Tracking Heavy Vehicles Based on Weigh-In-Motion and Inductive Loop Signature Technologies.
Shin-Ting JengLianyu ChuPublished in: IEEE Trans. Intell. Transp. Syst. (2015)
Keyphrases
- traffic scenes
- motion model
- motion analysis
- motion tracking
- motion segmentation
- robust tracking
- moving vehicles
- image sequences
- real time
- motion detection
- articulated body
- tracking multiple
- moving target
- deformable objects
- upper body
- vehicle tracking
- optical flow
- real time tracking
- extended kalman filters
- particle filter
- rigid objects
- intelligent transportation systems
- articulated motion
- temporal continuity
- motion parameters
- motion estimation
- articulated objects
- real sequences
- object motion
- moving objects
- abrupt motion
- moving camera
- camera motion
- wide area motion imagery
- tracking framework
- head motion
- fixed camera
- feature tracking
- moving platform
- color based tracking
- consecutive frames
- object tracking
- motion field
- vehicle detection
- motion patterns
- multiple moving objects
- hand motion
- visual tracking
- body parts
- nonrigid motion
- space time
- ground plane
- data association
- human body
- mobile robot
- traffic surveillance
- surveillance videos
- kalman filter
- vehicle trajectory
- video surveillance
- video sequences
- mean shift
- computer vision
- point correspondences
- intelligent vehicles
- target object
- humanoid robot
- joint angles
- signature verification
- signature scheme