QA Automation Engineer (Robotics )

Role Overview

Key Responsibilities

Test Framework Development

• Python for rapid prototyping, iterative testing, and quick feature validation
• C++ for high-performance testing, production validation, and resource-critical scenarios
• Develop comprehensive testing strategies covering unit, integration, and system-level testing
• Create and maintain test automation frameworks leveraging rostest with unittest (Python) and gtest (C++)
• Implement continuous integration/continuous deployment (CI/CD) pipelines for robotics applications
• Optimize test execution for both development speed (Python) and production performance (C++)

Industrial Robotics Testing

• Conduct thorough testing of industrial robot applications including pick-and-place, welding, painting, assembly, and material handling operations
• Validate robot safety systems, emergency stops, and fail-safe mechanisms
• Test robot performance under various environmental conditions and operational scenarios
• Perform regression testing to ensure software updates don't introduce new issues

ROS Ecosystem Expertise

• rostest for ROS node-level integration testing
• unittest (Python) for library-level testing and rapid prototyping validation
• gtest (C++) for high-performance library testing and production code validation
• MoveIt2 for motion planning validation and manipulation testing
• Navigation2 (Nav2) for autonomous navigation and path planning testing
• RViz for visual testing, debugging, and validation of robot states and sensor data

• Develop integration tests for ROS nodes, services, and communication interfaces with emphasis on message rate performance and latency validation
• Test robot perception, navigation, manipulation, and control systems across different performance requirements
• Validate ROS message passing, parameter handling, and node lifecycle management in both development and production contexts
• Test motion planning algorithms, trajectory execution, and collision detection systems using MoveIt2
• Validate autonomous navigation capabilities, obstacle avoidance, and localization using Navigation2

Simulation & Hardware Testing

• Design and execute tests in simulation environments (Gazebo, Isaac Sim, Unity)
• Coordinate hardware-in-the-loop (HIL) testing with physical robotic systems
• Develop mock nodes and test fixtures for isolated component testing
• Create realistic test scenarios that mirror real-world industrial environments
• Utilize RViz for visual validation and debugging of simulation environments

Quality Assurance & Reporting

• Establish quality metrics and KPIs for robotic system reliability
• Generate comprehensive test reports and documentation
• Collaborate with development teams to identify and resolve defects
• Maintain test case libraries and ensure test coverage across all system components

Required Qualifications

Technical Skills

• 3+ years of experience in robotics testing or quality assurance
• Proficiency in ROS/ROS2 with hands-on experience in industrial robotics applications
• Strong programming skills in Python (for rapid prototyping and iterative testing) and C++ (for high-performance, production-level testing)
• Deep understanding of ROS testing ecosystem:
• Python unittest framework for Python-based testing
• Google Test (gtest) framework for C++ testing
• rostest for ROS node-level integration testing (combining with unittest/gtest)
• Motion Planning & Navigation:
• Experience with MoveIt2 for robot arm manipulation and motion planning testing
• Knowledge of Navigation2 (Nav2) for mobile robot navigation and autonomous movement validation
• Understanding of SLAM, localization, and path planning algorithms
• Visualization & Debugging:
• Proficiency with RViz for robot state visualization and debugging
• Experience in visual validation of sensor data, transforms, and robot configurations
• Knowledge of simulation tools: Gazebo, Unity, NVIDIA Isaac Sim
• Familiarity with ROS-Industrial packages and industrial robot programming

Testing Expertise

• Experience designing test strategies that leverage both Python (for fast iteration/prototyping) and C++ (for performance-critical validation)
• Understanding of when to use each language: Python for rapid testing and debugging, C++ for high-throughput message handling and resource-intensive scenarios
• Knowledge of ROS performance testing methodologies, including message rate benchmarking and latency validation
• Experience with test automation frameworks and CI/CD pipelines
• Knowledge of behavior-driven development (BDD) and test-driven development (TDD)
• Understanding of various testing methodologies: unit, integration, system, regression, and performance testing
• Experience with property-based testing and mutation testing approaches
• Proficiency in test case design, test data management, and defect tracking

Industrial Domain Knowledge

• Understanding of industrial automation processes and safety standards
• Experience with industrial robot applications (manufacturing, assembly, material handling)
• Knowledge of robotics safety protocols and compliance requirements
• Familiarity with PLC integration and industrial communication protocols

Tools & Technologies

• Version control systems: Git, GitHub/GitLab
• Build systems: catkin, ament, CMake
• Containerization technologies: Docker, Kubernetes
• Cloud platforms for testing: AWS RoboMaker, Azure, GCP
• Test management and reporting tools

Preferred Qualifications

• Master's degree in Robotics, Computer Science, or related field
• Experience with Robot Framework for test automation
• Deep understanding of ROS performance characteristics and when to choose Python vs C++ for different testing scenarios
• Knowledge of pyrostest and other advanced ROS testing libraries
• Familiarity with launch_testing framework for ROS2
• Experience with hardware-in-the-loop testing setups
• Understanding of sensor integration and calibration testing
• Knowledge of motion planning algorithms and their validation
• Experience with performance benchmarking, message throughput testing, and latency optimization
• Experience with energy efficiency testing and computational resource optimization
• Familiarity with safety standards (ISO 10218, ISO/TS 15066)
• Experience with MoveIt Studio for advanced motion planning workflows
• Knowledge of SLAM Toolbox for simultaneous localization and mapping