S. Gopalakrishnan
S. Gopalakrishnan
Professor, Department of Aerospace Engineering, Indian Institute of Science
Verified email at - Homepage
Cited by
Cited by
Guided wave based structural health monitoring: A review
M Mitra, S Gopalakrishnan
Smart Materials and Structures 25 (5), 053001, 2016
A new beam finite element for the analysis of functionally graded materials
A Chakraborty, S Gopalakrishnan, JN Reddy
International journal of mechanical sciences 45 (3), 519-539, 2003
Artificial Bee Colony (ABC) for multi-objective design optimization of composite structures
SN Omkar, J Senthilnath, R Khandelwal, GN Naik, S Gopalakrishnan
Applied Soft Computing 11 (1), 489-499, 2011
Spectral finite element method: wave propagation, diagnostics and control in anisotropic and inhomogeneous structures
S Gopalakrishnan, A Chakraborty, DR Mahapatra
Springer Science & Business Media, 2007
Quantum behaved Particle Swarm Optimization (QPSO) for multi-objective design optimization of composite structures
SN Omkar, R Khandelwal, TVS Ananth, GN Naik, S Gopalakrishnan
Expert Systems with Applications 36 (8), 11312-11322, 2009
A spectrally formulated finite element for wave propagation analysis in functionally graded beams
A Chakraborty, S Gopalakrishnan
International Journal of Solids and Structures 40 (10), 2421-2448, 2003
A spectral finite element model for analysis of axial–flexural–shear coupled wave propagation in laminated composite beams
DR Mahapatra, S Gopalakrishnan
Composite Structures 59 (1), 67-88, 2003
Computational techniques for structural health monitoring
S Gopalakrishnan, M Ruzzene, S Hanagud
Springer, 2011
Smart material systems and MEMS: design and development methodologies
VK Varadan, KJ Vinoy, S Gopalakrishnan
John Wiley & Sons, 2006
Wave propagation in single-walled carbon nanotube under longitudinal magnetic field using nonlocal Euler–Bernoulli beam theory
S Narendar, SS Gupta, S Gopalakrishnan
Applied Mathematical Modelling 36 (9), 4529-4538, 2012
Finite element analysis of free vibration and wave propagation in asymmetric composite beams with structural discontinuities
A Chakraborty, DR Mahapatra, S Gopalakrishnan
Composite structures 55 (1), 23-36, 2002
A matrix methodology for spectral analysis of wave propagation in multiple connected Timoshenko beams
S Gopalakrishnan, M Martin, JF Doyle
Journal of Sound and Vibration 158 (1), 11-24, 1992
Vector evaluated particle swarm optimization (VEPSO) for multi-objective design optimization of composite structures
SN Omkar, D Mudigere, GN Naik, S Gopalakrishnan
Computers & structures 86 (1-2), 1-14, 2008
Time reversal technique for health monitoring of metallic structure using Lamb waves
R Gangadharan, CRL Murthy, S Gopalakrishnan, MR Bhat
Ultrasonics 49 (8), 696-705, 2009
Wave propagation in nanostructures: nonlocal continuum mechanics formulations
S Gopalakrishnan, S Narendar
Springer Science & Business Media, 2013
Free vibration and wave propagation analysis of uniform and tapered rotating beams using spectrally formulated finite elements
KG Vinod, S Gopalakrishnan, R Ganguli
International Journal of Solids and Structures 44 (18-19), 5875-5893, 2007
A refined higher order finite element for asymmetric composite beams
M Murthy, DR Mahapatra, K Badarinarayana, S Gopalakrishnan
Composite Structures 67 (1), 27-35, 2005
Design optimization of composites using genetic algorithms and failure mechanism based failure criterion
GN Naik, S Gopalakrishnan, R Ganguli
Composite Structures 83 (4), 354-367, 2008
Nonlocal scale effects on wave propagation in multi-walled carbon nanotubes
S Narendar, S Gopalakrishnan
Computational Materials Science 47 (2), 526-538, 2009
Spectrally formulated wavelet finite element for wave propagation and impact force identification in connected 1-D waveguides
M Mitra, S Gopalakrishnan
International journal of solids and structures 42 (16-17), 4695-4721, 2005
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