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Yang
Ding Assistant Professor
Mechanics Division
Beijing Computational Science Research Center
dingyang@csrc.ac.cn
News:
(2015/05) A graduate research assistant position and a postdoc position are available.
(2015/05) I was selected into "the Recruitment Program of Global Young Experts."
Research:
I am interested in
using theoretical and computational approaches to study the interaction between
organism and robots and complex media. Previously I have worked on the mechanics of
control of swimming in granular media (e.g. sand) and the mixing of low Re fluid due to the beating of cilia. Currently, I am looking into the dynamics and control of undulatory swimming in low Re fluid and legged locomotion on land.
Education:
Ph.D. in Physics,
Georgia Institute of Technology, 2011
B.S. in Physics, University of Science and Technology of China, 2005
Positions:
Postdoctoral fellow, Department of Aerospace and Mechanical Engineering, University of Southern California, 2012-2014
Postdoctoral fellow, School of Physics, Georgia Institute of Technology, 2011-2012
Publications:
- Mixing and transport by ciliary carpets: a numerical study, Yang Ding, Janna C. Nawroth, Margaret J. McFall-Ngai and Eva Kanso Journal of Fluid Mechanics, 743, 124-140
(2014). (PDF)
- Lift and drag in intruders moving through hydrostatic granular media at high speeds, Fabricio Q. Potiguar and Yang Ding, Physical Review E, 88, 012204
(2013). (PDF)
- Emergence of the advancing neuromechanical phase in a resistive force dominated medium, Yang Ding, Sarah S. Sharpe, Kurt Wiesenfeld, and Daniel I. Goldman Proceedings of the National Academy of Sciences, 110(25), 10123-10128
(2013). (PDF)
- Geometric visualization of self-propulsion in a complex
medium, Ross Hatton, Yang Ding, Howie
Choset, and Daniel I. Goldman, Physical Review Letters, 110, 078101
(2013). (PDF)
- Mechanics of Undulatory Swimming in a Frictional Fluid, Yang Ding, Sarah S. Sharpe, Andrew Masse and Daniel
I. Goldman, Plos Computational biology, 8(12), e1002810 (2012). (PDF) (journal cover)
- Environmental interaction influences muscle activation
strategy during sand-swimming in the sandfish lizard Scincus scincus
, Sarah S. Sharpe, Yang Ding
and Daniel I. Goldman, Journal of Experimental Biology, 216, 260
(2012). (PDF)
- Lift control in a sand-swimming robot, Ryan D. Maladen, Paul B. Umbanhowar, Yang Ding,
Andrew Masse and Daniel I. Goldman, IEEE: International Conference on
Robotics and Automation, (2011). (PDF)
- Comparative studies reveal principles of movement on
and within granular media,
Yang Ding, Nick Gravish, Chen Li, Ryan D. Maladen, Nicole Mazouchova,
Sarah S. Sharpe, Paul B. Umbanhowar, and Daniel I. Goldman, IMA
Workshop on Locomotion (2011). (PDF)
- Undulatory swimming in sand: experimental and
simulation studies of a robotic sandfish,
Ryan D. Maladen, Yang Ding, Paul B. Umbanhowar, and Daniel I. Goldman, International
Journal of Robotics Research, (2011). (PDF)
- Mechanical models of sandfish locomotion reveal
principles of high performance subsurface sand-swimming, Ryan D. Maladen, Yang Ding, Paul B. Umbanhowar, Adam
Kamor, and Daniel I. Goldman, J. R. Soc. Interface, 8:1332-1345 (2011). (PDF + Supplemental text) (journal cover)
- Drag induced lift in granular media, Yang Ding, Nick Gravish and Daniel I. Goldman, Physical
Review Letters, 106, 028001 (2011). (PDF) (Supplementary videos)
- Biophysically inspired development of a sand-swimming
robot, Ryan D. Maladen, Yang Ding,
Paul B. Umbanhowar, Adam Kamor and Daniel I. Goldman, Robotics: Science
& Systems conference, (2010). (PDF)
(movies)
- Undulatory swimming in sand: subsurface
locomotion of the sandfish lizard, Ryan Maladen, Yang Ding, Chen Li and
Daniel I. Goldman, Science, 325, 314 (2009). (PDF) (PDF of
Supporting Online Material) (movies)
External Links:
Key words:
biomechanics, locomotion, swimming, sensory-motor control, bioinspired robot