Inventor
KEALL PAUL J
AU17 patents
⚠️ This page may combine multiple inventors who share the name “KEALL PAUL J”. Patents are grouped by organization below to help distinguish them — per-person disambiguation is on the roadmap.
KEALL PAUL J
6 patentsUS8340247B2Dec 25, 2012
Method and system for four dimensional intensity modulated radiation therapy for motion compensated treatments
KEALL PAUL J7 citations81
US9538976B2Jan 10, 2017
Modulating gantry rotation speed and image acquisition in respiratory correlated (4D) cone beam CT images
KEALL PAUL J13 citations80
US8849373B2Sep 30, 2014
Method and apparatus for real-time 3D target position estimation by combining single x-ray imaging and external respiratory signals
KEALL PAUL J8 citations79
US9314219B2Apr 19, 2016
Method to estimate real-time rotation and translation of a target with a single x-ray imager
KEALL PAUL J10 citations77
US8396270B2Mar 12, 2013
Method to estimate 3D abdominal and thoracic tumor position to submillimeter accuracy using sequential x-ray imaging and respiratory monitoring
KEALL PAUL J5 citations68
US8457717B2Jun 4, 2013
Method and system of adaptive control for reducing motion artifacts and patient dose in four dimensional computed tomography
KEALL PAUL J3 citations59
UNIV LELAND STANFORD JUNIOR
3 patentsUS7469035B2Dec 23, 2008
Method to track three-dimensional target motion with a dynamical multi-leaf collimator
UNIV LELAND STANFORD JUNIOR109 citations93
US8379794B2Feb 19, 2013
Method to estimate position, motion and trajectory of a target with a single x-ray imager
UNIV LELAND STANFORD JUNIOR9 citations79
US9099271B2Aug 4, 2015
Method and system for operating electron guns in magnetic fields
UNIV LELAND STANFORD JUNIOR3 citations60
UNIV STANFORD
2 patentsUS7835493B2Nov 16, 2010
Method and system for four dimensional intensity modulated radiation therapy for motion compensated treatments
UNIV STANFORD23 citations90
US7894571B2Feb 22, 2011
System and method for using prospective evaluation of displacement and velocity of a respiratory trace in a five dimensional parameter space to reduce artifacts and dosage in four dimensional computed tomography
UNIV STANFORD3 citations53