Recoverable Identifier
advisory
doi_compliance
recoverable_identifier
DOI in the printed bibliography is fragmented by whitespace or line breaks. A longer candidate (10.1007/84152012126) was visible in the surrounding text but could not be confirmed against doi.org as printed.
Paper page Integrity report arXiv Try DOI
Evidence text
J. E. Lloyd, I. Stavness and Sidney Fels, “ArtiSynth: A fast interactive biomechanical modeling toolkit combining multibody and finite element simulation,” Soft Tissue Biomechanical Model- ing for Computer Assisted Surgery, pp. 355-394, Springer, 2012. https://link.springer.com/chapter/10.1007/8415 2012 126 R. Blandinwas born in Pau, France, in 1989. He received his master’s degree in acoustics from the University Pierre and Marie Curie, Paris, France, in 2013, and his Ph.D. degree in acoustics from the University of Grenoble, France, in 2016. From 2019 to 2024, he worked as a Postdoctoral Re- searcher at the Dresden University of Technology (TU Dresden) on speech acoustics and silent speech interfaces based on radio frequencies. Since 2024, he has been working as a Postdoctoral Researcher at the University of Rennes on metasurface design for wavefront shaping. His research interests include waveguides, speech production, speech directivity, silent speech interfaces, bioelectromagnetics, and wave control in complex media. 16 B. Lloydreceived an M.Sc. degree in electrical engineering from ETH Zurich, Zurich, Switzerland. He received a Ph.D. degree in electrical engineering from the Computer Vision Laboratory, ETH Zurich, Zurich, where his research focused on computational modeling of tumor growth and soft tissue simu- lation for virtual reality training simulators. He is currently a Senior Scientist and Core Architect of the Sim4Life computational physics platform. His researc
Evidence payload
{
"printed_excerpt": "J. E. Lloyd, I. Stavness and Sidney Fels, \u201cArtiSynth: A fast interactive biomechanical modeling toolkit combining multibody and finite element simulation,\u201d Soft Tissue Biomechanical Model- ing for Computer Assisted Surgery, pp. 355-394, Spr",
"reconstructed_doi": "10.1007/84152012126",
"ref_index": 72,
"resolved_title": null,
"verdict_class": "incontrovertible"
}