As the use of rechargeable batteries continues to expand across defense and expeditionary operations, the logistical burden of maintaining large battery inventories is increasing. A key challenge lies in storage and lifecycle management, as all rechargeable batteries experience variable self-discharge influenced by chemistry, design, time, and environmental conditions. When left unmanaged at low states of charge for extended periods, batteries can suffer permanent degradation, leading to reduced readiness, safety risks, and costly replacements.
As the use of rechargeable batteries continues to expand across defense and expeditionary operations, the logistical burden of maintaining large battery inventories is increasing. A key challenge lies in storage and lifecycle management, as all rechargeable batteries experience variable self-discharge influenced by chemistry, design, time, and environmental conditions. When left unmanaged at low states of charge for extended periods, batteries can suffer permanent degradation, leading to reduced readiness, safety risks, and costly replacements.
Current maintenance practices—such as periodic manual recharging—are labor-intensive, inconsistent, and often impractical at scale, particularly in environments with safety restrictions on lithium battery charging.
Current maintenance practices—such as periodic manual recharging—are labor-intensive, inconsistent, and often impractical at scale, particularly in environments with safety restrictions on lithium battery charging.
Noctis addresses this gap with an autonomous battery lifecycle management system that intelligently monitors, maintains, and optimizes stored batteries across a wide range of chemistries and form factors. The system dynamically compensates for self-discharge, enforces optimal state-of-charge thresholds for storage, transport, and deployment, and minimizes human intervention while enhancing safety through controlled energy management.
Noctis addresses this gap with an autonomous battery lifecycle management system that intelligently monitors, maintains, and optimizes stored batteries across a wide range of chemistries and form factors. The system dynamically compensates for self-discharge, enforces optimal state-of-charge thresholds for storage, transport, and deployment, and minimizes human intervention while enhancing safety through controlled energy management.
Designed for scalable use in warehouses, depots, and operational environments, Noctis provides real-time visibility into battery health and readiness, reduces lifecycle costs, and ensures batteries remain mission-ready without altering their fielded performance.
Designed for scalable use in warehouses, depots, and operational environments, Noctis provides real-time visibility into battery health and readiness, reduces lifecycle costs, and ensures batteries remain mission-ready without altering their fielded performance.