Payload Length Adaptation for Wireless Video Transmission in Multicarrier Systems

Abstract

We present an optimization architecture for a cross-layer design in wireless video transmission and investigate the multicarrier effect on wireless communication. To transmit video frames with delay bound and target frame error rate (FER) constraint, we formulate an optimization problem to minimize the required resource units for a single user by adjusting payload length, M-ary modulation, block size, and code rate. Instead of exhaustive approach, we propose a minimal required resource units (MRRU) algorithm with feedback of mean mutual information per bit (MMIB) to resolve this problem by binomial distribution function approximation. Finally, the performance comparison between MRRU algorithm and maximum throughput approach is given, and the effect on multicarrier system in a correlated Rayleigh fading channel is shown.