Cleaner Wrasse – The Reef’s Spa Service
- Cleaner wrasses remove parasites from larger fish.
- Their cleaning stations reduce fish stress and improve health.
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The
Technology
SeaVox integrates best-in-class technologies to deliver a complete marine restoration platform:
AI DRIVEN
MONITORING
AI DRIVEN MONITORING
Our AI algorithms analyse satellite and underwater imagery to assess reef health in real-time.
3D imaging and machine learning enable precise site selection based on sunlight exposure, nutrient flows, and biodiversity potential.
Specialised drones are deployed to perform coral microfragmentation, secure corals to artificial structures, and periodically monitor growth without human intervention.
AUTONOMOUS
DRONES
AUTONOMOUS DRONES
Mineral Accretion (Electrolysis)
TECHNOLOGY
BIOROCK TECHNOLOGY
Low-voltage electric currents promote mineral deposition, boosting coral resilience and speeding up natural growth by up to 14 times.
All monitoring and growth data are recorded on a blockchain ledger, ensuring transparency and unlocking the issuance of biodiversity and blue carbon credits for financial sustainability
BLOCKCHAIN
BACKED FUNDING
BLOCKCHAIN BACKED FUNDING
TECHNOLOGY AS A SERVICE LICENCING
TECHNOLOGY AS A SERVICE LICENCING
SeaVox licenses its proprietary AI and monitoring solutions to governments, NGOs, and corporations, supporting large-scale marine restoration projects globally.
Through innovation and automation, SeaVox is making restoration scalable, verifiable, and financially self-supporting.
SeaVox is a fully integrated system that combines cutting-edge technology in marine robotics, AI, environmental sensing, regenerative substrates, and blockchain verification.
Designed to function in two clear phases, the system begins by understanding and mapping reef ecosystems, then scales restoration through autonomous deployment.
Roadmap: Phase 1: Mapping and Laying the Foundation Duration: Year 1–2 Pilot Stage
SeaVox begins by establishing a deep understanding of the reef ecosystem. This phase builds the foundation for intelligent, targeted restoration and trains the AI systems that will guide autonomous action in Phase 2.
Deployed to perform continuous, low-impact reef surveys
Operate independently on pre-programmed routes
Collect high-resolution visual and environmental data
Reduce cost and risk while covering large areas efficiently
Generates ultra-high-resolution, photorealistic reef models
Captures coral morphology and habitat structure in unprecedented detail
Provides critical spatial data for restoration planning and site selection
Mounted on drones and seabed stations to establish a comprehensive ecological baseline:
Temperature
PH
Turbidity
Dissolved Oxygen
Light Intensity
Current flow (ADCP/DVL)
Outcome of Phase 1: A detailed environmental baseline, trained AI systems, secure data infrastructure, and a foundation for autonomous restoration — all recorded with verifiable integrity.
Cleaner wrasses remove parasites from larger fish.
Their cleaning stations reduce fish stress and improve health.
Phase 2: Autonomous Restoration and Scaling Duration: : Year 2–5 Operational Scaling
Phase 2 activates full autonomy. SeaVox drones begin regenerating reefs with minimal human input, guided by AI, real-time feedback, and verifiable blockchain infrastructure.
Drones are equipped with robotic arm manipulators for precise interaction
Perform autonomous coral microfragmentation — cutting into high-survival-rate fragments
Attach coral fragments to Biorock structures using real-time visual recognition & placement algorithms
Sensor data feeds directly into AI models to inform every action
Enables dynamic behaviour: pause planting, change locations, or alter strategies in real time
Supports continual learning and improved outcomes with each deployment
A live, continuously updating virtual model of the reef ecosystem
Integrates all environmental, biological, and spatial data collected in Phase 1 and 2
Enables predictive modelling, scenario analysis, and restoration planning
Outcome of Phase 2: A fully autonomous, AI-driven reef restoration system — capable of planning, executing, verifying, and scaling ecosystem regeneration with integrity.
