Category:Theoretical models
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Media in category "Theoretical models"
The following 200 files are in this category, out of 260 total.
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A-Branching-Process-to-Characterize-the-Dynamics-of-Stem-Cell-Differentiation-srep13265-s2.ogv 1 min 40 s, 364 × 720; 1.95 MB
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A-Branching-Process-to-Characterize-the-Dynamics-of-Stem-Cell-Differentiation-srep13265-s3.ogv 1 min 32 s, 364 × 720; 1.88 MB
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A-Model-of-Ischemia-Induced-Neuroblast-Activation-in-the-Adult-Subventricular-Zone-pone.0005278.s009.ogv 5.2 s, 976 × 816; 2.77 MB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s002.ogv 1 min 0 s, 640 × 480; 673 KB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s003.ogv 1 min 0 s, 640 × 480; 1.59 MB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s004.ogv 1 min 0 s, 640 × 480; 983 KB
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A-Spatio-Temporal-Model-of-Notch-Signalling-in-the-Zebrafish-Segmentation-Clock-Conditions-for-pone.0016980.s005.ogv 1 min 0 s, 640 × 480; 2.48 MB
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Adaptation-of-the-Spore-Discharge-Mechanism-in-the-Basidiomycota-pone.0004163.s003.ogv 5.4 s, 256 × 128; 10 KB
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Adaptation-of-the-Spore-Discharge-Mechanism-in-the-Basidiomycota-pone.0004163.s004.ogv 0.7 s, 128 × 128; 7 KB
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An-Open-Source-Simulation-Model-for-Soil-and-Sediment-Bioturbation-pone.0028028.s005.ogv 12 s, 848 × 480; 285 KB
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Barriers-to-Diffusion-in-Dendrites-and-Estimation-of-Calcium-Spread-Following-Synaptic-Inputs-pcbi.1002182.s001.ogv 12 s, 3,200 × 2,400; 20.35 MB
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Bending-It-Like-Beckham-How-to-Visually-Fool-the-Goalkeeper-pone.0013161.s002.ogv 31 s, 1,280 × 720; 12.41 MB
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Bending-It-Like-Beckham-How-to-Visually-Fool-the-Goalkeeper-pone.0013161.s003.ogv 28 s, 1,280 × 720; 6.02 MB
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Bending-It-Like-Beckham-How-to-Visually-Fool-the-Goalkeeper-pone.0013161.s004.ogv 42 s, 1,280 × 720; 14.64 MB
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Bloodstain-Pattern-Analysis-implementation-of-a-fluid-dynamic-model-for-positiondetermination-of-srep11461-s1.ogv 5.5 s, 1,023 × 1,092; 1.66 MB
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Cardiovascular-models-pone.0024388.s002.ogv 23 s, 710 × 406; 20.54 MB
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Cellular-forces-and-matrix-assembly-coordinate-fibrous-tissue-repair-ncomms11036-s5.ogv 4.9 s, 1,024 × 512; 4.18 MB
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Cellular-forces-and-matrix-assembly-coordinate-fibrous-tissue-repair-ncomms11036-s6.ogv 3.8 s, 512 × 512; 995 KB
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Cellular-forces-and-matrix-assembly-coordinate-fibrous-tissue-repair-ncomms11036-s7.ogv 2.8 s, 1,024 × 512; 2.18 MB
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Cellular-forces-and-matrix-assembly-coordinate-fibrous-tissue-repair-ncomms11036-s8.ogv 3.8 s, 511 × 512; 2.41 MB
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Cellular-forces-and-matrix-assembly-coordinate-fibrous-tissue-repair-ncomms11036-s9.ogv 3.8 s, 511 × 512; 2.89 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s1.ogv 3.7 s, 1,024 × 1,024; 468 KB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s10.ogv 15 s, 256 × 256; 1.83 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s2.ogv 5.6 s, 1,024 × 1,024; 825 KB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s3.ogv 26 s, 512 × 512; 5.76 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s4.ogv 25 s, 512 × 512; 7.69 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s5.ogv 22 s, 512 × 512; 9.87 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s6.ogv 15 s, 512 × 512; 4.1 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s7.ogv 15 s, 512 × 512; 4.64 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s8.ogv 20 s, 512 × 512; 12.12 MB
