Computer Vision Engineer – Autonomy & Perception
TLDR
Design and deploy perception and vision systems for autonomous aerial platforms, enabling safe navigation, object tracking, and sensor fusion across GPS-denied environments.
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Perception & Computer Vision: Design and develop perception systems for autonomous aerial platforms operating in GPS-denied and contested environments; implement object detection, classification, segmentation, and tracking algorithms using RGB, thermal, and multimodal sensor data; develop visual perception pipelines for obstacle detection, collision avoidance, and situational awareness; build scene understanding capabilities to support autonomous navigation and mission execution; evaluate and integrate state-of-the-art computer vision and AI techniques into operational systems.
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Visual Navigation & Localization: Develop visual-inertial odometry, localization, and mapping algorithms; implement vision-based navigation solutions for degraded and GPS-denied environments; support SLAM and feature-based localization systems; design robust estimation methods that fuse camera, IMU, GPS, lidar, and radar data; improve navigation performance through sensor fusion and environmental awareness.
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Machine Learning & AI: Develop, train, and deploy deep learning models for onboard perception; create data processing, labeling, augmentation, and evaluation pipelines; optimize neural networks for real-time inference on embedded computing platforms; analyze model performance and improve robustness across operational conditions; support deployment of perception models on edge AI hardware.
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Camera Systems & Sensor Integration: Integrate and evaluate diverse imaging systems including RGB, stereo, fisheye, thermal, and event-based cameras; develop camera calibration workflows and sensor characterization procedures; support multi-camera synchronization and calibration efforts; improve image quality, calibration accuracy, and perception system reliability; collaborate with hardware teams to evaluate and integrate emerging sensor technologies.
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Testing & Validation: Develop simulation and testing frameworks for perception algorithms; support software-in-the-loop, hardware-in-the-loop, and flight testing activities; analyze flight data to identify performance gaps and improve perception robustness; establish metrics and validation procedures for autonomous perception systems; document system performance and support field deployments.
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Education: Bachelor's degree in Computer Science, Robotics, Electrical Engineering, Aerospace Engineering, or a related technical field.
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Experience: 2–4 years of industry experience in computer vision, robotics, machine learning, or autonomous systems OR Master's degree with 1–2 years of industry experience.
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Strong proficiency in C++, Python, or Rust.
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Experience with OpenCV and modern computer vision frameworks.
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Experience developing perception systems using PyTorch, TensorFlow, or similar machine learning frameworks.
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Strong understanding of image processing, geometric vision, and camera systems.
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Experience with object detection, tracking, segmentation, and machine learning-based perception algorithms.
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Familiarity with sensor fusion and state estimation techniques.
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Experience with ROS/ROS2 or similar robotics middleware.
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Experience developing software in Linux environments.
Benefits
Health Insurance
comprehensive benefits package, including medical, dental, vision, and 401k plans.
Pivotal is at the forefront of the electric Vertical Takeoff and Landing (eVTOL) aircraft market, designing and manufacturing innovative aircraft like the BlackFly. Our products cater to a diverse range of applications, including consumer, public service, and defense, distinguished by a unique tilt-aircraft architecture that enables versatile and efficient operation. With the introduction of our next-generation aircraft, Helix, we are poised for scalable production and a significant impact in the evolving landscape of mobility.
- Industry
- Aerospace & Defense