Predicting muscle activation patterns from motion and anatomy: modelling the skull of Sphenodon (Diapsida: Rhynchocephalia).
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The head and neck anatomy of sea turtles (Cryptodira: Chelonioidea) and skull shape in TestudinesFunctional relationship between skull form and feeding mechanics in Sphenodon, and implications for diapsid skull developmentMicro-CTvlab: A web based virtual gallery of biological specimens using X-ray microtomography (micro-CT)Decoupled form and function in disparate herbivorous dinosaur cladesThe importance of accurate muscle modelling for biomechanical analyses: a case study with a lizard skullMasticatory loadings and cranial deformation in Macaca fascicularis: a finite element analysis sensitivity studyCombining geometric morphometrics and functional simulation: an emerging toolkit for virtual functional analysesModeling the biomechanics of swine mastication--an inverse dynamics approach.Masticatory biomechanics in the rabbit: a multi-body dynamics analysis.A 3D interactive model and atlas of the jaw musculature of Alligator mississippiensis.Morphological evolution of the mammalian jaw adductor complex.Craniofacial biomechanics: an overview of recent multibody modelling studies.Temporal bone arrangements in turtles: an overview.The impact of simplifications on the performance of a finite element model of a Macaca fascicularis cranium.Musculoskeletal modelling under an evolutionary perspective: deciphering the role of single muscle regions in closely related insects.Cranial sutures work collectively to distribute strain throughout the reptile skull.The morphology of the mouse masticatory musculature.The biomechanical role of the chondrocranium and sutures in a lizard cranium.Shearing mechanics and the influence of a flexible symphysis during oral food processing in Sphenodon (Lepidosauria: Rhynchocephalia).Form-function relationships in dragonfly mandibles under an evolutionary perspective.Computational biomechanics changes our view on insect head evolution.A tiny Triassic saurian from Connecticut and the early evolution of the diapsid feeding apparatus.A sensitivity analysis to the role of the fronto-parietal suture in Lacerta bilineata: a preliminary finite element study.Macroevolutionary patterns in Rhynchocephalia: is the tuatara (Sphenodon punctatus ) a living fossil?A simple setup for episcopic microtomy and a digital image processing workflow to acquire high-quality volume data and 3D surface models of small vertebrates
P2860
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P2860
Predicting muscle activation patterns from motion and anatomy: modelling the skull of Sphenodon (Diapsida: Rhynchocephalia).
description
2009 nî lūn-bûn
@nan
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
2009年论文
@zh
2009年论文
@zh-cn
name
Predicting muscle activation p ...... n (Diapsida: Rhynchocephalia).
@en
Predicting muscle activation p ...... delling the skull of Sphenodon
@nl
type
label
Predicting muscle activation p ...... n (Diapsida: Rhynchocephalia).
@en
Predicting muscle activation p ...... delling the skull of Sphenodon
@nl
prefLabel
Predicting muscle activation p ...... n (Diapsida: Rhynchocephalia).
@en
Predicting muscle activation p ...... delling the skull of Sphenodon
@nl
P2093
P2860
P50
P356
P1476
Predicting muscle activation p ...... on (Diapsida: Rhynchocephalia)
@en
P2093
JunFen Shi
Michael J Fagan
Neil Curtis
Paul O'Higgins
P2860
P304
P356
10.1098/RSIF.2009.0139
P577
2009-05-27T00:00:00Z