: Developers can receive processed radar video and manage clutter through gain, rain, and sea controls.
The unlocks a level of control that transforms a standard marine radar from a fixed-purpose device into a versatile sensor. Whether you are programming an autonomous vessel to avoid shipping lanes or integrating radar into a port’s security command center, the SDK provides the low-latency, high-fidelity data stream you need.
Compact, energy-efficient radomes ideal for a wide variety of vessel sizes. raymarine radar sdk
Raymarine is committed to ongoing development and improvement of the Radar SDK, with a roadmap that includes:
Training centers combine the SDK’s simulation mode with physical helm controls to create a low-cost radar simulator that mimics real Quantum or Cyclone behavior. : Developers can receive processed radar video and
series. By bypassing standard Multi-Function Displays (MFDs), developers can build bespoke control and display solutions for various applications: Real-Time Data Access
Developers building uncrewed surface vessels need to fuse radar with LIDAR and cameras. The Raymarine Radar SDK enables onboard edge computers (e.g., NVIDIA Jetson or Raspberry Pi 5) to ingest radar at 20–40 Hz, detect floating debris, and trigger collision avoidance maneuvers—all without a human-looking at a display. Compact, energy-efficient radomes ideal for a wide variety
Instead of implementing your own Kalman filter, the SDK can subscribe to Raymarine’s internal MARPA tracker. You receive a list of tracked targets with:
: High-performance open-array radars designed for superior target detection at ranges up to 96nm.