TY - JOUR
T1 - Chaos emerging in soil failure patterns observed during tillage
T2 - Normalized deterministic nonlinear prediction (NDNP) and its application
AU - Sakai, Kenshi
AU - Upadhyaya, Shrinivasa K.
AU - Andrade-Sanchez, Pedro
AU - Sviridova, Nina V.
N1 - Publisher Copyright:
© 2017 Author(s).
PY - 2017/3/1
Y1 - 2017/3/1
N2 - Real-world processes are often combinations of deterministic and stochastic processes. Soil failure observed during farm tillage is one example of this phenomenon. In this paper, we investigated the nonlinear features of soil failure patterns in a farm tillage process. We demonstrate emerging determinism in soil failure patterns from stochastic processes under specific soil conditions. We normalized the deterministic nonlinear prediction considering autocorrelation and propose it as a robust way of extracting a nonlinear dynamical system from noise contaminated motion. Soil is a typical granular material. The results obtained here are expected to be applicable to granular materials in general. From a global scale to nano scale, the granular material is featured in seismology, geotechnology, soil mechanics, and particle technology. The results and discussions presented here are applicable in these wide research areas. The proposed method and our findings are useful with respect to the application of nonlinear dynamics to investigate complex motions generated from granular materials.
AB - Real-world processes are often combinations of deterministic and stochastic processes. Soil failure observed during farm tillage is one example of this phenomenon. In this paper, we investigated the nonlinear features of soil failure patterns in a farm tillage process. We demonstrate emerging determinism in soil failure patterns from stochastic processes under specific soil conditions. We normalized the deterministic nonlinear prediction considering autocorrelation and propose it as a robust way of extracting a nonlinear dynamical system from noise contaminated motion. Soil is a typical granular material. The results obtained here are expected to be applicable to granular materials in general. From a global scale to nano scale, the granular material is featured in seismology, geotechnology, soil mechanics, and particle technology. The results and discussions presented here are applicable in these wide research areas. The proposed method and our findings are useful with respect to the application of nonlinear dynamics to investigate complex motions generated from granular materials.
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U2 - 10.1063/1.4978027
DO - 10.1063/1.4978027
M3 - Article
AN - SCOPUS:85016632934
SN - 1054-1500
VL - 27
JO - Chaos
JF - Chaos
IS - 3
M1 - 033115
ER -