US20260147847
2026-05-28
Physics
G06F16/9536
The disclosed system enables shared social media sessions that allow multiple users to experience personalized content synchronously across different devices. Utilizing artificial intelligence, the system creates dynamic content streams tailored to the preferences of multiple users while ensuring individual privacy controls. Users can initiate these sessions through messaging interfaces or standalone applications, with content sourced from various platforms and customized based on collective preferences.
This invention pertains to social media content delivery systems, specifically those leveraging artificial intelligence to enable shared viewing experiences across multiple devices or platforms. It builds upon existing social media functionalities like user interaction and content sharing, enhancing them with AI-driven personalization and multi-user synchronization.
Traditional social media platforms offer individualized content feeds based on single-user preferences, requiring users to access multiple applications to view content from different sources. This leads to inefficiencies and fragmented user experiences. While users can share content items through messages, there is no current capability for real-time, synchronized multi-user experiences across different devices. The disclosed system addresses this gap by enabling seamless, synchronized content sharing.
The system comprises user devices, content platforms, and content sources interconnected via a network. User devices execute a shared session client application providing interfaces for shared viewing experiences. The content platform serves as a processing hub, using an AI engine to generate content recommendations based on user preferences. A session management module coordinates shared experiences, optimizing content delivery and maintaining session states. A user preference database stores viewing preferences and privacy controls.
Content sources include social media platforms, streaming services, and user-generated content repositories, each providing APIs for content discovery and streaming. The content aggregation service normalizes integration with these sources, ensuring consistent delivery across platforms. The system supports transitions between synchronized and independent navigation modes during sessions, maintaining session states and coordinating mode transitions for seamless user experiences.