Title Destination-Anchored Co-Presence Web Network: A Distributed Business and Computational Model for Shared Navigation, Trust Validation, Destination-Bound Conversation, Predictive Search, Multi-Tier Collaboration, and Virtual-Reality Community Assembly Author: Lance Thomas DavidsonORCID iD: 0009-0006-1245-1644 Originally Created: 12 August 2024Preprint Release: 13 March 2026 License: Creative Commons Attribution–NonCommercial–NoDerivatives 4.0 International Preprint NoticeThis document is released as a preliminary preprint describing the conceptual architecture of the Destination-Anchored Co-Presence Web Network. The current version establishes the structural definitions, interaction topology, and computational framework underlying the proposed system. It should be interpreted as an early architectural specification pending further expansion, technical validation, implementation modeling, and collaborative analysis in future revisions. Abstract (Repository Meta Description) The Destination-Anchored Co-Presence Web Network proposes a distributed interaction architecture in which the fundamental computational object of the web is the destination itself rather than the user account or isolated communication channel. In this framework, destinations operate as structured nodes capable of hosting synchronized co-presence sessions where participants simultaneously navigate, observe, and interact within the same digital environment. The architecture formalizes relationships between users, destinations, and time to enable collaborative browsing, trust validation, role-governed participation, redacted viewing layers, and destination-bound conversation systems. Building upon these foundations, the system incorporates reputation modeling, predictive discovery mechanisms, review aggregation, spoof-detection analysis, and governance-based permission structures. By reorganizing interaction around destinations rather than user identities, the model unifies functions traditionally separated across search engines, collaboration platforms, communication tools, and review networks into a single computational topology. The framework further extends into immersive environments where destinations correspond to persistent virtual-reality assembly spaces in which participants gather, communicate, and collaborate within spatially rendered environments governed by the same trust and session rules as conventional web interaction. This manuscript represents a preliminary architectural specification released as a preprint for documentation, priority establishment, and further technical development. Keywords destination-anchored computing, co-presence networks, collaborative browsing, shared navigation, distributed interaction platforms, destination node architecture, trust validation systems, spoof detection, redirect analysis, reputation systems, destination-bound conversation, conversation graphs, search ranking architecture, predictive destination discovery, review aggregation systems, moderation frameworks, permission governance, redacted rendering, secure collaborative viewing, session governance, cryptographic session control, distributed storage topology, indexing systems, network-effect modeling, growth dynamics, AI support agents, collaborative knowledge layers, platform governance, web interaction economics, immersive collaboration environments, virtual reality communities, avatar participation systems, spatial collaboration networks