Thomas L. Daniel - Publications

Affiliations: 
University of Washington, Seattle, Seattle, WA 
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76 high-probability publications. We are testing a new system for linking publications to authors. You can help! If you notice any inaccuracies, please sign in and mark papers as correct or incorrect matches. If you identify any major omissions or other inaccuracies in the publication list, please let us know.

Year Citation  Score
2023 Stanchak KE, Deora T, Weber AI, Hickner MK, Moalin A, Abdalla L, Daniel TL, Brunton BW. Intraspecific variation in the placement of campaniform sensilla on the wings of the hawkmoth . Biorxiv : the Preprint Server For Biology. PMID 37425819 DOI: 10.1101/2023.06.26.546554  0.794
2023 Weber AI, Babaei M, Mamo A, Brunton BW, Daniel TL, Bergbreiter S. Nonuniform structural properties of wings confer sensing advantages. Journal of the Royal Society, Interface. 20: 20220765. PMID 36946090 DOI: 10.1098/rsif.2022.0765  0.795
2023 Wang H, Swore J, Sharma S, Szymanski JR, Yuste R, Daniel TL, Regnier M, Bosma MM, Fairhall AL. A complete biomechanical model of contractile behaviors, from neural drive to muscle to movement. Proceedings of the National Academy of Sciences of the United States of America. 120: e2210439120. PMID 36897982 DOI: 10.1073/pnas.2210439120  0.598
2022 Bustamante J, Ahmed M, Deora T, Fabien B, Daniel TL. Abdominal Movements in Insect Flight Reshape the Role of Non-Aerodynamic Structures for Flight Maneuverability I: Model Predictive Control for Flower Tracking. Integrative Organismal Biology (Oxford, England). 4: obac039. PMID 36249575 DOI: 10.1093/iob/obac039  0.756
2022 Zahn O, Bustamante J, Switzer C, Daniel TL, Kutz JN. Pruning deep neural networks generates a sparse, bio-inspired nonlinear controller for insect flight. Plos Computational Biology. 18: e1010512. PMID 36166481 DOI: 10.1371/journal.pcbi.1010512  0.721
2021 Deora T, Ahmed MA, Brunton BW, Daniel TL. Learning to feed in the dark: how light level influences feeding in the hawkmoth . Biology Letters. 17: 20210320. PMID 34520685 DOI: 10.1098/rsbl.2021.0320  0.622
2021 Cass JA, Williams CD, Irving TC, Lauga E, Malingen S, Daniel TL, Sponberg SN. A mechanism for sarcomere breathing: volume change and advective flow within the myofilament lattice. Biophysical Journal. PMID 34384761 DOI: 10.1016/j.bpj.2021.08.006  0.662
2021 Weber AI, Daniel TL, Brunton BW. Wing structure and neural encoding jointly determine sensing strategies in insect flight. Plos Computational Biology. 17: e1009195. PMID 34379622 DOI: 10.1371/journal.pcbi.1009195  0.788
2020 Malingen SA, Asencio AM, Cass JA, Ma W, Irving TC, Daniel TL. x-ray diffraction and simultaneous EMG reveal the time course of myofilament lattice dilation and filament stretch. The Journal of Experimental Biology. PMID 32709625 DOI: 10.1242/jeb.224188  0.348
2019 Mohren TL, Daniel TL, Eberle AL, Reinhall PG, Fox JL. Coriolis and centrifugal forces drive haltere deformations and influence spike timing. Journal of the Royal Society, Interface. 16: 20190035. PMID 31014202 DOI: 10.1098/rsif.2019.0035  0.665
2018 Mohren TL, Daniel TL, Brunton SL, Brunton BW. Neural-inspired sensors enable sparse, efficient classification of spatiotemporal data. Proceedings of the National Academy of Sciences of the United States of America. PMID 30213850 DOI: 10.1073/Pnas.1808909115  0.673
2018 Powers J, Williams C, Regnier M, Daniel T. A spatially explicit model shows how titin stiffness modulates muscle mechanics and energetics. Integrative and Comparative Biology. PMID 29897447 DOI: 10.1093/Icb/Icy055  0.359
