A Simulation Study of a Radiofrequency Localization System for Tracking Patient Motion in Radiotherapy.
Mark OstynSiyong KimWoon-Hong YeoPublished in: Sensors (2016)
Keyphrases
- simulation study
- respiratory motion
- motion model
- patient specific
- motion compensation
- motion analysis
- image registration
- motion tracking
- magnetic resonance
- motion segmentation
- radiation therapy
- treatment planning
- robust tracking
- monte carlo
- articulated body
- motion detection
- clinical applications
- beating heart
- position information
- image sequences
- tracking multiple
- particle filter
- deformable objects
- precise localization
- real time tracking
- extended kalman filters
- cancer patients
- object tracking
- tracking framework
- temporal continuity
- visual tracking
- moving target
- rigid objects
- ct images
- clinical data
- image guided
- motion estimation
- optical flow
- localization algorithm
- accurate localization
- articulated objects
- patient data
- data association
- medical imaging
- mr images
- simultaneous localization and mapping
- medical data
- motion patterns
- hand motion
- point correspondences
- computer aided
- kalman filter
- space time
- color based tracking
- wide area motion imagery