20.12.2 Freehand Ultrasound, Ultrasonic, Generation

Chapter Contents (Back)
Ultrasound. See also Kidney Disease, Tomography, CAT Analysis, Other Methods.

Gee, A.H.[Andrew H.], Prager, R.W.[Richard W.], Treece, G.M.[Graham M.], Berman, L.H.[Laurence H.],
Engineering a freehand 3D ultrasound system,
PRL(24), No. 4-5, February 2003, pp. 757-777.
Elsevier DOI 0211
See also Surface interpolation from sparse cross sections using region correspondence. BibRef

Gee, A.H., Treece, G.M., Prager, R.W., Cash, C.J.C., Berman, L.H.,
Rapid registration for wide field of view freehand three-dimensional ultrasound,
MedImg(22), No. 11, November 2003, pp. 1344-1357.
IEEE Abstract. 0311
BibRef

Rousseau, F., Hellier, P., Barillot, C.,
A Novel Temporal Calibration Method for 3-D Ultrasound,
MedImg(25), No. 8, August 2006, pp. 1108-1112.
IEEE DOI 0608
BibRef

Rousseau, F., Hellier, P., Letteboer, M.M.J., Niessen, W.J., Barillot, C.,
Quantitative Evaluation of Three Calibration Methods for 3-D Freehand Ultrasound,
MedImg(25), No. 11, November 2006, pp. 1492-1501.
IEEE DOI 0611
BibRef

Rousseau, F.[Francois], Barillot, C.[Christian],
Quality Assessment of Electromagnetic Localizers in the Context of 3D Ultrasound,
INRIARR-4408, March 2002.
HTML Version. 0211
BibRef

Pratikakis, I.E.[Ioannis E.], Barillot, C.[Christian], Darnault, P.[Pierre],
Towards Free-Hand 3-D Ultrasound,
INRIARR-4399, March 2002.
HTML Version. 0211
BibRef

Francois, R., Fablet, R., Barillot, C.,
Robust statistical registration of 3D ultrasound images using texture information,
ICIP03(I: 581-584).
IEEE DOI 0312
BibRef

Huang, Q.H.[Qing-Hua], Huang, Y., Hu, W.[Wei], Li, X.L.[Xue-Long],
Bezier Interpolation for 3-D Freehand Ultrasound,
HMS(45), No. 3, June 2015, pp. 385-392.
IEEE DOI 1506
Accuracy BibRef

Afsham, N., Najafi, M., Abolmaesumi, P., Rohling, R.,
A Generalized Correlation-Based Model for Out-of-Plane Motion Estimation in Freehand Ultrasound,
MedImg(33), No. 1, January 2014, pp. 186-199.
IEEE DOI 1402
Gaussian processes BibRef

Moon, H.[Hyungil], Ju, G.[Geonhwan], Park, S.[Seyoun], Shin, H.[Hayong],
3D freehand ultrasound reconstruction using a piecewise smooth Markov random field,
CVIU(151), No. 1, 2016, pp. 101-113.
Elsevier DOI 1610
Markov random field BibRef

Baumgartner, C.F., Kamnitsas, K., Matthew, J., Fletcher, T.P., Smith, S., Koch, L.M., Kainz, B., Rueckert, D.,
SonoNet: Real-Time Detection and Localisation of Fetal Standard Scan Planes in Freehand Ultrasound,
MedImg(36), No. 11, November 2017, pp. 2204-2215.
IEEE DOI 1711
Guidelines, Real-time systems, Standards, Training, Ultrasonic imaging, Videos, Convolutional neural networks, fetal ultrasound, standard plane detection, weakly, supervised, localisation BibRef

Toews, M., Wells, W.M.,
Phantomless Auto-Calibration and Online Calibration Assessment for a Tracked Freehand 2-D Ultrasound Probe,
MedImg(37), No. 1, January 2018, pp. 262-272.
IEEE DOI 1801
biological tissues, biomedical ultrasonics, brain, calibration, feature extraction, image reconstruction, ultrasonic imaging BibRef

Rezajoo, S., Sharafat, A.R.,
Robust Estimation of Displacement in Real-Time Freehand Ultrasound Strain Imaging,
MedImg(37), No. 7, July 2018, pp. 1664-1677.
IEEE DOI 1808
biomechanics, biomedical ultrasonics, medical image processing, phantoms, real-time freehand ultrasound strain, ultrasound BibRef


Hu, Y.P.[Yi-Peng], Gibson, E.[Eli], Lee, L.L.[Li-Lin], Xie, W.[Weidi], Barratt, D.C.[Dean C.], Vercauteren, T.[Tom], Noble, J.A.[J. Alison],
Freehand Ultrasound Image Simulation with Spatially-Conditioned Generative Adversarial Networks,
RAMBO17(105-115).
Springer DOI 1711
BibRef

Tetrel, L.[Loïc], Chebrek, H.[Hacène], Laporte, C.[Catherine],
Learning for Graph-Based Sensorless Freehand 3D Ultrasound,
MLMI16(205-212).
Springer DOI 1611
BibRef

Conrath, J.[Juliette], Laporte, C.[Catherine],
Towards Improving the Accuracy of Sensorless Freehand 3D Ultrasound by Learning,
MLMI12(78-85).
Springer DOI 1211
BibRef

Gilliam, A.D., Hossack, J.A., Acton, S.T.,
Freehand 3D Ultrasound Volume Reconstruction via Sub-Pixel Phase Correlation,
ICIP06(2537-2540).
IEEE DOI 0610
BibRef

Bogush, A.L., Tuzikov, A.V.,
3D Object Volume Measurement Using Freehand Ultrasound,
SCIA05(1066-1075).
Springer DOI 0506
BibRef

Chapter on Medical Applications, CAT, MRI, Ultrasound, Heart Models, Brain Models continues in
Ultrasound, Ultrasonic, Speckle Removal, Analysis .


Last update:Nov 17, 2018 at 09:12:27