2018 Powers JD, Williams CD, Regnier M, Daniel TL. The Nonlinear Mechanical Properties of Titin Modulate Striated Muscle Contraction Efficiency Biophysical Journal. 114: 135a-136a. DOI: 10.1016/j.bpj.2017.11.768  0.3
2017 Pratt B, Deora T, Mohren T, Daniel T. Neural evidence supports a dual sensory-motor role for insect wings. Proceedings. Biological Sciences. 284. PMID 28904136 DOI: 10.1098/rspb.2017.0969  0.371
2017 Jankauski M, Daniel T, Shen I. Asymmetries in wing inertial and aerodynamic torques contribute to steering in flying insects. Bioinspiration & Biomimetics. PMID 28474606 DOI: 10.1088/1748-3190/Aa714E  0.348
2016 Roth E, Hall RW, Daniel TL, Sponberg S. Integration of parallel mechanosensory and visual pathways resolved through sensory conflict. Proceedings of the National Academy of Sciences of the United States of America. PMID 27791056 DOI: 10.1073/Pnas.1522419113  0.688
2015 Sponberg S, Dyhr JP, Hall RW, Daniel TL. INSECT FLIGHT. Luminance-dependent visual processing enables moth flight in low light. Science (New York, N.Y.). 348: 1245-8. PMID 26068850 DOI: 10.1126/Science.Aaa3042  0.755
2015 Sponberg S, Daniel TL, Fairhall AL. Dual dimensionality reduction reveals independent encoding of motor features in a muscle synergy for insect flight control. Plos Computational Biology. 11: e1004168. PMID 25919482 DOI: 10.1371/Journal.Pcbi.1004168  0.765
2015 Eberle AL, Dickerson BH, Reinhall PG, Daniel TL. A new twist on gyroscopic sensing: body rotations lead to torsion in flapping, flexing insect wings. Journal of the Royal Society, Interface / the Royal Society. 12: 20141088. PMID 25631565 DOI: 10.1098/rsif.2014.1088  0.376
2014 Dieudonné A, Daniel TL, Sane SP. Encoding properties of the mechanosensory neurons in the Johnston's organ of the hawk moth, Manduca sexta. The Journal of Experimental Biology. 217: 3045-56. PMID 24948632 DOI: 10.1242/jeb.101568  0.748
2014 Cowan NJ, Ankarali MM, Dyhr JP, Madhav MS, Roth E, Sefati S, Sponberg S, Stamper SA, Fortune ES, Daniel TL. Feedback control as a framework for understanding tradeoffs in biology. Integrative and Comparative Biology. 54: 223-37. PMID 24893678 DOI: 10.1093/Icb/Icu050  0.775
2014 Eberle AL, Reinhall PG, Daniel TL. Fluid-structure interaction in compliant insect wings. Bioinspiration & Biomimetics. 9: 025005. PMID 24855064 DOI: 10.1088/1748-3182/9/2/025005  0.361
2014 Dickerson BH, Aldworth ZN, Daniel TL. Control of moth flight posture is mediated by wing mechanosensory feedback. The Journal of Experimental Biology. 217: 2301-8. PMID 24737754 DOI: 10.1242/jeb.103770  0.76
2013 Williams CD, Salcedo MK, Irving TC, Regnier M, Daniel TL. The length-tension curve in muscle depends on lattice spacing. Proceedings. Biological Sciences / the Royal Society. 280: 20130697. PMID 23843386 DOI: 10.1098/Rspb.2013.0697  0.353
2013 George NT, Irving TC, Williams CD, Daniel TL. The cross-bridge spring: can cool muscles store elastic energy? Science (New York, N.Y.). 340: 1217-20. PMID 23618763 DOI: 10.1126/Science.1229573  0.717
2013 Dyhr JP, Morgansen KA, Daniel TL, Cowan NJ. Flexible strategies for flight control: an active role for the abdomen. The Journal of Experimental Biology. 216: 1523-36. PMID 23596279 DOI: 10.1242/Jeb.077644  0.806
2013 Hinson BT, Rombokas E, Dyhr JP, Daniel TL, Morgansen KA. Sensing from control: Airframe deformation for simultaneous actuation and state estimation Proceedings of the Ieee Conference On Decision and Control. 2683-2690. DOI: 10.1109/CDC.2013.6760288  0.756
2012 Hinterwirth AJ, Medina B, Lockey J, Otten D, Voldman J, Lang JH, Hildebrand JG, Daniel TL. Wireless stimulation of antennal muscles in freely flying hawkmoths leads to flight path changes. Plos One. 7: e52725. PMID 23300751 DOI: 10.1371/Journal.Pone.0052725  0.7
