During my PhD studies 2003-2006 I did most of my publications within soft body simulation and realtime computer graphics – as well as applications in surgical simulation. During my years at the Alexandra Institute I did not actively seek to publish research but still contributed to some papers. Since 2017 my focus has been strictly commercial software R&D and leadership at Luxion.
2017
D. T. Ianni, V. C. A. Hoyos, C. Ewertsen, T. K. Kjeldsen, J. Mosegaard, M. B. Nielsen, and J. A. Jensen, “A vector flow imaging method for portable ultrasound using synthetic aperture sequential beamforming,” Ieee transactions on ultrasonics, ferroelectrics, and frequency control, vol. 64, iss. 11, p. 1655–1665, 2017.
T. di Ianni, T. K. Kjeldsen, C. A. Villagómez Hoyos, J. Mosegaard, and J. A. Jensen, “Real-time implementation of synthetic aperture vector flow imaging on a consumer-level tablet,” in Proceedings of 2017 ieee international ultrasonics symposium (ius), IEEE, 2017.
A. Dal Corso, J. Frisvad, J. Mosegaard, and Bærentzen, “Interactive directional subsurface scattering and transport of emergent light,” , vol. 33, iss. 3, p. 371–383, 2017.
2015
J. Ahdidan, C. A. Raji, E. A. DeYoe, J. Mathis, K. Ø. Noe, J. Rimestad, T. K. Kjeldsen, J. Mosegaard, J. T. Becker, and O. Lopez, “Quantitative neuroimaging software for clinical assessment of hippocampal volumes on MR imaging.,” Journal of alzheimer’s disease : jad, vol. 49, iss. 3, p. 723–732, 2015.
T. K. Kjeldsen, P. T. Mikkelsen, and J. Mosegaard, “Making digital elevation models accessible, comprehensible, and engaging through Real-Time visualization,” Geoforum perspektiv, vol. 14, iss. 25, p. 14–18, 2015.
M. C. Hemmsen, L. Lassen, T. Kjeldsen, J. Mosegaard, and J. A. Jensen, “Implementation of real-time duplex synthetic aperture ultrasonography,” in Ultrasonics symposium (ius), 2015 ieee international, 2015, p. 1–4.
2014
M. C. Hemmsen, T. Kjeldsen, L. Larsen, C. Kjaer, B. G. Tomov, J. Mosegaard, and J. A. Jensen, “Implementation of synthetic aperture imaging on a hand-held device,” in Proceedings of 2014 ieee international ultrasonics symposium, 2014, p. 2177–2180.
T. Kjeldsen, L. Lassen, M. C. Hemmsen, C. Kjaer, B. G. Tomov, J. Mosegaard, and J. A. Jensen, “Synthetic aperture sequential beamforming implemented on multi-core platforms,” in Proceedings of 2014 ieee international ultrasonics symposium, 2014, p. 2181–2184.
黄孝文, 余洋, 周良强, M. S. Sørensen, J. Mosegaard, K. Noe, and P. T. Mikkelsen, “可视耳模拟器在颞骨解剖虚拟训练中的应用,” Journal of audiology and speech pathology, vol. 21, iss. 4, p. 400–402, 2014.
T. S. Sørensen, J. Mosegaard, S. Kislinskiy, and G. F. Greil, “Virtual surgery in congenital heart disease,” in Cardiac ct and mr for adult congenital heart disease, F. Saremi, Ed., Springer New York, 2014, p. 515–523.
2012
J. Rimestad, J. Mosegaard, K. Ø. Noe, and P. T. Mikkelsen, “Teknologiske udfordringer i urbane miljøer,” in Byens digitale liv – digital urban living, First ed., M. Brynskov, K. Halskov, and L. Kabel, Eds., Forlaget Ajour, 2012.
2011
J. Børlum, B. B. Christensen, T. K. Kjeldsen, P. T. Mikkelsen, K. Ø. Noe, J. Rimestad, and J. Mosegaard, “SSLPV: subsurface light propagation volumes,” in High performance graphics, 2011, p. 1–6.
2009
M. S. Sørensen, J. Mosegaard, and P. Trier, “The visible ear simulator: a public PC application for GPU-accelerated haptic 3D simulation of ear surgery based on the visible ear data,” Otology & neurotology, vol. 30, iss. 4, p. 484–487, 2009.
T. S. Sørensen, P. Beerbaum, J. Mosegaard, and G. F. Greil, “Developing and evaluating virtual cardiotomy for preoperative planning in congenital heart disease,” Studies in health technology and informatics, vol. 142, p. 340–345, 2009.
2008
T. Sørensen, P. Beerbaum, J. Mosegaard, A. Rasmusson, T. Schaeffter, C. Austin, R. Razavi, and G. Greil, “Virtual cardiotomy based on 3-D MRI for preoperative planning in congenital heart disease,” Pediatric radiology, vol. 38, iss. 12, p. 1314–1322, 2008.
