Blake Martin and Armaghan Salehian
[1] E.V. Ardelean, J.C. Goodding, G. Mehle, D.M. Coombs,V. Babuska, L.M. Robertson III, S.A. Lane, B.R. Ingram, andE.J. Hansen, Dynamics of cable harnesses on large precisionstructures, 48th AIAA/ASME/ASCE/AHS/ASC Structures,Structural Dynamics and Materials Conf., Honolulu, HI, 2007,8225–8235. [2] L.M. Robertson III, S.A. Lane, B.R. Ingram, E.J. Hansen,V. Babuska, J. Goodding, M. Mimovich, G. Mehle, D. Coombs,and E.V. Ardelean, Cable effects on the dynamics of large pre-cision structures, 48th AIAA/ASME/ASCE/AHS/ASC Struc-tures, Structural Dynamics and Materials Conf., Honolulu, HI,2007, 8236–8241. [3] J.C. Goodding, V. Babuska, D.T. Griffith, B.R. Ingram,and L.M. Robertson, Study of free-free beam structural dy-namics perturbations due to mounted cable harnesses, 48thAIAA/ASME/ASCE/AHS/ASC Structures, Structural Dy-namics and Materials Conf., Honolulu, HI, 2007, 8242–8254. [4] J.C. Goodding, Spacecraft electrical cable harness structuraltest and analysis methods, 26th IMAC: Conf. and Expositionon Structural Dynamics, Orlando, FL, 2008, 437–443. [5] J.C. Goodding, J.C. Griffee, and E.V. Ardelean, Pa-rameter estimation and structural dynamic modeling ofelectrical cable harnesses on precision structures, 49thAIAA/ASME/ASCE/AHS/ASC Structures, Structural Dy-namics and Materials Conf., Schaumburg, IL, 2009,1852–1858. [6] J.C. Goodding, E.V. Ardelean, V. Babuska, L.M. Robertson,and S.A. Lane, Experimental techniques and structural pa-rameter estimation studies of spacecraft cables, Journal ofSpacecraft and Rockets, 48(6), 2011, 942–957. [7] V. Babuska, D.M. Coombs, J.C. Goodding, E.V. Ardelean,L.M. Robertson, and S.A. Lane, Modeling and experimentalvalidation of space structures with wiring harnesses, Journalof Spacecraft and Rockets, 47(6), 2010, 1038–1052. [8] D.M. Coombs, J.C. Goodding, V. Babuska, E.V. Ardelean,L.M. Robertson, and S.A. Lane, Dynamic modeling and experi-mental validation of a cable-loaded panel, Journal of Spacecraftand Rockets, 48(6), 2011, 958–973. [9] J. Choi and D.J. Inman, Spectral element method for cableharnessed structure, Topics in Modal Analysis, Proc. of the31st IMAC, Conf. and Exposition on Structural Dynamics,Garden Grove, CA, 7, 2013, 377–387. [10] J. Choi and D.J. Inman, Development of modeling for cableharnessed structures, 54th AIAA/ASME/ASCE/AHS/ASCStructures, Structural Dynamics and Materials Conf., Boston,MA, 2013, art. no. AIAA-2013-1888. [11] K.S. Spak, G.S. Agnes, and D.J. Inman, Toward modelingof cable-harnessed structures: Cable damping experiments,54th AIAA/ASME/ASCE/AHS/ASC Structures, StructuralDynamics and Materials Conf., Boston, MA, 2013, art. no.AIAA-2013-1889. [12] K.S. Spak, G.S. Agnes, and D.J. Inman, Cable modeling andinternal damping developments, Applied Mechanics Reviews,65(1), 2013, 010801. [13] K.S. Spak, G.S. Agnes, and D.J. Inman, Comparison ofdamping models for space flight cables, Topics in Dynamics ofCivil Structures, Proc. of the 31st IMAC, Conf. and Expositionon Structural Dynamics, Garden Grove, CA, 4, 2013, 183–194. [14] B. Martin and A. Slahian, Vibration analysis of string-harnessed beam structures: A homogenization approach, 54th201AIAA/ASME/ASCE/AHS/ASC Structures, Structural Dy-namics and Materials Conf., Boston, MA, 2013, art. no.AIAA-2013-1892. [15] A. Salehian, D.J. Inman, and E.M. Cliff, Continuum modelingof an innovative space-based radar antenna truss, Journal ofAerospace Engineering, 19(4), 2006, 227–240. [16] A. Salehian, T.M. Seigler, and D.J. Inman, Dynamic effectsof a radar panel mounted on a truss satellite, AIAA Journal,45(7), 2007, 1642–1654. [17] A. Salehian and D.J. Inman, Dynamic analysis of a latticestructure by homogenization: Experimental validation, Journalof Sound and Vibration, 316(1–5), 2008, 180–197. [18] A. Salehian and D.J. Inman, Micropolar continuous modelingand frequency response validation of a lattice structure, Journalof Vibration and Acoustics, Transactions of the ASME, 132(1),2010, 1–7. [19] A. Salehian, Effects of strain rates on kinetics of elements ofrepeated pattern structures: A continuous modeling approach,Shock and Vibration, 19(4), 2012, 545–554. [20] A. Salehian and Y. Chen, On strain-rate dependence of kineticenergy in homogenization approach: Theory and experiment,AIAA Journal, 50(10), 2012, 2029–2033. [21] A. Salehian, M. Ibrahim, and T.M. Seigler, Damping in periodicstructures: A continuum modeling approach, AIAA Journal(in press). [22] R. Haberman, Applied Partial Differential Equations withFourier Series and Boundary Value Problems, 4th ed. (UpperSaddle River, NJ: Pearson Education, Inc., 2004). [23] D.J. Inman, Engineering Vibration, 3rd ed. (Upper SaddleRiver, NJ: Pearson Education, Inc., 2007).
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