2012 Williams CD, Regnier M, Daniel TL. Elastic energy storage and radial forces in the myofilament lattice depend on sarcomere length. Plos Computational Biology. 8: e1002770. PMID 23166482 DOI: 10.1371/Journal.Pcbi.1002770  0.373
2012 Sponberg S, Daniel TL. Abdicating power for control: a precision timing strategy to modulate function of flight power muscles. Proceedings. Biological Sciences / the Royal Society. 279: 3958-66. PMID 22833272 DOI: 10.1098/Rspb.2012.1085  0.683
2012 Tanner BC, Daniel TL, Regnier M. Filament compliance influences cooperative activation of thin filaments and the dynamics of force production in skeletal muscle. Plos Computational Biology. 8: e1002506. PMID 22589710 DOI: 10.1371/Journal.Pcbi.1002506  0.609
2012 George NT, Sponberg S, Daniel TL. Temperature gradients drive mechanical energy gradients in the flight muscle of Manduca sexta. The Journal of Experimental Biology. 215: 471-9. PMID 22246256 DOI: 10.1242/Jeb.062901  0.772
2012 Tsang WM, Stone AL, Otten D, Aldworth ZN, Daniel TL, Hildebrand JG, Levine RB, Voldman J. Insect-machine interface: a carbon nanotube-enhanced flexible neural probe. Journal of Neuroscience Methods. 204: 355-65. PMID 22155384 DOI: 10.1016/j.jneumeth.2011.11.026  0.691
2012 Dyhr JP, Cowan NJ, Colmenares DJ, Morgansen KA, Daniel TL. Autostabilizing airframe articulation: Animal inspired air vehicle control Proceedings of the Ieee Conference On Decision and Control. 3715-3720. DOI: 10.1109/CDC.2012.6426256  0.768
2012 Daniel T, Aldworth Z, Hinterwirth A, Fox J. Insect inertial measurement units: Gyroscopic sensing of body rotation Frontiers in Sensing: From Biology to Engineering. 2147483647: 287-297. DOI: 10.1007/978-3-211-99749-9_19  0.757
2012 Demir A, Ankarali MM, Dyhr JP, Morgansen KA, Daniel TL, Cowan NJ. Inertial redirection of thrust forces for flight stabilization Adaptive Mobile Robotics - Proceedings of the 15th International Conference On Climbing and Walking Robots and the Support Technologies For Mobile Machines, Clawar 2012. 239-246.  0.776
2011 George NT, Daniel TL. Temperature gradients in the flight muscles of Manduca sexta imply a spatial gradient in muscle force and energy output. The Journal of Experimental Biology. 214: 894-900. PMID 21346115 DOI: 10.1242/Jeb.047969  0.718
2010 Williams CD, Regnier M, Daniel TL. Axial and radial forces of cross-bridges depend on lattice spacing. Plos Computational Biology. 6: e1001018. PMID 21152002 DOI: 10.1371/Journal.Pcbi.1001018  0.344
2010 Mountcastle AM, Daniel TL. Vortexlet models of flapping flexible wings show tuning for force production and control. Bioinspiration & Biomimetics. 5: 045005. PMID 21098955 DOI: 10.1088/1748-3182/5/4/045005  0.795
2010 Hinterwirth AJ, Daniel TL. Antennae in the hawkmoth Manduca sexta (Lepidoptera, Sphingidae) mediate abdominal flexion in response to mechanical stimuli. Journal of Comparative Physiology. a, Neuroethology, Sensory, Neural, and Behavioral Physiology. 196: 947-56. PMID 20820787 DOI: 10.1007/s00359-010-0578-5  0.686
2010 Biewener A, Daniel T. A moving topic: Control and dynamics of animal locomotion Biology Letters. 6: 387-388. PMID 20410030 DOI: 10.1098/Rsbl.2010.0294  0.369
2010 Tsang WM, Stone AL, Aldworth ZN, Hildebrand JG, Daniel TL, Akinwande AI, Voldman J. Flexible split-ring electrode for insect flight biasing using multisite neural stimulation. Ieee Transactions On Bio-Medical Engineering. 57: 1757-64. PMID 20176539 DOI: 10.1109/TBME.2010.2041778  0.684
2010 Fox JL, Fairhall AL, Daniel TL. Encoding properties of haltere neurons enable motion feature detection in a biological gyroscope. Proceedings of the National Academy of Sciences of the United States of America. 107: 3840-5. PMID 20133721 DOI: 10.1073/pnas.0912548107  0.743
