Robotics Software Engineer Jobs

Robotics software engineer roles focus on building and improving the autonomy stack for logistics robotics—fleet orchestration, perception, navigation, motion planning, and safety—to move goods through warehouses and distribution centers. On Rex.zone, you will find Remote, full-time robotics software engineering jobs supporting real-world AMR/AGV workflows, simulation-to-real deployment, and performance evaluation in production environments. This role connects software engineering to robotics testing pipelines, QA evaluation, and continuous improvement of robot behavior using telemetry, log analysis, and data-driven iteration. Explore Rex.zone to apply, compare openings, and navigate logistics robotics jobs across AI labs, tech startups, and enterprise automation teams.

Job Image

Robotics Software Engineer Jobs — LinkedIn Job Metadata

Title: Robotics Software Engineer Jobs | Date: 25-02-2026 | Company: Rexzone | Country: US | Remote Type: Remote | Employment Type: FULL_TIME | Experience Level: Mid-Senior | Industry: Technology | Job Function: Engineering | Skills: ROS2, C++, Python, Navigation, SLAM, Motion Planning, Perception, Sensor Fusion, Computer Vision, LiDAR, Path Planning, Controls, Simulation, Gazebo, Isaac Sim, Fleet Management, Warehouse Automation, AMR, AGV, CI/CD, Linux, Docker, Kubernetes, Edge Computing, Safety, Testing, QA Evaluation, Log Analysis, Telemetry | Salary Currency: USD | Salary Min: 63360 | Salary Max: 126720 | Pay Period: YEAR

About the Role

You will design, implement, and maintain robotics software for logistics robotics systems used in warehouse automation, including AMRs/AGVs and fleet management services. The work spans robot autonomy components (perception, localization, SLAM, navigation, motion planning), integration with sensors (LiDAR, cameras, IMU), and production-grade tooling for deployment, monitoring, and incident response. You will collaborate with hardware, QA, and operations stakeholders to translate real-world constraints (safety zones, traffic rules, throughput goals) into robust robot behaviors and measurable performance outcomes.

Key Responsibilities

Own features across the robot software stack, including ROS2 nodes, planning modules, and middleware integrations. Build and tune navigation and motion planning to handle dynamic obstacles, narrow aisles, and high-traffic warehouse lanes. Develop perception and sensor fusion pipelines using camera and LiDAR data for obstacle detection, tracking, and map updates. Create evaluation workflows for autonomy performance using simulation, replay, and offline log analysis (telemetry, bag files, traces). Improve training-data-like robotics datasets for perception QA and scenario coverage (edge cases, rare events, safety-critical sequences). Implement testing strategies: unit tests, integration tests, simulation tests, and regression suites for field releases. Collaborate with fleet operations to investigate incidents, reduce failure rates, and improve mean time to recovery through better diagnostics and tooling. Contribute to release engineering with CI/CD, containerization, and remote deployment practices suitable for edge robots.

Required Qualifications

Mid-senior experience shipping production software in robotics, autonomy, or embedded/edge systems. Strong C++ and Python skills for performance-critical robotics modules and tooling. Hands-on experience with ROS2 (or ROS) concepts including TF, nav stack patterns, message passing, and lifecycle management. Practical understanding of localization/SLAM, path planning, and motion control in real environments. Experience working with sensors such as LiDAR, depth cameras, stereo cameras, IMU, and wheel odometry. Comfort with Linux, debugging (gdb, perf), and distributed systems basics for robot-to-cloud connectivity.

Preferred Qualifications

Experience with logistics robotics, warehouse automation, or fleet management at scale. Familiarity with simulation-to-real workflows using Gazebo, Isaac Sim, or similar simulators. Computer vision and perception background (feature extraction, detection, tracking, calibration) and dataset QA evaluation for perception robustness. Experience building metrics such as route efficiency, throughput impact, safety stop rate, intervention rate, and localization drift. Exposure to safety standards and practices for autonomous mobile robots, including risk assessment and fail-safe design. Experience with cloud-native tooling (Docker, Kubernetes) for remote fleet services and monitoring.