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Collisions-of-deformable-cells-lead-to-collective-migration-srep09172-s9.ogv 15 s, 256 × 256; 1.18 MB
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Controlling-Endemic-Cholera-with-Oral-Vaccines-pmed.0040336.sv001.ogv 1 min 9 s, 1,280 × 768; 76.88 MB
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Controlling-Endemic-Cholera-with-Oral-Vaccines-pmed.0040336.sv002.ogv 58 s, 1,280 × 768; 44.85 MB
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Cooperation-Norms-and-Revolutions-A-Unified-Game-Theoretical-Approach-pone.0012530.s001.ogv 20 s, 560 × 500; 3.34 MB
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Cooperation-Norms-and-Revolutions-A-Unified-Game-Theoretical-Approach-pone.0012530.s002.ogv 18 s, 560 × 500; 2.05 MB
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Cooperation-Norms-and-Revolutions-A-Unified-Game-Theoretical-Approach-pone.0012530.s003.ogv 19 s, 560 × 500; 3.34 MB
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Coordinated-vigilance-provides-evidence-for-direct-reciprocity-in-coral-reef-fishes-srep14556-s1.ogv 1 min 2 s, 854 × 480; 32.15 MB
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Coordinated-vigilance-provides-evidence-for-direct-reciprocity-in-coral-reef-fishes-srep14556-s2.ogv 13 s, 960 × 528; 6.06 MB
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Detecting-Deception-in-Movement-The-Case-of-the-Side-Step-in-Rugby-pone.0037494.s001.ogv 21 s, 960 × 540; 2.61 MB
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Detecting-Deception-in-Movement-The-Case-of-the-Side-Step-in-Rugby-pone.0037494.s003.ogv 33 s, 960 × 540; 2.9 MB
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Earth and train 2FPS.gif 480 × 170; 479 KB
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Earth and train.gif 480 × 170; 479 KB
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Efficient-Structure-Resonance-Energy-Transfer-from-Microwaves-to-Confined-Acoustic-Vibrations-in-srep18030-s2.ogv 8.0 s, 1,440 × 1,080; 2.19 MB
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Efficient-Structure-Resonance-Energy-Transfer-from-Microwaves-to-Confined-Acoustic-Vibrations-in-srep18030-s3.ogv 7.9 s, 1,440 × 1,080; 2.21 MB
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Evolution-of-Adaptive-Behaviour-in-Robots-by-Means-of-Darwinian-Selection-pbio.1000292.s002.ogv 3 min 1 s, 400 × 300; 5.35 MB
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Evolution-of-Adaptive-Behaviour-in-Robots-by-Means-of-Darwinian-Selection-pbio.1000292.s003.ogv 1 min 21 s, 652 × 480; 4.7 MB
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Evolution-of-Adaptive-Behaviour-in-Robots-by-Means-of-Darwinian-Selection-pbio.1000292.s004.ogv 53 s, 384 × 288; 5.62 MB
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Evolution-of-Adaptive-Behaviour-in-Robots-by-Means-of-Darwinian-Selection-pbio.1000292.s005.ogv 36 s, 160 × 120; 522 KB
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Evolution-of-Adaptive-Behaviour-in-Robots-by-Means-of-Darwinian-Selection-pbio.1000292.s006.ogv 6 min 13 s, 160 × 120; 5.15 MB
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Evolution-of-Adaptive-Behaviour-in-Robots-by-Means-of-Darwinian-Selection-pbio.1000292.s007.ogv 1 min 49 s, 320 × 240; 2.22 MB
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From-2D-to-3D-novel-nanostructured-scaffolds-to-investigate-signalling-in-reconstructed-neuronal-srep09562-s3.ogv 5.6 s, 1,024 × 1,024; 4.57 MB
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Harbour-porpoises-react-to-low-levels-of-high-frequency-vessel-noise-srep11083-s2.ogv 27 s, 320 × 240; 2.46 MB
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Hedging-against-Antiviral-Resistance-during-the-Next-Influenza-Pandemic-Using-Small-Stockpiles-of-pmed.1000085.s002.ogv 1 min 20 s, 1,152 × 680; 2.99 MB
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Hedging-against-Antiviral-Resistance-during-the-Next-Influenza-Pandemic-Using-Small-Stockpiles-of-pmed.1000085.s003.ogv 1 min 20 s, 1,152 × 680; 2.78 MB
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Hedging-against-Antiviral-Resistance-during-the-Next-Influenza-Pandemic-Using-Small-Stockpiles-of-pmed.1000085.s004.ogv 1 min 20 s, 1,152 × 680; 2.8 MB
