The Desert Shield climate class is designed for regions with sustained high temperatures and extreme solar radiation. Systems in this category are engineered to operate reliably under continuous thermal stress, abrasive dust environments, and high UV exposure. Typical applications include off-grid and hybrid installations in arid and semi-arid regions, where solar generation dominates and infrastructure must remain operational with minimal maintenance.
The Continental climate class represents a balanced, universal operating range suitable for the majority of residential, commercial, and industrial environments. These systems are optimized for variable seasonal conditions, moderate temperature swings, and integration with both renewable sources and existing grid infrastructure. This class serves as the standard reference architecture for decentralized energy systems across diverse use cases.
The Arctic climate class is engineered for continuous operation in extreme cold environments where solar input is limited and wind energy plays a significant role. Systems are designed with enhanced cold-start capability, low-temperature energy storage management, and reinforced components for harsh climatic conditions. This class is intended for mission-critical infrastructure where reliability under severe environmental stress is essential.
Mission Control is a fleet-level management and intelligence platform for decentralized energy systems. It continuously monitors the operational state of all stations within a user's fleet, regardless of climate class, location, or application domain. The integrated AI layer analyzes system telemetry, performance trends, and component behavior in real time. When anomalies, degradation, or early signs of failure are detected, Mission Control generates a structured service notification, including the identified issue, GPS coordinates of the station, recommended spare parts, required tools, and optimal service route. In parallel, Mission Control continuously evaluates localized weather forecasts for each station. Based on predicted environmental conditions — such as storms, extreme heat, cold waves, or high winds — the platform proactively transitions stations into predefined preparation modes. In these modes, each station operates according to its internal, climate-specific scenario, optimized for protection, stability, and continuity of operation. All critical control logic remains executed locally at the station level. Mission Control functions as the supervisory and analytical layer, enabling predictive maintenance, coordinated fleet behavior, and long-term operational optimization across geographically distributed installations.
Energy systems for remote and mission-critical oil and gas infrastructure, including exploration sites, pumping stations, monitoring units, and safety systems. Designed for continuous operation in isolated locations with high environmental stress and limited grid availability.
Decentralized power solutions for defense, border control, surveillance, and security installations. Focused on resilience, autonomous operation, and reliability under extreme climatic and operational conditions.
Power systems for telecommunications infrastructure such as base stations, relay towers, data transmission nodes, and satellite ground equipment. Optimized for uninterrupted operation, low maintenance, and high availability in off-grid and hybrid environments.
Energy platforms supporting fire detection, monitoring, and response infrastructure, including early warning systems, sensor networks, communication nodes, and emergency coordination equipment in remote and high-risk areas.
Decentralized energy systems for agricultural operations, including irrigation, processing, cold storage, and on-site power supply. Designed to support autonomous operation in rural and off-grid environments with seasonal energy demand.
Power solutions for critical civil and industrial infrastructure such as water treatment, transport systems, public facilities, and remote industrial sites, where reliability and long-term operational stability are essential.
Loading...
Klingsorstraße 105 b
12203 Berlin
Deutschland
HRB: 257661 B
USt-IdNr.: DE365568840
Steuernummer: 29 313 31449
EORI: DE279129270668150
Email: ione@gtmail.ai
Phone: +49 3041737300