2010 Tsang WM, Stone A, Aldworth Z, Otten D, Akinwande AI, Daniel T, Hildebrand JG, Levine RB, Voldman J. Remote control of a cyborg moth using carbon nanotube-enhanced flexible neuroprosthetic probe Proceedings of the Ieee International Conference On Micro Electro Mechanical Systems (Mems). 39-42. DOI: 10.1109/MEMSYS.2010.5442570  0.676
2010 Yeager D, Zhang F, Zarrasvand A, George NT, Daniel T, Otis BP. A 9 μA, addressable Gen2 sensor tag for biosignal acquisition Ieee Journal of Solid-State Circuits. 45: 2198-2209. DOI: 10.1109/Jssc.2010.2063930  0.698
2010 Daly DC, Mercier PP, Bhardwaj M, Stone AL, Aldworth ZN, Daniel TL, Voldman J, Hildebrand JG, Chandrakasan AP. A pulsed UWB receiver SoC for insect motion control Ieee Journal of Solid-State Circuits. 45: 153-166. DOI: 10.1109/JSSC.2009.2034433  0.689
2010 Williams CD, Regnier M, Daniel TL. Radial Force and Lattice Spacing with Multi-Spring Crossbridge Models Biophysical Journal. 98: 555a. DOI: 10.1016/j.bpj.2009.12.3007  0.348
2010 George NT, Liu J, Simons L, Daniel TL, Irving TC. Structural and Functional Gradients with Temperature in the Flight Muscle of Manduca Sexta Biophysical Journal. 98: 348a-349a. DOI: 10.1016/J.Bpj.2009.12.1886  0.741
2010 Mountcastle AM, Daniel TL. Aerodynamic and functional consequences of wing compliance Animal Locomotion. 311-320. DOI: 10.1007/978-3-642-11633-9_25  0.791
2009 Mountcastle AM, Daniel TL. Aerodynamic and functional consequences of wing compliance Experiments in Fluids. 46: 873-882. DOI: 10.1007/s00348-008-0607-0  0.735
2008 Fox JL, Daniel TL. A neural basis for gyroscopic force measurement in the halteres of Holorusia. Journal of Comparative Physiology. a, Neuroethology, Sensory, Neural, and Behavioral Physiology. 194: 887-97. PMID 18751714 DOI: 10.1007/s00359-008-0361-z  0.649
2008 Tanner BC, Regnier M, Daniel TL. A spatially explicit model of muscle contraction explains a relationship between activation phase, power and ATP utilization in insect flight. The Journal of Experimental Biology. 211: 180-6. PMID 18165245 DOI: 10.1242/Jeb.013466  0.589
2008 Daniel TL, Dieudonne A, Fox J, Myhrvold C, Sane S, Wark B. Inertial guidance systems in insects: From the neurobiology to the structural mechanics of biological gyroscopes Navigation, Journal of the Institute of Navigation. 55: 235-240. DOI: 10.1002/J.2161-4296.2008.Tb00433.X  0.708
2008 Daniel TL, Dieudonne A, Fox J, Myhrvold C, Sane S, Wark B. Inertial guidance systems in insects: From the neurobiology to the structural mechanics of biological gyroscopes Navigation, Journal of the Institute of Navigation. 55: 235-240.  0.763
2008 Tsang WM, Aldworth Z, Stone A, Permar A, Levine R, Hildebrand JG, Daniel T, Akinwande AI, Voldman J. Insect flight control by neural stimulation of pupae-implanted flexible multisite electrodes 12th International Conference On Miniaturized Systems For Chemistry and Life Sciences - the Proceedings of Microtas 2008 Conference. 1922-1924.  0.679
2007 Nishikawa K, Biewener AA, Aerts P, Ahn AN, Chiel HJ, Daley MA, Daniel TL, Full RJ, Hale ME, Hedrick TL, Lappin AK, Nichols TR, Quinn RD, Satterlie RA, Szymik B. Neuromechanics: an integrative approach for understanding motor control. Integrative and Comparative Biology. 47: 16-54. PMID 21672819 DOI: 10.1093/Icb/Icm024  0.637
2007 Tanner BC, Daniel TL, Regnier M. Sarcomere lattice geometry influences cooperative myosin binding in muscle. Plos Computational Biology. 3: e115. PMID 17630823 DOI: 10.1371/Journal.Pcbi.0030115  0.585
2007 Sane SP, Dieudonné A, Willis MA, Daniel TL. Antennal mechanosensors mediate flight control in moths. Science (New York, N.Y.). 315: 863-6. PMID 17290001 DOI: 10.1126/science.1133598  0.569
2007 Sprayberry JD, Daniel TL. Flower tracking in hawkmoths: behavior and energetics. The Journal of Experimental Biology. 210: 37-45. PMID 17170146 DOI: 10.1242/jeb.02616  0.759
