Neuromusculoskeletal computer modeling and simulation of upright, straight-legged, bipedal locomotion of Australopithecus afarensis (A.L. 288-1).
about
March of the titans: the locomotor capabilities of sauropod dinosaursVertical jumping performance of bonobo (Pan paniscus) suggests superior muscle propertiesArboreality, terrestriality and bipedalismEstimating dinosaur maximum running speeds using evolutionary roboticsContribution of non-extensor muscles of the leg to maximal-effort countermovement jumping.Locomotion and posture from the common hominoid ancestor to fully modern hominins, with special reference to the last common panin/hominin ancestorMuscle moment arms and sensitivity analysis of a mouse hindlimb musculoskeletal modelSurprising trunk rotational capabilities in chimpanzees and implications for bipedal walking proficiency in early hominins.Musculoskeletal modelling of an ostrich (Struthio camelus) pelvic limb: influence of limb orientation on muscular capacity during locomotion.Analysis of joint force and torque for the human and non-human ape foot during bipedal walking with implications for the evolution of the footHumans, geometric similarity and the Froude number: is ''reasonably close'' really close enough?The energetic cost of walking: a comparison of predictive methodsMorphometrics and inertial properties in the body segments of chimpanzees (Pan troglodytes)Morphological analysis of the hindlimb in apes and humans. II. Moment armsThe up and down bobbing of human walking: a compromise between muscle work and efficiencyStride lengths, speed and energy costs in walking of Australopithecus afarensis: using evolutionary robotics to predict locomotion of early human ancestorsStance and swing phase costs in human walking.[Application of the musculo-skeletal modelling software lhpFusionBox to a paleoanthropological problem: the Spyrou Neandertal moves!].Hominin Hip Biomechanics: Changing Perspectives.Optimality principles for model-based prediction of human gait.Muscle area estimation from cortical bone.Forearm pronation efficiency in A.L. 288-1 (Australopithecus afarensis) and MH2 (Australopithecus sediba): Insights into their locomotor and manipulative habits.Energetic cost of walking in fossil hominins.3D analysis of the forearm rotational efficiency variation in humans.Forward dynamic simulation of bipedal walking in the Japanese macaque: investigation of causal relationships among limb kinematics, speed, and energetics of bipedal locomotion in a nonhuman primate.Hip extensor mechanics and the evolution of walking and climbing capabilities in humans, apes, and fossil hominins.Exploring diagonal gait using a forward dynamic three-dimensional chimpanzee simulation.Muscle moment arm analyses applied to vertebrate paleontology: a case study using Stegosaurus stenops Marsh, 1887Three-dimensional kinematics and the origin of the hominin walking stride
P2860
Q21090695-21CB2D69-4782-4AA4-A0E0-90D810493D95Q22065939-E24D096E-8115-402F-884D-E09D7C558A81Q24605214-81273792-7A54-4BA6-931E-5B41E1536C27Q24646980-C5E703BB-EE69-4BDD-B2B8-E7936B24194AQ24814732-C971637D-1B5B-4132-9C8C-58F130290291Q28274703-C9B52C99-DCB6-4597-9CB2-7001130E9B74Q28596240-4FE9493A-E773-4AF4-81C3-90D045ACFB80Q28606546-C44B4B2B-D1AA-4494-810D-8AC91C05CA92Q28648504-A9E8ACE9-635E-4993-B1F1-5D4C07604C3AQ28655306-10852087-14E9-47FA-9183-6DB4EF44ACD1Q28708814-47814575-B189-42D9-B60B-4383DFC13BF5Q28743315-235533E5-D4C9-45E6-8691-168BD71C7F38Q28754646-C5C5E9CC-8506-4B9B-98DB-483E64911905Q28756566-B6622866-24FF-40EA-9302-94A34D3DE681Q28756723-B08F26E9-6B80-4DB0-A65B-5A0A6E3DDE5BQ28767054-B4F8AAFE-D3BB-4581-AEEC-FBFEEEE98AADQ30495225-CDF8C24F-1AE5-48D5-B4E3-6B9A3829AA5CQ34823631-9C05A88F-1F3B-4C84-9585-100167D3AC9CQ38838578-5737AFE5-DEF0-4F6F-9222-76F1E5AFF6DAQ39908327-01B86626-1ADE-4ECF-929C-8460DF275D3BQ44563318-9169930A-D67F-4B2E-9212-60571C62542AQ46300552-D2A9C6BB-2D5E-4CCF-BE49-835C3436195BQ46317481-39B31C19-4E5F-4C8A-A750-D0D8421C8E3EQ47206651-61456A9C-258E-450E-BD7E-52899D986CECQ50680864-8AA1336D-3EB1-4CE0-878E-3E52DD67668AQ52611923-ED8FECE0-B136-4F95-9C99-283AEE52F46AQ52836909-B746708E-FEE0-4AAF-BF2E-F11CAA9FBC43Q56622656-80BEDA4D-2D9D-45AC-B967-9B33A29BBEAFQ57212181-4EAC131E-4805-45D2-A087-DD472E426EE9
P2860
Neuromusculoskeletal computer modeling and simulation of upright, straight-legged, bipedal locomotion of Australopithecus afarensis (A.L. 288-1).
description
2005 nî lūn-bûn
@nan
2005 թուականի Յունուարին հրատարակուած գիտական յօդուած
@hyw
2005 թվականի հունվարին հրատարակված գիտական հոդված
@hy
2005年の論文
@ja
2005年論文
@yue
2005年論文
@zh-hant
2005年論文
@zh-hk
2005年論文
@zh-mo
2005年論文
@zh-tw
2005年论文
@wuu
name
Neuromusculoskeletal computer ...... thecus afarensis (A.L. 288-1).
@ast
Neuromusculoskeletal computer ...... thecus afarensis (A.L. 288-1).
@en
type
label
Neuromusculoskeletal computer ...... thecus afarensis (A.L. 288-1).
@ast
Neuromusculoskeletal computer ...... thecus afarensis (A.L. 288-1).
@en
prefLabel
Neuromusculoskeletal computer ...... thecus afarensis (A.L. 288-1).
@ast
Neuromusculoskeletal computer ...... thecus afarensis (A.L. 288-1).
@en
P2093
P356
P1476
Neuromusculoskeletal computer ...... thecus afarensis (A.L. 288-1).
@en
P2093
Akinori Nagano
Karin G M Gerritsen
Mary W Marzke
P356
10.1002/AJPA.10408
P577
2005-01-01T00:00:00Z