The following publications are possibly variants of this publication:
- 3D Elastography Using Freehand UltrasoundJoel Lindop, Graham M. Treece, Andrew H. Gee, Richard W. Prager. miccai 2004: 1103-1104 [doi]
- Engineering a freehand 3D ultrasound systemAndrew H. Gee, Richard W. Prager, Graham M. Treece, Laurence H. Berman. prl, 24(4-5):757-777, 2003. [doi]
- Sensorless Reconstruction of Freehand 3D Ultrasound DataR. James Housden, Andrew H. Gee, Graham M. Treece, Richard W. Prager. miccai 2006: 356-363 [doi]
- Grey-scale gating for freehand 3D ultrasoundGraham M. Treece, Richard W. Prager, Andrew H. Gee, Charlotte J. C. Cash, Laurence H. Berman. isbi 2002: 993-996 [doi]
- Correction of Probe Pressure Artifacts in Freehand 3D UltrasoundGraham M. Treece, Richard W. Prager, Andrew H. Gee, Laurence H. Berman. miccai 2001: 283-290 [doi]
- Narrow-band volume rendering for freehand 3D ultrasoundAndrew H. Gee, Richard W. Prager, Graham M. Treece, Laurence H. Berman. cg, 26(3):463-476, 2002. [doi]
- Real-Time Tools for Freehand 3D UltrasoundRichard W. Prager, Andrew H. Gee, Laurence H. Berman. miccai 1998: 1016-1023 [doi]
- Correction of probe pressure artifacts in freehand 3D ultrasoundGraham M. Treece, Richard W. Prager, Andrew H. Gee, Laurence H. Berman. mia, 6(3):199-214, 2002. [doi]
- Radial Basis Function Interpolation for Freehand 3D UltrasoundRobert Rohling, Andrew H. Gee, Laurence H. Berman, Graham M. Treece. ipmi 1999: 478-483 [doi]