Coastal Protection & Carbon
Tracking the evolution of the ocean carbon sink and protecting coastal megacities from maritime hazards.
Engineering the Oceanic Frontier
The coastal zone is the most dynamic and vulnerable interface on our planet. Understanding the **ocean carbon sink** and protecting **megacities** from storm surges requires the fusion of Big Data and real-time physics. Malgukke provides the **HPC architectures** to reconstruct global $pCO_2$ fields and the **Edge Computing** power to run Digital Twins of urban coastlines.
Carbon Sink Mapping
Utilizing GPU-accelerated Optimal Interpolation and Machine Learning to reconstruct global $pCO_2$ fields from sparse observation data. We resolve the spatio-temporal variability of the ocean's ability to absorb anthropogenic carbon.
- Mapping air-sea gas exchange
- Petascale data harmonization
Storm Surge Digital Twins
Real-time modeling of sea-level rise and storm surges for coastal protection. Our Digital Twins integrate bathymetry, tidal data, and atmospheric pressure to simulate urban inundation scenarios with sub-meter precision.
- High-fidelity inundation modeling
- Real-time hazard alerting systems
Leading Coastal Research Partners
Powering the computational backbone for the guardians of our coastlines:
Maritime Research Logic
| Research Sphere | HPC / AI Action | Operational Outcome |
|---|---|---|
| Carbon Sequestration | Optimal Interpolation of global BGC-Argo data. | Validated global carbon budget data |
| Urban Defense | GPU-native shallow-water equation solvers. | Precise flood-gate operational timing |