2007 Kataoka A, Tanner BCW, Macpherson JM, Xu X, Wang Q, Regnier M, Daniel TL, Chase PB. Spatially explicit, nano-mechanical models of the muscle half-sarcomere: Implications for biomechanical tuning in atrophy and fatigue Acta Astronautica. 60: 111-118. DOI: 10.1016/J.Actaastro.2006.07.008  0.615
2005 Combes SA, Daniel TL. Flexural Stiffness in Insect Wings: Effects of Wing Venation and Stiffness Distribution on Passive Bending American Entomologist. 51: 42-44. DOI: 10.1093/AE/51.1.42  0.539
2004 Chase PB, Macpherson JM, Daniel TL. A spatially explicit nanomechanical model of the half-sarcomere: myofilament compliance affects Ca(2+)-activation. Annals of Biomedical Engineering. 32: 1559-68. PMID 15636115 DOI: 10.1114/B:Abme.0000049039.89173.08  0.349
2004 Tu MS, Daniel TL. Submaximal power output from the dorsolongitudinal flight muscles of the hawkmoth Manduca sexta. The Journal of Experimental Biology. 207: 4651-62. PMID 15579560 DOI: 10.1242/jeb.01321  0.499
2004 Tu MS, Daniel TL. Cardiac-like behavior of an insect flight muscle. The Journal of Experimental Biology. 207: 2455-64. PMID 15184517 DOI: 10.1242/jeb.01039  0.541
2003 Combes SA, Daniel TL. Into thin air: Contributions of aerodynamic and inertial-elastic forces to wing bending in the hawkmoth Manduca sexta. The Journal of Experimental Biology. 206: 2999-3006. PMID 12878668 DOI: 10.1242/Jeb.00502  0.636
2003 Combes SA, Daniel TL. Flexural stiffness in insect wings. II. Spatial distribution and dynamic wing bending. The Journal of Experimental Biology. 206: 2989-97. PMID 12878667 DOI: 10.1242/Jeb.00524  0.631
2003 Combes SA, Daniel TL. Flexural stiffness in insect wings. I. Scaling and the influence of wing venation. The Journal of Experimental Biology. 206: 2979-87. PMID 12878666 DOI: 10.1242/Jeb.00523  0.61
2002 Daniel TL, Combes SA. Flexible wings and fins: bending by inertial or fluid-dynamic forces? Integrative and Comparative Biology. 42: 1044-9. PMID 21680386 DOI: 10.1093/Icb/42.5.1044  0.635
2001 Combes SA, Daniel TL. Shape, flapping and flexion: wing and fin design for forward flight. The Journal of Experimental Biology. 204: 2073-85. PMID 11441049  0.589
1999 Daniel TL, Tu MS. Animal movement, mechanical tuning and coupled systems. The Journal of Experimental Biology. 202: 3415-21. PMID 10562524  0.527
1998 Daniel TL, Trimble AC, Chase PB. Compliant realignment of binding sites in muscle: transient behavior and mechanical tuning. Biophysical Journal. 74: 1611-21. PMID 9545027 DOI: 10.1016/S0006-3495(98)77875-0  0.751
1998 Denny M, Gaylord B, Helmuth B, Daniel T. The menace of momentum: Dynamic forces on flexible organisms Limnology and Oceanography. 43: 955-968. DOI: 10.4319/Lo.1998.43.5.0955  0.712
1997 Daniel TL, Helmuth BS, Saunders WB, Ward PD. Septal complexity in ammonoid cephalopods increased mechanical risk and limited depth Paleobiology. 23: 470-481. DOI: 10.1017/S0094837300019849  0.569
1997 Helmuth BST, Sebens KP, Daniel TL. Morphological variation in coral aggregations: Branch spacing and mass flux to coral tissues Journal of Experimental Marine Biology and Ecology. 209: 233-259. DOI: 10.1016/S0022-0981(96)02687-1  0.728
1990 Meyhofer E, Daniel T. Dynamic mechanical properties of extensor muscle cells of the shrimp Pandalus danae: Cell design for escape locomotion Journal of Experimental Biology. 151: 435-452.  0.554
1989 Daniel TL, Kingsolver JG, Meyhöfer E. Mechanical determinants of nectar-feeding energetics in butterflies: muscle mechanics, feeding geometry, and functional equivalence. Oecologia. 79: 66-75. PMID 28312814 DOI: 10.1007/Bf00378241  0.604
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