Electromagnetic metamaterial agent

• Published in: Light, science & applications Vol. 14; no. 1; pp. 12 - 13
• Main Authors: Hu, Shengguo, Li, Mingyi, Xu, Jiawen, Zhang, Hongrui, Zhang, Shanghang, Cui, Tie Jun, del Hougne, Philipp, Li, Lianlin
• Format: Journal Article
• Language: English
• Published: London Nature Publishing Group UK 01.01.2025; Springer Nature B.V; Nature Publishing Group
• Subjects: 639/624/1107/510; 639/766/1130/2799; Cerebrum; Deep learning; Engineering Sciences; Feedback; Language; Lasers; Mathematical models; Microwaves; Natural language; Optical and Electronic Materials; Optical Devices; Optics; Photonics; Physics; Physics and Astronomy; Planning; Prototypes; RF and Optical Engineering; Computer science; Optoelectronics; Biology; Robot; Metamaterial; Artificial intelligence; Physics; Paleontology; Human–computer interaction; Context (archaeology)
• ISSN: 2047-7538; 2095-5545; 2047-7538
• DOI: 10.1038/s41377-024-01678-w

Metamaterials have revolutionized wave control; in the last two decades, they evolved from passive devices via programmable devices to sensor-endowed self-adaptive devices realizing a user-specified functionality. Although deep-learning techniques play an increasingly important role in metamaterial inverse design, measurement post-processing and end-to-end optimization, their role is ultimately still limited to approximating specific mathematical relations; the metamaterial is still limited to serving as proxy of a human operator, realizing a predefined functionality. Here, we propose and experimentally prototype a paradigm shift toward a metamaterial agent (coined metaAgent) endowed with reasoning and cognitive capabilities enabling the autonomous planning and successful execution of diverse long-horizon tasks, including electromagnetic (EM) field manipulations and interactions with robots and humans. Leveraging recently released foundation models, metaAgent reasons in high-level natural language, acting upon diverse prompts from an evolving complex environment. Specifically, metaAgent’s cerebrum performs high-level task planning in natural language via a multi-agent discussion mechanism, where agents are domain experts in sensing, planning, grounding, and coding. In response to live environmental feedback within a real-world setting emulating an ambient-assisted living context (including human requests in natural language), our metaAgent prototype self-organizes a hierarchy of EM manipulation tasks in conjunction with commanding a robot. metaAgent masters foundational EM manipulation skills related to wireless communications and sensing, and it memorizes and learns from past experience based on human feedback. metaAgent has the capability of reasoning and cognition to autonomously plan and execute complex electromagnetic manipulation tasks.