Tools and Tech Stack

Common stacks include ROS2, C++, Python, Linux, Git, CI/CD, Docker, and telemetry pipelines for log ingestion and analysis. Autonomy modules may use SLAM and navigation libraries, perception frameworks, computer vision toolkits, and sensor drivers for LiDAR and cameras. Simulation and evaluation often involve scenario generation, playback/replay harnesses, regression testing, and KPI dashboards that connect robot behavior to warehouse performance.

What Success Looks Like

You ship reliable autonomy improvements that reduce interventions, increase uptime, and improve throughput without compromising safety. You build repeatable evaluation pipelines that catch regressions before deployment and expand scenario coverage across edge cases. You partner effectively across hardware, QA, and operations to turn field feedback into measurable software improvements.

Remote Work and Collaboration

This is a Remote, full-time role with collaboration across time zones as needed. You will participate in structured code reviews, design reviews, incident postmortems, and release planning. Remote work does not reduce rigor: changes are validated through testing, simulation, and data-driven evaluation prior to production rollouts.

How to Apply on Rex.zone

Search Rex.zone for Robotics Software Engineer Jobs and Logistics Robotics Jobs, review requirements and compensation ranges, and apply to matching Remote and full-time roles. Keep a portfolio of relevant projects (navigation, SLAM, perception, fleet tools), links to repos where appropriate, and brief write-ups of production impact (metrics, reliability gains, safety outcomes).

Frequently Asked Questions

  • Q: What does a Robotics Software Engineer do in logistics robotics?

    They build and improve the robot autonomy stack used in warehouses and distribution centers—navigation, SLAM/localization, motion planning, perception, sensor fusion, and fleet orchestration—so AMRs/AGVs can move inventory safely and efficiently.

  • Q: Is this role Remote and full-time?

    Yes. The job metadata lists Remote Type: Remote and Employment Type: FULL_TIME, and the workflow is designed for remote collaboration with strong testing and evaluation practices.

  • Q: Which skills are most important for Robotics Software Engineer Jobs?

    ROS2, C++, Python, navigation, SLAM, motion planning, perception, sensor fusion, computer vision, LiDAR integration, Linux, testing/QA evaluation, simulation, and telemetry-based debugging are core skills for logistics robotics roles.

  • Q: Do I need warehouse automation experience?

    It is preferred but not always required. Strong autonomy fundamentals, production software experience, and a track record of debugging real-world robotic systems can be sufficient, especially if you have navigation/perception projects and solid evaluation practices.

  • Q: How are robotics features evaluated before deployment?

    Teams typically use simulation, scenario-based tests, offline log replay, regression suites, and KPI tracking (intervention rate, safety stop rate, localization drift, path efficiency) to verify behavior and prevent regressions.

  • Q: What kinds of employers hire for Logistics Robotics Jobs on Rex.zone?

    Common employer types include tech startups building AMRs, enterprise warehouse automation teams, robotics integrators, and AI/robotics labs focused on autonomy and perception.

  • Q: What salary range is shown for this posting?

    The metadata lists a yearly salary range in USD with Salary Min: 63360 and Salary Max: 126720, subject to role scope, location rules, and candidate experience.

  • Q: What should I include in my application for Robotics Software Engineer Jobs?

    Include a resume highlighting ROS2/C++/Python and shipped autonomy work, plus brief project summaries with measurable outcomes (reliability, safety, throughput). If possible, add links to code samples, demos, simulation setups, or technical write-ups relevant to navigation, SLAM, perception, and fleet tooling.

230+Domains Covered
120K+PhD, Specialist, Experts Onboarded
50+Countries Represented

Industry-Leading Compensation

We believe exceptional intelligence deserves exceptional pay. Our platform consistently offers rates above the industry average, rewarding experts for their true value and real impact on frontier AI. Here, your expertise isn't just appreciated - it's properly compensated.

Work Remotely, Work Freely

No office. No commute. No constraints. Our fully remote workflow gives experts complete flexibility to work at their own pace, from any country, any time zone. You focus on meaningful tasks - we handle the rest.

Respect at the Core of Everything

AI trainers are the heart of our company. We treat every expert with trust, humanity, and genuine appreciation. From personalized support to transparent communication, we build long-term relationships rooted in respect and care.

Ready to Shape the Future of Logistics Robotics Jobs?

Apply Now.