MDANM: Multi‑Dimensional Ambient Noise Model
3D ambient noise model for sonar systems. Simulates wind, waves, ships & beam noise. ML-trained CONUS shipping model. OAML-compatible. Optimize sensor performance
Contact UsA Cutting‑Edge 3D Noise Model for Volumetric Sonar Arrays
MDANM is a sophisticated 3D ambient noise model designed to support advanced volumetric sonar arrays. It computes directional noise from diverse sources—wind, waves, ships, and point sources—enabling precise acoustic analysis and sensor performance prediction.
Synthetic Timeseries Generation
Creates realistic acoustic scenarios for testing and analysis.
Why MDANM Stands Out
3D Noise Modeling: Accurately computes 3D directional noise, providing a comprehensive understanding of acoustic environments.
Beam Noise Computation: Supports both conventional and adaptive beamformers, ensuring compatibility with a wide range of sensor systems.
Machine Learning Enhanced: Features a trained CONUS shipping model, leveraging AI to improve accuracy and realism.
OAML Integration: Seamlessly supports Oceanographic and Atmospheric Master Library (OAML) databases, ensuring alignment with industry standards.
Future‑Ready: Models and simulates future acoustic sensor performance, enabling proactive planning and validation.
Multi‑Element Response Modeling
Simulates responses in both azimuth (AZ) and elevation (EL) for multi‑element arrays.
Customizable Beam Noise
Generates beam noise tailored to your specific sensor, ensuring precise and actionable insights.
3D Noise Field
Real Beam Patterns
Beam Noise for YOUR Sensor
Core Capabilities
Our Expertise
We can help determine if MDANM is right for your application