Thomas Daniel
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Most Influential Person Now
Biomechanist, neurophysiologist, and biology professor
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Thomas Daniel biology Degrees
Biology
#7326
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#10229
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Neuroscience
#2459
World Rank
#2524
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Biology
Thomas Daniel 's Degrees
- PhD Biomechanics Stanford University
- Masters Neurophysiology Stanford University
- Bachelors Biology University of California, Berkeley
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Why Is Thomas Daniel Influential?
(Suggest an Edit or Addition)According to Wikipedia, Thomas Louis Daniel is an American biologist, Joan and Richard Komen Endowed Chair of Biology at University of Washington, and leads the Daniel Lab. He was the interim director of the National Science Foundation Engineering Research Center for Sensorimotor Neural Engineering. Since 2006, he has served on the Scientific Advisory Board for the Allen Institute for Brain Science.
Thomas Daniel 's Published Works
Published Works
- Flexural stiffness in insect wings I. Scaling and the influence of wing venation (2003) (532)
- Flexural stiffness in insect wings II. Spatial distribution and dynamic wing bending (2003) (430)
- Into thin air: contributions of aerodynamic and inertial-elastic forces to wing bending in the hawkmoth Manduca sexta (2003) (307)
- Unsteady Aspects of Aquatic Locomotion (1984) (278)
- Antennal Mechanosensors Mediate Flight Control in Moths (2007) (276)
- Neuromechanics: an integrative approach for understanding motor control. (2007) (239)
- Flexible Wings and Fins: Bending by Inertial or Fluid-Dynamic Forces?1 (2002) (204)
- Flight control in the hawkmoth Manduca sexta: the inverse problem of hovering (2006) (166)
- Mechanics and energetics of medusan jet propulsion (1983) (141)
- Compliant realignment of binding sites in muscle: transient behavior and mechanical tuning. (1998) (141)
- Aerodynamic and functional consequences of wing compliance (2009) (140)
- Shape, flapping and flexion: wing and fin design for forward flight. (2001) (136)
- On the mechanics and energetics of nectar feeding in butterflies. (1979) (122)
- The menace of momentum: Dynamic forces on flexible organisms (1998) (120)
- Luminance-dependent visual processing enables moth flight in low light (2015) (114)
- Feedback control as a framework for understanding tradeoffs in biology. (2014) (113)
- Mechanics of Food Handling by Fluid-Feeding Insects (1995) (108)
- Elastic energy storage in rigored skeletal muscle cells under physiological loading conditions. (1986) (108)
- Flexible strategies for flight control: an active role for the abdomen (2013) (104)
- Cost of Locomotion: Unsteady Medusan Swimming (1985) (98)
- Encoding properties of haltere neurons enable motion feature detection in a biological gyroscope (2010) (92)
- FISH MUCUS: IN SITU MEASUREMENTS OF POLYMER DRAG REDUCTION (1981) (92)
- Control of moth flight posture is mediated by wing mechanosensory feedback (2014) (91)
- Sarcomere Lattice Geometry Influences Cooperative Myosin Binding in Muscle (2007) (88)
- Morphological variation in coral aggregations: branch spacing and mass flux to coral tissues (1997) (88)
- Septal complexity in ammonoid cephalopods increased mechanical risk and limited depth (1997) (84)
- Mechanical determinants of nectar feeding strategy in hummingbirds: energetics, tongue morphology, and licking behavior (1983) (82)
- The length–tension curve in muscle depends on lattice spacing (2013) (81)
- SIZE LIMITS IN ESCAPE LOCOMOTION OF CARRIDEAN SHRIMP (1989) (72)
- Forward flapping flight from flexible fins (1988) (69)
- Antennae in the hawkmoth Manduca sexta (Lepidoptera, Sphingidae) mediate abdominal flexion in response to mechanical stimuli (2010) (69)
- A neural basis for gyroscopic force measurement in the halteres of Holorusia (2008) (66)
- Feeding strategy and the mechanics of blood sucking in insects. (1983) (64)
- Submaximal power output from the dorsolongitudinal flight muscles of the hawkmoth Manduca sexta (2004) (61)
