Long-Term Background Redundancy Reduction for Earth Observatory Video Coding

Huge earth observatory video data (EOVD) and the limited transmission bandwidth from satellites to terrestrial devices pose serious challenges to compression efficiency for satellite video. In this work, we deeply explore long-term background redundancy caused by periodical satellite revisit, and make utilization of long-term background reference (LTBR) to design a high-efficiency coding method specific for EOVD. Firstly, we use data of Google Earth as prior background knowledge and construct LTBR from it. Then, two novel prediction methods are proposed to make full use of prior information of LTBR, including color and definition correction based inter prediction with LTBR (CDIP-LTBR), structure and texture constrained intra prediction with LTBR (STIP-LTBR). Lastly, the proposed two new prediction schemes are integrated into one unified coding framework along with HEVC to achieve improved coding performance, and an improved RDO method is designed for additional prediction modes selection problem in the framework to obtain a higher prediction efficiency. Extensive experiments on real-world EOVD show that the proposed coding scheme exhibit significant improvement over HEVC and H.264, in terms of BD-Rate, BD-PSNR and rate distortion comparison.