SOTAVerified

Motion Segmentation

Motion Segmentation is an essential task in many applications in Computer Vision and Robotics, such as surveillance, action recognition and scene understanding. The classic way to state the problem is the following: given a set of feature points that are tracked through a sequence of images, the goal is to cluster those trajectories according to the different motions they belong to. It is assumed that the scene contains multiple objects that are moving rigidly and independently in 3D-space.

Source: Robust Motion Segmentation from Pairwise Matches

Papers

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Showing 110 of 212 papers

TitleStatusHype
Moving Object Segmentation: All You Need Is SAM (and Flow)Code3
ParticleSfM: Exploiting Dense Point Trajectories for Localizing Moving Cameras in the WildCode2
RaTrack: Moving Object Detection and Tracking with 4D Radar Point CloudCode2
DytanVO: Joint Refinement of Visual Odometry and Motion Segmentation in Dynamic EnvironmentsCode2
Event-Based Motion Segmentation by Motion CompensationCode1
Event-based Motion Segmentation with Spatio-Temporal Graph CutsCode1
FlowNet3D: Learning Scene Flow in 3D Point CloudsCode1
EM-driven unsupervised learning for efficient motion segmentationCode1
Discovering Objects that Can MoveCode1
Bootstrapping Objectness from Videos by Relaxed Common Fate and Visual GroupingCode1
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All datasetsApolloScapeHopkins155KT3DMoSegMTPV62

Benchmark Results

#ModelMetricClaimedVerifiedStatus
1Rule BasedAccuracy90Unverified
2Rel-Att-GCNAccuracy89Unverified
3MRGCNAccuracy86Unverified
4MRGCN-LSTMAccuracy72Unverified
5St-RNNAccuracy63Unverified
#ModelMetricClaimedVerifiedStatus
1SSCClassification Error2.18Unverified
2T-LinkageClassification Error1.97Unverified
3RSIMClassification Error1.01Unverified
4MVCClassification Error0.31Unverified
#ModelMetricClaimedVerifiedStatus
1MultiViewClusteringError7.92Unverified
#ModelMetricClaimedVerifiedStatus
1MVCClassification Error0.65Unverified