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A marine mission-control dashboard combining bathymetric terrain, AUV tracking, reef health metrics, water-column analytics, survey progress, and AI anomaly detection.

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Marine Mapping

Marine Mission Control

Ocean mission dashboard for bathymetry, AUV tracking, survey planning, water-column analytics, and reef health review.

Year

2025

Duration

11 months

Location

Monterey, California, United States

Surfaces

tablet, mobile

Stack

Architecture

GCP

Mapping

ArcGIS Maps SDK for SwiftArcGIS Scene LayersBathymetric DEM layersSurvey grid overlaysAUV telemetry streams

Code

SwiftUISwift

AI

Gemini on Vertex AIMarine science agentSensor anomaly detectionReef health classificationTime-series sensor analysis

Conceptual application work, created with the listed platforms and APIs and tested across the indicated surfaces.

Details

Built as a mission-control interface for underwater mapping teams managing AUV surveys, reef monitoring, and subsea environmental analysis.

Renders ocean-floor bathymetry as an interactive 3D terrain surface with survey grids, coverage boundaries, route lines, and vehicle status overlays.

Tracks autonomous underwater vehicles with depth, heading, battery, mission phase, transect progress, and survey coverage metrics.

Includes water-column analytics for temperature, salinity, current, pH, dissolved oxygen, turbidity, and other oceanographic readings tied to location and depth.

Supports reef health analysis with coral bleaching indicators, anomaly confidence, severity scoring, and recommended inspection zones.

Provides mission planning tools for defining waypoint paths, lawnmower survey patterns, coverage sectors, and readiness checks before deployment.

Uses AI-assisted anomaly detection to flag unusual reef conditions, sensor readings, bathymetric patterns, and potential follow-up survey targets.

Designed for scientific review, conservation planning, and operational command contexts where map, vehicle, and sensor data must stay synchronized.

Uses a dark marine visual language to make bathymetry, mission paths, and anomaly overlays readable over complex ocean-floor terrain.