Search Results - Human Genetics

Pradana, F., Nijjar, T., Cox, P. A., Morgan, P. T., Podlogar, T., Lucas, S. J. E., Drayson, M. T., Kinsella, F. A. M., Wadley, A. J.

Eriksson, R., Nicander, J., Johansson, M., Mattsson, C. M. “…Results show that the proposed system is able to generate highly accurate training plans in terms of training load, types of sessions, and structure, compared to the human coach.…”

Jacobs, N., Mos, D., Bloemers, F. W., van der Laarse, W. J., Jaspers, R. T., van der Zwaard, S.

Gawel, E., Zwierzchowska, A., Zebrowska, A. “…The human body always strives to maintain the state of equilibrium and, for this purpose, it activates compensatory yet not always beneficial compensatory mechanisms. …”

Zmijewski, P., Trybek, G., Czarny, W., Leonska-Duniec, A.

Mazzilli, F.

Venkata, R. K. “…This is a widely contested area of sports science and needs extensive research and intellectual reasoning. Though the genetic code of the human being was identified, the field of genetics is still has a long way to go in establishing the precision biodynamic of genetic interactions. …”

Delgado Caceres, M., Docheva, D. “…The genetic basis for superior endurance running still remains elusive. …”

Ben-Zaken, S., Meckel, Y., Nemet, D., Kassem, E., Eliakim, A.

Grenda, A., Sawczuk, M., Kaczmarczyk, M., Maciejewska, A., Umiastowska, D., Lubkowska, W., Zmijewsk, P., Cieszczyk, P.

van Breda, K., Collins, M., Stein, D. J., Rauch, L.

Grenda, A., Leonska-Duniec, A., Kaczmarczyk, M., Ficek, K., Krol, P., Cieszczyk, P., Zmijewski, P.

K. Kanosue, T. Nagami, J. Tsuchiya “…The central theme of Part I is the brain. Basic research on human locomotion, motor imagery, and cognitive function are included in this part. …”

D. Bagchi, S. Nair, C. Sen “…Blood Rheology, Blood Flow and Human Health 29. Genetic Aspects of Sprint, Strength and Power Performance 30. …”

Wang, G., Mikami, E., Chiu, L. L., de Perini, A., Deason, M., Fuku, N., Miyachi, M., Kaneoka, K., Murakami, H., Tanaka, M., Hsieh, L L., Hsieh, S. S., Caporossi, D., Pigozzi, F., Hilley, A., Lee, R., Galloway, S. D., Gulbin, J., Rogozkin, V. A., Ahmetov, I. I., Yang, N., North, K. N., Ploutarhos, S., Montgomery, H. E., Bailey, M. E., Pitsiladis, Y. P. “…Purpose: Polymorphic variation in the angiotensin-converting enzyme (ACE) and a-actinin-3 (ACTN3) genes has been reported to be associated with endurance and/or power-related human performance. Our aim was to investigate whether polymorphisms in ACE and ACTN3 are associated with elite swimmer status in Caucasian and East Asian populations. …”

Ahmetov, I. I., Williams, A. G., Popov, D. V., Lyubaeva, E. V., Hakimullina, A. M. “…Human Genetics…”

Cieszczyk, P., Eider, J., Ostanek, M., Arczewska, A., Leonska-Duniec, A., Sawczyn, S., Ficek, K., Krupecki, K.

N. Kato, S. Kamimura “…Table of contents: Preface Acknowledgments Part 1 Biological Aspects of Locomotive Mechanisms and Behaviors of Animals While Swimming and Flying Chapter1: Asymmetric Swimming Motion of Singly Flagellated Bacteria near a Rigid Surface Chapter2: Properties of a Semi-dilute Suspension of Swimming Microorganisms Chapter3: Dynamics, Modeling and Real-time Observation of Galvanotaxis in Paramecium caudatum Chapter4: Object Manipulation by a Formation-Controlled Euglena Group Chapter5: Passive Mechanisms Controlling Posture and Trajectory in Swimming Fishes Chapter6: Mechanical Properties of the Caudal Fin Resulting from the Caudal Skeletal Structure of the Bluefin Tuna Chapter7: Design of Artificial Tail Flukes for a Bottlenose Dolphin Chapter8: Changes in Drag Acting on an Angled Wavy Silicon-rubber Plate as a Model of the Skin Folds of a Swimming Dolphin Chapter9: Central Nervous System Underlying Swimming Fish Chapter10: Underwater Acoustical Sensing Behavior of Porpoises Chapter11: Microstructural Approach to Developing the Resonance Model of the Indirect Flight Mechanism Part 2 Hydrodynamics of Swimming and Flying Chapter12: Studies of Hydrodynamics in Fishlike Swimming Propulsion Chapter13: Optimization of Fish Shape and Swim Mode in Fully Resolved 2-D Flow-field by Genetic Algorithm with the Least-square Prediction Method Chapter14: Modeling, Simulation and Optimization of Anguilliform Swimmers Chapter15: A Numerical Study of Hovering Aerodynamics in Flapping Insect Flight Chapter16: Stabilization of Flapping-of-Wings Flight of a Butterfly, Considering Wakes Chapter 17: 3-D Unsteady Computations of Flapping Flight in Insects, Fish, and Unmanned Vehicles Part 3 Biomimetic Swimming or Flying Robots Chapter 18: Design and Simulations of a Virtual Fishlike Robot Actuated by a Muscle Model Chapter 19: Development of Fish Robots Powered by Fuel Cells: Improvement of Swimming Ability by a Genetic Algorithm and Flow Analysis by Computational Fluid Dynamics Chapter 20: Design and Control of Biomimetic Robot Fish FAC-I Chapter 21: Thrust Force Characteristics of the Propulsion Mechanism in Fluid Using a Fin with a Dynamic Variable-Effective-Length Spring Chapter 22: Elastic Pectoral Fin Actuators for Biomimetic Underwater Vehicles Chapter 23: Design, Development, and Testing of Flapping Fins with Actively Controlled Curvature for an Unmanned Underwater Vehicle Chapter 24: Controlling Biomimetic Underwater Robots with Electronic Nervous Systems Chapter 25: Micro-energy Converter Using Insect Wings Chapter26: Clapping-wing Micro Air Vehicle of Insect Size Part 4 Sports Science Chapter 27: Study on the Application of Lagrangian Numerical Simulation to Fluid Dynamics in Sports Science Chapter 28: Rowing Velocity Prediction Program Estimating Hydrodynamic Load Acting on an Oar Blade Chapter 29: Analysis of Breast, Back and Butterfly Strokes by the Swimming Human Simulation Model SWUM Chapter 30: Research in Fluid Dynamical Specification of Hand Palms in Freestyle Swimming Chapter 31: Flexural Vibration of a Jump Ski in Flight…”

Liu, X., Su, M., Shen, F.

Manning, J. T., Morris, L., Caswell, N.