A. Rasmusson, J. Mosegaard, and T. S. Sørensen, “Exploring parallel algorithms for volumetric Mass-Spring-damper models in CUDA,” Biomedical simulation, p. 49–58, 2008.
K. Ø. Noe, J. Mosegaard, K. Tanderup, and T. S. Sørensen, “A framework for shape matching in deformable image registration.,” Studies in health technology and informatics, vol. 132, p. 333–335, 2008.
P. Trier, J. Mosegaard, and M. S. Sørensen, “GPU accelerated haptic 3-D simulation of ear surgery. a freeware application for pc based on the visible ear data,” in Collegium oto-rhino-laryngologicum amicitiae sacrum, 2008.
P. Trier, K. Ø. Noe, M. S. Sørensen, and J. Mosegaard, “The visible ear surgery simulator.,” Studies in health technology and informatics, vol. 132, p. 523–525, 2008.
2007
J. Mosegaard, B. S. Carstensen, A. Rasmusson, and T. S. Sørensen, “Smooth haptic interaction from discontinuous simulation data.,” Studies in health technology and informatics, vol. 125, p. 328–333, 2007.
J. Stawiaski, J. Mosegaard, and T. S. Sørensen, “Virtual open heart surgery segmentation.,” Studies in health technology and informatics, vol. 125, p. 448–450, 2007.
T. S. Sørensen, J. Stawiaski, and J. Mosegaard, “Virtual open heart surgery: obtaining models suitable for surgical simulation.,” Studies in health technology and informatics, vol. 125, p. 445–447, 2007.
T. S. Sørensen, J. Mosegaard, G. F. Greil, S. Miller, A. Seeger, O. K. Hansen, and L. Sieverding, “Virtual cardiotomy for preoperative planning,” Circulation, vol. 115, iss. 9, p. e312+, 2007.
2006
J. Mosegaard, “Cardiac surgery simulation – graphics hardware meets congenital heart disease,” PhD Thesis, 2006.
T. S. Sørensen, G. F. Greil, O. K. Hansen, and J. Mosegaard, “Surgical simulation–a new tool to evaluate surgical incisions in congenital heart disease?,” Interactive cardiovascular and thoracic surgery, vol. 5, iss. 5, p. 536–539, 2006.
T. S. Sørensen and J. Mosegaard, “Haptic feedback for the GPU-based surgical simulator.,” Studies in health technology and informatics, vol. 119, p. 523–528, 2006.
T. S. Sørensen and J. Mosegaard, “An introduction to GPU accelerated surgical simulation,” in Third international symposium, isbms 2006, 2006, p. 93–104.
J. Mosegaard and T. S. Sørensen, “Technical aspects of the GPU accelerated surgical simulator,” in Siggraph ’06: acm siggraph 2006 sketches, New York, NY, USA, 2006, p. 38.
T. S. Sørensen and J. Mosegaard, “Virtual open heart surgery: training complex surgical procedures in congenital heart disease,” in Siggraph ’06: acm siggraph 2006 emerging technologies, New York, NY, USA, 2006.
2005
J. Mosegaard, P. Herborg, and T. S. Sørensen, “A GPU accelerated spring mass system for surgical simulation.,” Studies in health technology and informatics, vol. 111, p. 342–348, 2005.
J. Mosegaard and T. S. Sørensen, “GPU accelerated surgical simulators for complex morphology,” in Vr ’05: proceedings of the 2005 ieee conference 2005 on virtual reality, Washington, DC, USA, 2005, p. 147–154, 323.
J. Mosegaard and T. S. Sørensen, “Real-time deformation of detailed geometry based on mappings to a less detailed physical simulation on the GPU,” in Proceedings of eurographics workshop on virtual environment, Aalborg, Denmark, 2005, p. 105–111.
T. S. Sørensen, J. Mosegaard, G. Greil, O. K. Hansen, and V. E. Hjortdal, “Preoperative planning by surgical simulation on patient-specific high-resolution virtual models,” in The fourth world congress of pediatric cardiology and cardiac surgery, 2005, p. 230.
T. S. Sørensen and J. Mosegaard, “Surgical planning in congenital heart disease by means of real-time medical visualisation and simulation,” in Siggraph ’05: acm siggraph 2005 electronic art and animation catalog, New York, NY, USA, 2005, p. 295.
2004
J. Mosegaard, “LR-spring mass model for cardiac surgical simulation.,” Studies in health technology and informatics, vol. 98, p. 256–258, 2004.
J. Mosegaard, “Parameter optimisation for the behaviour of elastic models over time.,” Studies in health technology and informatics, vol. 98, p. 253–255, 2004.