Efficient Multi-modal Content Caching in Dynamic Networks

Efficiently caching multi-modal content in dynamic networks is crucial for reducing latency and improving user experience.

The article discusses the importance of caching multi-modal content in dynamic networks using a content importance-based caching scheme. It highlights the challenges in traditional caching approaches and proposes a solution using deep reinforcement learning models. The key contributions, system model, related work, and implementation details are discussed in detail. Structure: Introduction to Multi-modal Services Introduction of haptic contents and multi-modal applications. Transmission Requirements for Multi-modal Contents Differences in latency, jitter, data loss rate, and data rate for video, audio, and haptic content. Edge Caching for Multi-modal Content Importance of edge caching to reduce latency and traffic load. Traditional Caching Schemes Limitations of existing caching schemes based on content popularity. Proposed Content Importance-based Caching Scheme Leveraging D3QN model for adaptive evaluation of content importance. Implementation Details Exploration techniques, mapping function, reward function, and deployment details. Conclusion and Future Research Directions

The simulation results show that the proposed content importance-based caching scheme outperforms existing caching schemes in terms of caching hit ratio (at least 15% higher), reduced network load (up to 22% reduction), average number of hops (up to 27% lower), and unsatisfied requests ratio (more than 47% reduction).

"Edge caching is believed to be an ideal technology to realize instinctive ideas of reducing long-distance transmission latency." "The proposed content importance-based caching scheme outperforms existing schemes in terms of all the mentioned metrics."