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Hedging-against-Antiviral-Resistance-during-the-Next-Influenza-Pandemic-Using-Small-Stockpiles-of-pmed.1000085.s005.ogv 1 min 20 s, 1,152 × 680; 2.89 MB
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High-Throughput-Non-Contact-Vitrification-of-Cell-Laden-Droplets-Based-on-Cell-Printing-srep17928-s1.ogv 12 s, 1,920 × 1,080; 1.53 MB
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Hospital-Networks-and-the-Dispersal-of-Hospital-Acquired-Pathogens-by-Patient-Transfer-pone.0035002.s004.ogv 3 min 3 s, 448 × 336; 13.32 MB
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In-Silico-Reconstitution-of-Listeria-Propulsion-Exhibits-Nano-Saltation-pbio.0020412.sv001.ogv 17 s, 501 × 501; 1.69 MB
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In-Silico-Reconstitution-of-Listeria-Propulsion-Exhibits-Nano-Saltation-pbio.0020412.sv002.ogv 10 s, 501 × 501; 5.66 MB
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Long-range-ordered-vorticity-patterns-in-living-tissue-induced-by-cell-division-ncomms6720-s2.ogv 4.8 s, 1,920 × 576; 1.79 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s10.ogv 10 s, 1,280 × 960; 6.68 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s11.ogv 8.6 s, 1,280 × 960; 7.4 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s12.ogv 11 s, 1,280 × 960; 3.06 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s13.ogv 4.4 s, 512 × 512; 543 KB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s14.ogv 9.8 s, 1,280 × 960; 1.67 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s15.ogv 6.0 s, 512 × 512; 1.02 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s2.ogv 12 s, 1,280 × 960; 4.42 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s3.ogv 10 s, 1,280 × 960; 4.52 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s4.ogv 14 s, 1,280 × 960; 4.56 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s5.ogv 13 s, 1,280 × 960; 4.49 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s6.ogv 9.5 s, 1,280 × 960; 3.2 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s7.ogv 13 s, 1,280 × 960; 5.74 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s8.ogv 8.6 s, 1,280 × 960; 5.19 MB
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Mechanics-of-epithelial-closure-over-non-adherent-environments-ncomms7111-s9.ogv 8.5 s, 1,280 × 960; 5.78 MB
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Metapopulation.svg 512 × 384; 66 KB
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Microtubule-teardrop-patterns-srep09581-s2.ogv 6.1 s, 240 × 240; 279 KB
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Microtubule-teardrop-patterns-srep09581-s3.ogv 6.1 s, 240 × 240; 188 KB
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Microtubule-teardrop-patterns-srep09581-s4.ogv 6.1 s, 240 × 240; 494 KB
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Model of Goal Based Scenario.png 400 × 218; 18 KB
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Modeling-Cell-Gradient-Sensing-and-Migration-in-Competing-Chemoattractant-Fields-pone.0018805.s004.ogv 8.1 s, 500 × 620; 1.44 MB
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Modeling-the-Worldwide-Spread-of-Pandemic-Influenza-Baseline-Case-and-Containment-Interventions-pmed.0040013.sv001.ogv 2 min 6 s, 856 × 480; 6.48 MB
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Modeling-the-Worldwide-Spread-of-Pandemic-Influenza-Baseline-Case-and-Containment-Interventions-pmed.0040013.sv002.ogv 1 min 21 s, 853 × 480; 4.55 MB
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Modeling-the-Worldwide-Spread-of-Pandemic-Influenza-Baseline-Case-and-Containment-Interventions-pmed.0040013.sv003.ogv 1 min 6 s, 853 × 480; 3.52 MB
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Modeling-the-Worldwide-Spread-of-Pandemic-Influenza-Baseline-Case-and-Containment-Interventions-pmed.0040013.sv004.ogv 1 min 6 s, 853 × 480; 3.29 MB
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Multi-body-simulation-of-a-canine-hind-limb-model-development-experimental-validation-and-1475-925X-8-36-S1.ogv 9.5 s, 1,113 × 574; 2.77 MB
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Multilevel-Selection-in-Models-of-Prebiotic-Evolution-II-A-Direct-Comparison-of-pcbi.1000542.s004.ogv 25 s, 544 × 400; 28.27 MB
