Computer Vision Engineer

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Develop and optimize perception algorithms for UAV platforms. Focuses on real-time detection, classification,
tracking, vision-based pose estimation, EO/IR sensor fusion, and edge deployment under strict latency, power, and
memory constraints in safety-critical, defense-grade environments.

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Computer Vision & Perception:
- Design and implement real-time object detection, classification, multi-target tracking, and change detection for
autonomous UAV operations, including high-altitude ground target detection, camouflage, and foliage
occlusion.
- Optimize deep learning models (YOLO, transformers, CNNs, or proprietary architectures) for edge deployment
on embedded platforms (NVIDIA Jetson, Qualcomm RB5) under strict latency, power, and memory budgets.
- Develop vision-based pose estimation, optical flow, and feature tracking pipelines for mission-critical
applications.
- Implement camera calibration routines and multi-camera rig setups for stereo and wide-baseline
configurations.

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Sensor Fusion for Perception:
- Develop sensor fusion pipelines combining EO/IR (thermal/FLIR), depth, and RF data to produce robust
environment representations across day/night and degraded conditions.
- Implement probabilistic fusion approaches (complementary filters, tightly-coupled vision-IMU) to maintain
perception reliability under low light, motion blur, and occlusion.

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Integration & Validation:
- Integrate perception pipelines with ROS2-based software stacks and companion computers (Jetson, RB5).
- Benchmark algorithms in simulation (Gazebo, MATLAB/Simulink) and HIL/HITL testbeds; validate through
field trials.
- Measure and report KPIs (detection accuracy, latency, false-positive rate, robustness under environmental
variation) and iterate on improvements.
- Document algorithm designs, performance characteristics, and integration interfaces; support certification efforts.

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Required Qualifications & Experience:
- Master's or PhD in Computer Science, Electrical Engineering, Robotics, or related field.
- 3+ years developing computer vision algorithms for real-world autonomous systems (UAVs, robotics, or
autonomous vehicles).

- Proven expertise in object detection, tracking, feature extraction, visual odometry, and camera calibration.
- Proficiency in C++ and C (OpenCV, Eigen) and Python (NumPy, SciPy, scikit-learn, scikit-image).
- Hands-on experience with detection and segmentation frameworks (YOLOv8+, Detectron2, MMDetection,
Mask R-CNN, U-Net).
- Advanced use of PyTorch, TensorFlow/Keras, and ONNX for model training and export.
- Experience deploying and optimizing models on embedded platforms (Jetson, Qualcomm RB5, ARM).
- Experience with EO/IR sensor stacks: thermal (FLIR/uncooled) camera integration, NUC calibration, and
thermal-domain object detection.
- Strong mathematical foundation in linear algebra, probability theory, and optimization.
- Solid version control practices (Git/GitLab) and dataset/model management (DVC or equivalent).
- English: Upper Intermediate or higher.
- Good communication skills and ability to cooperate with adjacent engineering teams.
- National from a NATO member country or one of the following NATO Indo-Pacific partners: Australia, Japan,
South Korea, New Zealand or Ukraine.

- Free criminal record

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Preferred Qualifications & Experience:
- Proficiency in ROS2: node development, sensor integration, message pipelines.
- Experience with edge AI optimization: quantization, pruning, model compression for TensorRT, ONNX
Runtime, OpenVINO.
- Familiarity with annotation platforms (Label Studio, Labelbox) and experiment tracking tools (MLflow,
Neptune.ai, TensorBoard).
- Knowledge of tightly-coupled vision-IMU fusion (VINS-Mono, Kimera) for perception-side pose estimation.
- Familiarity with safety-critical standards: DO-178C (avionics software), MISRA C/C++ coding guidelines,
STANAG 4671 (UAV airworthiness) as applied to perception pipelines used in flight-critical decisions.
- Track record of publication at CVPR, ICRA, IROS, or IEEE Transactions, or contributions to open-source CV repositories.

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