The Ninth NTIRE 2024 Efficient Super-Resolution Challenge Report.
Bin RenYawei LiNancy MehtaRadu TimofteHongyuan YuCheng WanYuxin HongBingnan HanZhuoyuan WuYajun ZouYuqing LiuJizhe LiKeji HeChao FanHeng ZhangXiaolin ZhangXuanwu YinKunlong ZuoBohao LiaoPeizhe XiaLong PengZhibo DuXin DiWangkai LiYang WangWei ZhaiRenjing PeiJiaming GuoSongcen XuYang CaoZhengjun ZhaYan WangYi LiuQing WangGang ZhangLiou ZhangShijie ZhaoLong SunJinshan PanJiangxin DongJinhui TangXin LiuMin YanQian WangMenghan ZhouYiqiang YanYixuan LiuWensong ChanDehua TangDong ZhouLi WangLu TianBarsoum EmadBohan JiaJunbo QiaoYunshuai ZhouYun ZhangWei LiShaohui LinShenglong ZhouBinbin ChenJincheng LiaoSuiyi ZhaoZhao ZhangBo WangYan LuoYanyan WeiFeng LiMingshen WangYawei LiJinhan GuanDehua HuJiawei YuQisheng XuTao SunLong LanKele XuXin LinJingtong YueLehan YangShiyi DuLu QiChao RenZeyu HanYuhan WangChaolin ChenHaobo LiMingjun ZhengZhongbao YangLianhong SongXingzhuo YanMinghan FuJingyi ZhangBaiang LiQi ZhuXiaogang XuDan GuoChunle GuoJiadi ChenHuanhuan LongPublished in: CoRR (2024)
Keyphrases
- super resolution
- low resolution
- high resolution
- image reconstruction
- image restoration
- motion estimation
- low resolution images
- high resolution images
- resolution enhancement
- image super resolution
- motion blur
- high quality
- super resolved
- light field
- single frame
- multi frame
- edge preserving
- image resolution
- depth map
- image patches
- motion vectors
- super resolution reconstruction
- computationally efficient
- single image super resolution
- video super resolution