In nature, organisms exhibit ubiquitous manifestation of intelligent behaviors across diverse scales (from microscopic to macroscopic), environments (from aquatic to aerial), and evolutionary hierarchies (from primitive to advanced life forms). As an emerging technological paradigm that systematically emulates the sophisticated intelligent attributes of biological systems, bionic intelligence has attracted significant scholarly attention and prompted extensive research initiatives within the aerospace unmanned systems domain. This paper presents a comprehensive examination of the distinctions and interrelationships between Extensive Bionics Intelligence (EBI) and traditional bionics, systematically elaborates the core conceptual framework and characteristic features of EBI technology, provides a critical analysis of its representative applications in aerospace unmanned systems, and concludes with a forward-looking perspective on future developmental trajectories in this field.
Yu et al. (Sun,) studied this question.