Existing communication systems struggle to support cross-domain interactions within the deeply integrated Cyber-Physical-Social-Thinker (CPST) space, where physical, social, cognitive, and digital dimensions converge. To address this challenge, this work proposes Cyberlanguage—a novel communication paradigm natively designed for the CPST space. Its core components include a semantic model based on Cybersign symbolic units, a four-dimensional synchronous syntax, a five-layer architectural stack, and a context-driven pragmatic mechanism. The framework exhibits four-dimensional integrability, multi-agent universality, dynamic compilability, and contextual adaptability, thereby enabling, for the first time, unified and coordinated communication among humans, AI agents, robots, and digital entities. This study establishes a verifiable theoretical foundation and implementation pathway, offering a meta-communication infrastructure for heterogeneous intelligent agents operating in fused realities.

Human communication is undergoing a fundamental paradigm shift. Physical space, social relations, mental states, and digital information are converging into a unified cyber-physical-social-thinking (CPST) fusion space, rendering them no longer separable domains. However, all existing communication systems, including natural and programming languages, as well as interaction protocols, were designed for a world in which these four dimensions remained distinct. We introduce Cyberlanguage, a theoretically grounded communicative framework that is native to the CPST fusion space. Grounded in the philosophical orientation of cyberism and employing CPST theory as an analytical framework, Cyberlanguage possesses four core characteristics: native four-dimensional fusion, multi-agent universality, dynamic compilability, and contextual adaptability. We have constructed a semiotic model based on the Cybersign unit, a four-dimensional synchronous grammar, a five-layer architectural stack, and a context-driven pragmatic mechanism. We also present testable empirical predictions and a staged implementation roadmap. Cyberlanguage is not intended to replace natural or programming languages, but rather to serve as a meta-communication infrastructure capable of coordinating heterogeneous agents, humans, artificial intelligences, robots, and digital entities, within an increasingly fused cyber-physical-social-cognitive reality.