This conceptual defensive publication outlines a future-oriented architectural framework for the self-sustained protection of critical energy infrastructure against asymmetric aerial threats, such as persistent drone (UAS) and missile campaigns. The core innovation of this paper does not lie in the physics of Directed Energy Weapons (DEW) or the general necessity of critical infrastructure protection. Instead, it proposes a novel grid management logic: the dynamic, threat-aware allocation of a power station’s own generating capacity to directly sustain on-site laser-defense operations. By establishing an automated tactical interface between real-time threat-detection systems (radars, surveillance assets) and the facility's power-generation control loops, the protected asset transitions from a passive target into an active participant in its own survival. The publication introduces a Three-Tier Infrastructure Survival Framework to guide operational decision logic during an attack: Tier 1 – Reserve Capacity Defense Mode: Utilizing standard operational reserves to power laser systems without impacting civilian grid consumers. Tier 2 – Controlled Reduction Mode: Introducing deliberate, short-term reductions in external power delivery to channel maximum energy into defensive operations. Tier 3 – Strategic Asset Survival Mode: Temporarily interrupting all external power delivery during extreme threat conditions to prioritize the physical survival of the generating asset, preventing long-term catastrophic loss. Inspired by real-world operational challenges and lessons emerging from the defense of Ukrainian energy infrastructure, this framework provides a highly scalable, economically sustainable, and ammunition-independent blueprint for global critical asset resilience. Note: This is a personal, independent, and uncompensated hobby concept written strictly for volunteer and defensive publication purposes. It describes high-level strategic and operational architectures rather than engineering implementation details. Keywords / Tagging Purpose: This document is published openly to the public domain to establish permanent, citable prior art and maintain the long-term freedom to operate regarding these high-level conceptual ecosystem frameworks.
Andriy Klyuchevskyy (Sun,) studied this question.