KEKOVA | Physical AI for Maritime Infrastructure

Physical AI
for Maritime Infrastructure

Physical AI for Maritime Infrastructure

↳

Toward autonomous ports.

Journal

What We Do

Every autonomous port, vessel, and maritime system of the next decade will run on a live, physics-grounded intelligence layer of the maritime world. That layer does not exist yet. We are building it.

KEKOVA is building a real-time Physical AI system for complex port operations — integrating live sensor streams, dynamic world models, closed-loop multi-agent simulation, and a maritime-native foundation model designed for cross-embodiment across vessels and port equipment. Exposed through a developer platform, these capabilities enable adaptive, progressively autonomous maritime infrastructure.

About Us

What We Do

Every autonomous port, vessel, and maritime system of the next decade will run on a live, physics-grounded intelligence layer of the maritime world. That layer does not exist yet. We are building it.

KEKOVA is building a real-time Physical AI system for complex port operations — integrating live sensor streams, dynamic world models, closed-loop multi-agent simulation, and a maritime-native foundation model designed for cross-embodiment across vessels and port equipment. Exposed through a developer platform, these capabilities enable adaptive, progressively autonomous maritime infrastructure.

About Us

Foundation: Sensor + Data Infrastructure.

Cameras, LiDAR, radar, AIS, hydrophones, and environmental sensors deployed at real ports, producing the ground-truth multimodal data maritime AI has been missing.

Intelligence: World Models, Simulation, and Foundation Model.

Real-time, physics-grounded representations of specific ports and their surrounding waters, with closed-loop multi-agent simulation and a maritime-native foundation model designed for cross-embodiment across vessels and port equipment.

Real-time, physics-grounded representations of specific ports and their surrounding waters, with closed-loop multi-agent simulation and a maritime-native foundation model designed for cross-embodiment across vessels and port equipment.

Intelligence: World Models, Simulation, and Foundation Model.

Autonomy: Developer Platform and Decision Engine.

An open SDK, scenario framework, and evaluation environment for autonomy developers and port operators — moving from decision support today toward progressively autonomous coordination over time.

autonomy:%20Developer%20Platform%20and%20Decision%20Engine.

One System, Four Layers

A vertically-integrated Physical AI stack with four tightly-coupled layers — live sensor data, real-port world models with closed-loop multi-agent simulation, a maritime-native foundation model, and a developer platform — engineered as one system. The intelligence layer for the autonomous maritime world.

Platform

How We Work

The KEKOVA system compounds with every port instrumented, every scenario simulated, and every developer on the platform. Real-port data trains dynamic world models. World models drive closed-loop simulation. Together, real data, world models, and simulation train a maritime-native foundation model. The platform exposes the full stack so autonomy developers, port operators, and defense and logistics partners can build on top — generating the next generation of maritime data.

One architecture. One compounding loop.

[01]

Instrument — Deploy sensor infrastructure at real ports for calibrated, time-aligned, multimodal ground truth.

[02]

Model — Build real-time world models, closed-loop simulation, and a maritime-native foundation model on the data.

[03]

Build — Expose everything through an open developer platform with SDK, scenario framework, evaluation, and decision engine.

Toward autonomous ports

Journal

Let's Get to Work

Physical AI
for Maritime Infrastructure

Physical AI for Maritime Infrastructure

Physical AI for Maritime Infrastructure

Every autonomous port, vessel, and maritime system of the next decade will run on a live, physics-grounded intelligence layer of the maritime world. That layer does not exist yet. We are building it.

Every autonomous port, vessel, and maritime system of the next decade will run on a live, physics-grounded intelligence layer of the maritime world. That layer does not exist yet. We are building it.

Every autonomous port, vessel, and maritime system of the next decade will run on a live, physics-grounded intelligence layer of the maritime world. That layer does not exist yet. We are building it.

Foundation: Sensor + Data Infrastructure.

Cameras, LiDAR, radar, AIS, hydrophones, and environmental sensors deployed at real ports, producing the ground-truth multimodal data maritime AI has been missing.

Intelligence: World Models, Simulation, and Foundation Model.

Real-time, physics-grounded representations of specific ports and their surrounding waters, with closed-loop multi-agent simulation and a maritime-native foundation model designed for cross-embodiment across vessels and port equipment.

Autonomy: Developer Platform and Decision Engine.

An open SDK, scenario framework, and evaluation environment for autonomy developers and port operators — moving from decision support today toward progressively autonomous coordination over time.

Journal

Autonomy developers, port operators, and defense and logistics partners — get in touch.

Autonomy developers, port operators, and defense and logistics partners — get in touch.