and protocol compatibility.

Spatial Performance: Architect system to meet spatial sampling performance requirements including spatial coverage, range, resolution, and transform accuracy.

Temporal Performance: Implement and validate synchronization strategies, triggering schemes, timestamp encoding, and end-to-end latency minimization.

  • Sensor System Implementation

Performance Characterization: Evaluate sensor performance (spatial resolution, temporal drift, EMI noise, sync errors etc.). Test under real-world environmental conditions (vibration, lighting, moisture, temperature).

Calibration: Design and execute both intrinsic and extrinsic calibrations. Build alignment rigs and calibration boards as needed.

Optimization: Tune sensor configurations (exposure, gain, filtering, frame rate, etc.) and processing pipeline (filtering etc.)  for optimal performance

Documentation: Create timing diagrams, sensor maps, coordinate transforms, and maintain all configuration files, launch scripts, driver references, and firmware states.

  • Sensor System Production & Servicing

Build: Work with vendors to procure sensors. Develop QA checks for incoming units. Support payload integration and manufacturing at scale.

Debug: Conduct root cause analysis of sensor systems including issues across hardware and software boundaries.

Monitor: Develop protocols for monitoring the sensing system health, data quality, and calibration status during field deployments.

What You Have

Education: B.S., M.S. or Ph.D. in Robotics, Electrical Engineering, Engineering Physics, Physics, or a related field.

Experience Level: We are recruiting across a wide range of experience levels from entry level engineers to senior and staff engineers.

Hands-On Sensors Experience: Hands-on work with perception sensors such as LiDAR, depth cameras, IMUs, GPS.

Systems Thinking: Cross-functional collaboration experience across electrical, mechanical, and software teams.

Sensor Physics: Strong foundation in optics, signal processing, and electromagnetic wave propagation.

Lab Skills: Hands-on testing, calibration, and debugging skills (oscilloscopes, logs, vibration/thermal setups)

Communication Protocols: Experience with protocols such as USB, Ethernet, GMSL, CAN, I2C, and CSI.

Computer & Software: Experience working with ROS/ROS2, sensor drivers, coordinate transforms (TF), and timing protocols (PTP, NTP, etc.).

Timing & Triggers: Experience with timestamping, synchronization, triggering, and latency constraints.

Calibration & Characterization: Experience designing and executing intrinsic, extrinsic, and temporal calibrations, along with sensor characterization under real-world environmental conditions.

Simulation: Experience high-fidelity simulation environments (Gazebo, Isaac Sim, RViz) for sensor modeling.

What Will Set You Apart

Scaling: Experience taking systems from prototype to large scale production.

Field Environments: Experience developing systems for harsh field environments.

Deployed Robotics: Experience working on robotics deployed in real world settings such as autonomous vehicles, drones, or ruggedized robots.

Systems Level Robotics: Fluency across software, electrical, and mechanical systems.

Autonomy Software: Knowledge of autonomy stacks used in robotics. As well as how sensor performance impacts autonomy algorithms.

Source: Field Ai careers (Lever)

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