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Multilevel-Selection-in-Models-of-Prebiotic-Evolution-II-A-Direct-Comparison-of-pcbi.1000542.s005.ogv 33 s, 512 × 512; 25.36 MB
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Multilevel-Selection-in-Models-of-Prebiotic-Evolution-II-A-Direct-Comparison-of-pcbi.1000542.s006.ogv 38 s, 816 × 816; 20.01 MB
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Multilevel-Selection-in-Models-of-Prebiotic-Evolution-II-A-Direct-Comparison-of-pcbi.1000542.s007.ogv 8.3 s, 512 × 512; 7.09 MB
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New-Mechanism-of-Spiral-Wave-Initiation-in-a-Reaction-Diffusion-Mechanics-System-pone.0027264.s001.ogv 0.0 s, 428 × 402; 1.77 MB
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New-Mechanism-of-Spiral-Wave-Initiation-in-a-Reaction-Diffusion-Mechanics-System-pone.0027264.s002.ogv 6.9 s, 300 × 282; 1.46 MB
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Non-contact-synchronous-dynamic-measurement-of-respiratory-rate-and-heart-rate-based-on-dual-12938 2016 300 MOESM1 ESM.ogv 4 min 39 s, 640 × 480; 35.37 MB
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Optimizing-Metapopulation-Sustainability-through-a-Checkerboard-Strategy-pcbi.1000643.s002.ogv 17 s, 672 × 496; 10.49 MB
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Optimizing-Metapopulation-Sustainability-through-a-Checkerboard-Strategy-pcbi.1000643.s003.ogv 0.0 s, 716 × 504; 12.53 MB
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Optimizing-Tactics-for-Use-of-the-U.S.-Antiviral-Strategic-National-Stockpile-for-Pandemic-Influenza-pone.0016094.s002.ogv 2 min 51 s, 1,294 × 800; 5.27 MB
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Passive-appendages-generate-drift-through-symmetry-breaking-ncomms6310-s2.ogv 14 s, 240 × 308; 604 KB
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Passive-appendages-generate-drift-through-symmetry-breaking-ncomms6310-s3.ogv 15 s, 298 × 227; 567 KB
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Passive-appendages-generate-drift-through-symmetry-breaking-ncomms6310-s4.ogv 16 s, 240 × 320; 789 KB
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Passive-appendages-generate-drift-through-symmetry-breaking-ncomms6310-s5.ogv 20 s, 190 × 320; 951 KB
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Passive-appendages-generate-drift-through-symmetry-breaking-ncomms6310-s6.ogv 23 s, 107 × 320; 601 KB
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Passive-appendages-generate-drift-through-symmetry-breaking-ncomms6310-s7.ogv 6.2 s, 1,080 × 1,124; 174 KB
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Passive-appendages-generate-drift-through-symmetry-breaking-ncomms6310-s8.ogv 5.2 s, 1,076 × 1,152; 313 KB
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Pattern-formation-in-multiplex-networks-srep10840-s2.ogv 37 s, 320 × 240; 284 KB
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Pattern-formation-in-multiplex-networks-srep10840-s3.ogv 1 min 19 s, 320 × 240; 3.09 MB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s2.ogv 3.0 s, 482 × 692; 258 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s3.ogv 5.3 s, 522 × 1,188; 500 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s4.ogv 10 s, 396 × 792; 453 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s5.ogv 10 s, 330 × 660; 507 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s6.ogv 10 s, 495 × 990; 837 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s7.ogv 16 s, 330 × 660; 552 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s8.ogv 16 s, 330 × 660; 550 KB
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Physical-principles-of-membrane-remodelling-during-cell-mechanoadaptation-ncomms8292-s9.ogv 32 s, 319 × 638; 722 KB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s2.ogv 16 s, 800 × 800; 9.05 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s3.ogv 2 min 46 s, 600 × 600; 32.06 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s4.ogv 5.0 s, 800 × 800; 21.39 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s5.ogv 43 s, 400 × 400; 37.58 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s6.ogv 25 s, 400 × 400; 21.24 MB
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Rapid-expulsion-of-microswimmers-by-a-vortical-flow-ncomms11114-s7.ogv 17 s, 960 × 960; 17.68 MB