- A Spatially Explicit Nanomechanical Model of the Half-Sarcomere: Myofilament Compliance Affects Ca2+-Activation (2004) (58)
- Integration of parallel mechanosensory and visual pathways resolved through sensory conflict (2016) (56)
- Myotendinous junctions of tonic muscle cells: structure and loading (2004) (53)
- Flower tracking in hawkmoths: behavior and energetics (2007) (53)
- Axial and Radial Forces of Cross-Bridges Depend on Lattice Spacing (2010) (52)
- A new twist on gyroscopic sensing: body rotations lead to torsion in flapping, flexing insect wings (2015) (51)
- Mechanical determinants of nectar-feeding energetics in butterflies: muscle mechanics, feeding geometry, and functional equivalence (1989) (45)
- Filament Compliance Influences Cooperative Activation of Thin Filaments and the Dynamics of Force Production in Skeletal Muscle (2012) (44)
- Abdicating power for control: a precision timing strategy to modulate function of flight power muscles (2012) (41)
- Shape matters: corolla curvature improves nectar discovery in the hawkmoth Manduca sexta. (2015) (40)
- Elastic Energy Storage and Radial Forces in the Myofilament Lattice Depend on Sarcomere Length (2012) (40)
- Cardiac-like behavior of an insect flight muscle (2004) (38)
- Neural-inspired sensors enable sparse, efficient classification of spatiotemporal data (2018) (37)
- Neural evidence supports a dual sensory-motor role for insect wings (2017) (34)
- Wireless Stimulation of Antennal Muscles in Freely Flying Hawkmoths Leads to Flight Path Changes (2012) (34)
- Efficiency in aquatic locomotion: limitations from single cells to animals (1992) (32)
- The Cross-Bridge Spring: Can Cool Muscles Store Elastic Energy? (2013) (31)
- Animal movement, mechanical tuning and coupled systems. (1999) (28)
- A bio-hybrid odor-guided autonomous palm-sized air vehicle (2020) (28)
- Viscosity and solute dependence of F-actin translocation by rabbit skeletal heavy meromyosin. (2000) (27)
- Temperature gradients drive mechanical energy gradients in the flight muscle of Manduca sexta (2012) (27)
- Vortexlet models of flapping flexible wings show tuning for force production and control (2010) (26)
- Wind dispersal of battery-free wireless devices (2022) (23)
- Autostabilizing airframe articulation: Animal inspired air vehicle control (2012) (22)
- An Atmospheric Guidance Algorithm Testbed for the Mars Surveyor Program 2001 Orbiter and Lander (1998) (22)
- Dual Dimensionality Reduction Reveals Independent Encoding of Motor Features in a Muscle Synergy for Insect Flight Control (2015) (21)
- Invertebrate swimming: integrating internal and external mechanics. (1995) (21)
- A spatially explicit model of muscle contraction explains a relationship between activation phase, power and ATP utilization in insect flight (2008) (20)
- Temperature gradients in the flight muscles of Manduca sexta imply a spatial gradient in muscle force and energy output (2011) (20)
- Encoding properties of the mechanosensory neurons in the Johnston's organ of the hawk moth, Manduca sexta (2014) (18)
- Dynamic Mechanical Properties of Extensor Muscle Cells of the Shrimp Pandalus Danae: Cell Design for Escape Locomotion (1990) (17)
- INERTIAL REDIRECTION OF THRUST FORCES FOR FLIGHT STABILIZATION (2012) (16)
- Fluid–structure interaction in compliant insect wings (2014) (16)
- Addressing Grand Challenges In Organismal Biology: The Need For Synthesis (2014) (16)
- Asymmetries in wing inertial and aerodynamic torques contribute to steering in flying insects (2017) (15)
- A moving topic: control and dynamics of animal locomotion (2010) (15)
- A Spatially Explicit Model Shows How Titin Stiffness Modulates Muscle Mechanics and Energetics. (2018) (15)
- Flexural Stiffness in Insect Wings: Effects of Wing Venation and Stiffness Distribution on Passive Bending (2005) (14)
- Coriolis and centrifugal forces drive haltere deformations and influence spike timing (2019) (13)
- The Sliding Filament Theory Since Andrew Huxley: Multiscale and Multidisciplinary Muscle Research. (2021) (13)
- From neuron to muscle to movement: a complete biomechanical model of Hydra contractile behaviors (2020) (12)
