Image sensor board design – low-noise, precision analog and digital design with high-speed serial links
Integration of a broad range of CMOS focal plane arrays, and CMOS/CCD linear arrays, as well as proprietary sensor technologies
Low-noise, low-light image intensifier tube (IIT) digital (CMOS FPA) imaging systems for night vision
Digital image fusion system using VIS-NIR, MWIR and LWIR imagers for situational awareness and ADAS
High-speed OLED display interface
Image Processing Platforms
FPGA
GPU
NNP (neural network processor)
SIMD (single instruction multiple data); for example, ARM NEON
Real-Time Image Processing
Anti-aliasing/edge-enhancement
Color transform/correction
Screening/halftoning
Gamma and contrast adjustment/correction
Automatic gain/exposure correction
High-dynamic-range image processing
Gamma and color correction
Graphics overlay
Image zoom/pan/rotation
Advanced Design Experience
Pixel-level and image sensor-level characterization and performance analysis
Defect-variation image correction
Alternate-color-filter implementation and color-processing algorithms for low-light color sensing
Pixel-level image correction for sensor dark frame variation
Pixel-level image correction for linear output
Computer-vision algorithm development, including deep analysis of imagery and video and feature set development for surfacing of actionable intelligence
Complex pixel reordering for fast lookup operations requiring DDR, QDR, and RLDRAM memories
Linear and logarithmic high-dynamic range hardware designs and software / firmware algorithms for capture and display
FPGA-based H.264 compression cores
False color, Laplacian pyramid fusion system
Proprietary lossy and lossless compression algorithms
GStreamer pipeline and plugin development
X-ray image sensor interface and image processing
High-speed image capture and output interfaces (160 Gbit/s)
Proprietary compact JPEG encoder/decoder in FPGA
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