Industrial IoT & Autonomous
Maritime Diagnostics
Digitizing engineering intuition. Transitioning from reactive maintenance to proactive, AI-driven resilience.
Core Capabilities
IT & Application Design
We build the software that serves as the "brain" for autonomous industrial systems. Our deep learning algorithms correlate disparate sensor streams—such as ultrasonic shifts and thermal spikes—to digitize human engineering intuition.
Naval Architecture
Bridging the gap between advanced digital software and physical reality. We ensure our hardware integrates flawlessly into existing ship structures, formalizing hazard scenarios to guarantee compliance with SOLAS and ISM Codes.
Research & Development
The core of our innovation. We are pioneering the use of stereo event-cameras and autonomous drone platforms to facilitate precise, low-latency navigation within complex, high-vibration maritime environments.
Structural Diagnostics
Deploying advanced multi-modal payloads (thermal, acoustic, gas) to monitor physical integrity. We transition maintenance strategies from reactive checks to proactive, data-driven interventions.
The SeaNode IoT Vision
Our Identity
SeaNode IoT Single Member P.C. is a deep-tech engineering firm specializing in the convergence of heavy maritime infrastructure and advanced Industrial Internet of Things (IIoT).
Our Vision
To spearhead the transition of the maritime industry from a reactive, manual-dependent culture to a future defined by proactive resilience, where human risk is eliminated through continuously monitored digital ecosystems.
Our Mission
To establish standardized architectures for autonomous monitoring. By digitizing human diagnostic intuition, we empower fleet operators to detect and prevent catastrophic mechanical failures before they occur.
Let's Connect
Corporate Entity
SeaNode IoT Single Member P.C.
Headquarters
Koumarias 0
34100 Chalkida
Greece
Direct Inquiry
IT & Application Design
Main Activity: Information Technology Design and Development Services for Applications. We build the intelligent software layer that powers autonomous decisions.
🧠 Algorithmic Data Fusion
We develop probabilistic data fusion methodologies that mathematically correlate disparate sensor streams—such as ultrasonic shifts and thermal spikes—to feed intelligent algorithms, reducing false positives in noisy industrial environments.
🌐 Digital Twin Integration
Our software architectures seamlessly transmit real-time telemetry from isolated, high-risk environments directly into broader Digital Twin ecosystems for centralized operational oversight and predictive analytics.
R&D in Autonomous Systems
Research and Experimental Development. Pushing the boundaries of what robotic platforms can perceive and achieve in denied environments.
🚁 Neuromorphic Perception
Pioneering the use of stereo event-cameras to facilitate precise, low-latency navigation within complex, high-vibration, GNSS-denied maritime environments without motion blur.
🔬 Autonomous Robotic Frameworks
Developing intelligent, fully autonomous systems designed to replicate, digitize, and ultimately exceed the multi-sensory diagnostic capabilities of veteran human engineers in extreme industrial environments.
Technical Diagnostics & Testing
Deploying advanced sensor payloads to capture nuanced diagnostic profiles previously reliant on physical human patrols.
🔍 Multi-Sensor Payloads
Integration of thermal arrays, acoustic frequency monitors, high-fidelity vibration sensors, and gas detection modules to capture comprehensive environmental state data.
🚨 Early Event Detection
Detecting localized, developing anomalies—such as subtle acoustic frequency shifts or micro-fluid leaks—that fixed static networks frequently fail to identify before failure.