- The “Smellicopter,” a bio-hybrid odor localizing nano air vehicle (2019) (9)
- Insect inertial measurement units: gyroscopic sensing of body rotation (2012) (7)
- Tactile active sensing in an insect plant pollinator (2021) (7)
- Morphospace exploration reveals divergent fitness optima between plants and pollinators (2019) (6)
- Fluid flow in the sarcomere. (2021) (5)
- Wing structure and neural encoding jointly determine sensing strategies in insect flight (2021) (5)
- Sensing from control: Airframe deformation for simultaneous actuation and state estimation (2013) (4)
- In vivo X-ray diffraction and simultaneous EMG reveal the time course of myofilament lattice dilation and filament stretch (2020) (4)
- Chronologically sampled flight feathers permits recognition of individual molt-migrants due to varying protein sources (2015) (4)
- Inertial Guidance Systems in Insects: From the Neurobiology to the Structural Mechanics of Biological Gyroscopes (2008) (4)
- In Vivo Time Resolved X-Ray Diffraction Reveals Radial Motions of Myofilaments in Insect Flight Muscle (2013) (4)
- Learning to feed in the dark: how light level influences feeding in the hawkmoth Manduca sexta (2021) (4)
- Automated Analysis of Muscle X-ray Diffraction Imaging with MCMC (2015) (3)
- Learning from animals: How to Navigate Complex Terrains (2020) (3)
- A complete biomechanical model of Hydra contractile behaviors, from neural drive to muscle to movement. (2023) (2)
- Supporting Online Material for Antennal Mechanosensors Mediate Flight Control in Moths (2007) (2)
- Data sets supporting the paper: Shape Matters: Corolla Curvature Immproves Nectar Discovery in the Hawkmoth Manduca Sexta (2014) (2)
- Learning Precisely Timed Feedforward Control of the Sensor-Denied Inverted Pendulum (2019) (2)
- Tactile active sensing in insect-plant pollination (2020) (2)
- Spatially explicit, nano-mechanical models of the muscle half-sarcomere: Implications for biomechanical tuning in atrophy and fatigue (2004) (2)
- Hydrodynamic Interactions Between Macroalgae and Their Epibionts (2022) (2)
- Fish Locomotion.R. W. Blake (1984) (1)
- Sarcomere Breathing: Does Flow within Contracting Myofibrils Influence Substrate Delivery? (2018) (1)
- Structural and Functional Gradients with Temperature in the Flight Muscle of Manduca Sexta (2010) (1)
- Abdominal Movements in Insect Flight Reshape the Role of Non-Aerodynamic Structures for Flight Maneuverability I: Model Predictive Control for Flower Tracking (2022) (1)
- Simulating Cardiac Muscle Mutations in a Compliant Lattice with Commonly Used Assays (2021) (0)
- 2009 GEM4 Summer School - University of Illinois at Urbana-Champaign: Lecture 24: Computational methods for understanding the dynamics of interacting motor molecules in muscles (2010) (0)
- Multiscale Models and Measurements of Muscle Forces (2015) (0)
- Fluid forces and flows in muscle's contractile lattice (2019) (0)
- Sensing wing deformation: it's about spike time (2016) (0)
- Nonuniform structural properties of wings confer sensing advantages (2022) (0)
- A Data-driven Surrogate Model for Work Computation of a Periodically Forced Half-Sarcomere (2020) (0)
- Radial Force and Lattice Spacing with Multi-Spring Crossbridge Models (2010) (0)
- The Nonlinear Mechanical Properties of Titin Modulate Striated Muscle Contraction Efficiency (2018) (0)
- Serial sampling provides chronological evidence that endogenous protein is used for primary growth in a molt-migrant goose (2014) (0)
- Curriculum Vitae of Tyson Lee Hedrick (2013) (0)
- Predicting underlying pathology in simulated cardiac muscle twitches (2022) (0)
- Modeling motor molecules mainly motivated by moths: computing muscle power and efficiency from nano-scale processes (2006) (0)
- Encoding properties of moth wing mechanosensors are similar to haltere neurons (2016) (0)
- Conflict of evolutionary interests between plants and pollinators revealed through functional exploration of flower morphospace (2018) (0)
- Spatiallyexplicit,nano-mechanicalmodelsofthemuscle half-sarcomere:Implicationsforbiomechanicaltuningin atrophyandfatigue (2007) (0)
- Bio-Gyros: Tunable Compliant Gryscopic Sensors (2008) (0)
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