Superimposed Modulation for Soft Video Delivery With Hidden Resources

Abstract

Analog-transmission-based soft video delivery suffers from the leveling-off effect when the allocated channel bandwidth is severely insufficient. Fortunately, with superimposed modulation, it is possible for analog traffic to share bandwidth with digital traffic. In this paper, we design and analyze such a hybrid digital-analog superimposed modulation (HDA-SIM) scheme for soft video delivery. Unlike previous work, we treat the bandwidth of competing digital traffic as hidden resources for the video delivery system. The key problem in this scheme is how to allocate the bandwidth and power resources among various modulation symbols so that we can improve the performance of video delivery without sacrificing the throughput of existing digital traffic. The resource allocation problem is formulated and the optimal solution under any given channel signal-to-noise ratio is derived. Based on the results, the sufficient and necessary condition for the video delivery system to achieve performance gain is given. In addition, we implement the proposed scheme for two state-of-the-art soft video delivery systems known as SoftCast and SharpCast. Both simulations and testbed evaluations show that the HDA-SIM version can achieve significant gains in the received video quality over their original designs.