摘要
Abstract
The intelligent equipment system serves as the physical carrier for the transformation of operational forms to-ward cognitive adaptation.To maintain functional continuity within highly uncertain and strongly adversarial battlefield environments,the system must possess an endogenous"learnability".Learnability as the ontological capability of an intel-ligent equipment system was defined to cope with uncertainty and sustain functional continuity,constructing a three-layer theoretical framework that integrates ontology,operational mechanisms,and implementation paths.Firstly,the intrinsic logic of learnability becoming a rigid requirement for system survival was demonstrated in three dimensions,such as his-torical inevitability,technological reshaping,and complexity criticality.Secondly,the connotations of learnability at three hierarchical levels were analyzed,such as the intelligent node level established"robust autonomy"as the existence base-line,the intelligent system level achieved"emergent collaboration"as structural gain,and the intelligent system-of-systems level realized"cognitive evolution"for rule dominance.Furthermore,corresponding three-layer structured imple-mentation paths were proposed,elaborating on the coupling mechanisms and closed-loop feedback mechanisms ranging from individual representation deduction and system structure self-organization to system-of-systems rule evolution.This framework aims to provide a systematic theoretical framework for the top-level design,effectiveness evaluation,and capa-bility generation of intelligent equipment systems,offering theoretical exploration for understanding and constructing the"cognitive life forms"of the future battlefield.关键词
智能化装备体系/学习性/鲁棒自主/涌现协同/认知演化/实现机理Key words
intelligent equipment system/learning capability/robust autonomy/emergent coordination/cognitive evolu-tion/implementation mechanism分类
军事科技
