Video object segmentation (VOS) aims at segmenting a particular object
throughout the entire video clip sequence. The state-of-the-art VOS methods
have achieved excellent performance (e.g., 90+% J&F) on existing datasets.
However, since the target objects in these existing datasets are usually
relatively salient, dominant, and isolated, VOS under complex scenes has rarely
been studied. To revisit VOS and make it more applicable in the real world, we
collect a new VOS dataset called coMplex video Object SEgmentation (MOSE) to
study the tracking and segmenting objects in complex environments. MOSE
contains 2,149 video clips and 5,200 objects from 36 categories, with 431,725
high-quality object segmentation masks. The most notable feature of MOSE
dataset is complex scenes with crowded and occluded objects. The target objects
in the videos are commonly occluded by others and disappear in some frames. To
analyze the proposed MOSE dataset, we benchmark 18 existing VOS methods under 4
different settings on the proposed MOSE dataset and conduct comprehensive
comparisons. The experiments show that current VOS algorithms cannot well
perceive objects in complex scenes. For example, under the semi-supervised VOS
setting, the highest J&F by existing state-of-the-art VOS methods is only 59.4%
on MOSE, much lower than their ~90% J&F performance on DAVIS. The results
reveal that although excellent performance has been achieved on existing
benchmarks, there are unresolved challenges under complex scenes and more
efforts are desired to explore these challenges in the future. The proposed
MOSE dataset has been released at https://henghuiding.github.io/MOSE.Comment: MOSE Dataset Repor