Nonlinear surge response behavior of a multipoint mooring system under harmonic wave excitation is analyzed to investigate various instability phenomena such as bifurcation, period-doubling, and subharmonic and chaotic responses. The nonlinearity of the system arises due to nonlinear restoring force, which is modeled as a cubic polynomial. In order to trace different branches at the bifurcation point on the response curve (amplitude versus frequency of excitation plot), an arc-length continuation technique along with the incremental harmonic balance (IHBC) method is employed. The stability of the solution is investigated by the Floquet theory using Hsu’s scheme. The period-one and subharmonic solutions obtained by the IHBC method are compared with those obtained by the numerical integration of the equation of motion. Characteristics of solutions from stable to unstable zones, chaotic motion, solutions, etc., are identified with the help of phase plots and Poincaré map sections.
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April 2010
Research Papers
Stability Analysis of Two-Point Mooring System in Surge Oscillation
A. K. Banik,
A. K. Banik
Department of Civil Engineering,
e-mail: akbanik@gmail.com
National Institute of Technology, Durgapur
, Durgapur 713209, India
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T. K. Datta
T. K. Datta
Department of Civil Engineering,
Indian Institute of Technology, Delhi
, Hauz Khas, New Delhi 110016, India
Search for other works by this author on:
A. K. Banik
Department of Civil Engineering,
National Institute of Technology, Durgapur
, Durgapur 713209, Indiae-mail: akbanik@gmail.com
T. K. Datta
Department of Civil Engineering,
Indian Institute of Technology, Delhi
, Hauz Khas, New Delhi 110016, IndiaJ. Comput. Nonlinear Dynam. Apr 2010, 5(2): 021005 (8 pages)
Published Online: February 11, 2010
Article history
Received:
September 11, 2008
Revised:
October 1, 2009
Online:
February 11, 2010
Published:
February 11, 2010
Citation
Banik, A. K., and Datta, T. K. (February 11, 2010). "Stability Analysis of Two-Point Mooring System in Surge Oscillation." ASME. J. Comput. Nonlinear Dynam. April 2010; 5(2): 021005. https://doi.org/10.1115/1.4000828
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