Transcoding Based Video Caching Systems: Model and Algorithm

Abstract EN

The explosive demand of online video watching brings huge bandwidth pressure to cellular networks.

Efficient video caching is critical for providing high-quality streaming Video-on-Demand (VoD) services to satisfy the rapid increasing demands of online video watching from mobile users.

Traditional caching algorithms typically treat individual video files separately and they tend to keep the most popular video files in cache.

However, in reality, one video typically corresponds to multiple different files (versions) with different sizes and also different video resolutions.

Thus, caching of such files for one video leads to a lot of redundancy since one version of a video can be utilized to produce other versions of the video by using certain video coding techniques.

Recently, fog computing pushes computing power to edge of network to reduce distance between service provider and users.

In this paper, we take advantage of fog computing and deploy cache system at network edge.

Specifically, we study transcoding based video caching in cellular networks where cache servers are deployed at the edge of cellular network for providing improved quality of online VoD services to mobile users.

By using transcoding, a cached video can be used to convert to different low-quality versions of the video as needed by different users in real time.

We first formulate the transcoding based caching problem as integer linear programming problem.

Then we propose a Transcoding based Caching Algorithm (TCA), which iteratively finds the placement leading to the maximal delay gain among all possible choices.

We deduce the computational complexity of TCA.

Simulation results demonstrate that TCA significantly outperforms traditional greedy caching algorithm with a decrease of up to 40% in terms of average delivery delay.