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• [1]J. Han, Y. Hayashi, P. Jia, and Q. Yuan, “Economic Effect of High-Speed Rail: Empirical Analysis of Shinkansen’s Impact on Industrial Location,” J. Transp. Eng., vol. 138, no. 12, pp. 1551–1557, Dec. 2012.
• [2]X. Jin, “A measurement and evaluation method for wheel-rail contact forces and axle stresses of high-speed train,” Measurement, vol. 149, p. 106983, Jan. 2020.
• [3]İ. Esen and M. A. Koç, “Optimization of a passive vibration absorber for a barrel using the genetic algorithm,” Expert Syst. Appl., vol. 42, no. 2, pp. 894–905, 2015.
• [4]I. Esen and M. A. Koç, “Dynamic response of a 120 mm smoothbore tank barrel during horizontal and inclined firing positions,” Lat. Am. J. Solids Struct., vol. 12, no. 8, 2015.
• [5]M. A. Koç, İ. Esen, and Y. Çay, “Tip deflection determination of a barrel for the effect of an accelerating projectile before firing using finite element and artificial neural network combined algorithm,” Lat. Am. J. Solids Struct., vol. 13, no. 10, pp. 1968–1995, 2016
• [6]İ. Esen and M. A. Koç, “35 mm Uçaksavar Topu Namlusu için Titreşim Absorberi Tasarımı ve Genetik Algoritma ile Optimizasyonu,” in Otomatik Kontrol Ulusal Toplantısı-TOK 2013, 2013, pp. 513–518.
• [7]M.-K. Song, H.-C. Noh, and C.-K. Choi, “A new three-dimensional finite element analysis model of high-speed train–bridge interactions,” Eng. Struct., vol. 25, no. 13, pp. 1611–1626, 2003.
• [8]J. D. Yau, M. D. Martínez-Rodrigo, and A. Doménech, “An equivalent additional damping approach to assess vehicle-bridge interaction for train-induced vibration of short-span railway bridges,” Eng. Struct., vol. 188, no. January, pp. 469–479, 2019.
• [9]K. Youcef, T. Sabiha, D. El Mostafa, D. Ali, and M. Bachir, “Dynamic analysis of train-bridge system and riding comfort of trains,” J. Mech. Sci. Technol., vol. 27, no. 4, pp. 951–962, 2013.
• [10]B. Biondi, G. Muscolino, and A. Sofi, “A substructure approach for the dynamic analysis of train-track-bridge system,” Comput. Struct., vol. 83, no. 28-30 SPEC. ISS., pp. 2271–2281, 2005.
• [11]M. Majka and M. Hartnett, “Effects of speed , load and damping on the dynamic response of railway bridges and vehicles,” Comput. Struct., vol. 86, pp. 556–572, 2008.
• [12]M. Valášek, W. Kortüm, Z. Šika, L. Magdolen, and O. Vaculín, “Development of semi-active road-friendly truck suspensions,” Control Eng. Pract., vol.6, no. 6, pp. 735–744, 1998.
• [13]J. F. Wang, C. C. Lin, and B. L. Chen, “Vibration suppression for high-speed railway bridges using tuned mass dampers,” Int. J. Solids Struct., vol. 40, no. 2, pp. 465–491, 2003.
• [14]Z. Y. Gao, B. Tian, D. P. Wu, and Y. S. Chang, “Study on semi-active control of running stability in the high-speed train under unsteady aerodynamic loads and track excitation,” Veh. Syst. Dyn., pp. 1–14, Sep. 2019.
• [15]M. J. Thoresson, P. E. Uys, P. S. Els, and J. A. Snyman, “Efficient optimisation of a vehicle suspension system, using a gradient-based approximation method, Part 1: Mathematical modelling,” Math. Comput. Model., vol. 50, no. 9–10, pp. 1421–1436, 2009.
• [16]P. E. Uys, P. S. Els, and M. Thoresson, “Suspension settings for optimal ride comfort of off-road vehicles travelling on roads with different roughness and speeds,” J. Terramechanics, vol. 44, pp. 163–175, 2007.
• [17]S. K. Sharma and A. Kumar, “Ride comfort of a higher speed rail vehicle using a magnetorheological suspension system,” Proc. Inst. Mech. Eng. Part K J. Multi-body Dyn., vol. 232, no. 1, pp. 32–48, 2018.
• [18]Q. Zhu, L. Li, C. J. Chen, C. Z. Liu, and G. Di Hu, “A Low-Cost Lateral Active Suspension System of the High-Speed Train for Ride Quality Based on the Resonant Control Method,” IEEE Trans. Ind. Electron., vol. 65, no. 5, pp. 4187–4196, 2018.
• [19]M. Düğenci, A. Aydemir, İ. Esen, and M. E. Aydın, “Creep modelling of polypropylenes using artificial neural networks trained with Bee algorithms,” Eng. Appl. Artif. Intell., vol. 45, pp. 71–79, Oct. 2015.
• [20]H. Altınkaya, İ. M. Orak, and İ. Esen, “Artificial neural network application for modeling the rail rolling process,” Expert Syst. Appl., vol. 41, no. 16, pp. 7135–7146, 2014.
• [21]M. Metin and R. Guclu, “Active vibration control with comparative algorithms of half rail vehicle model under various track irregularities,” JVC/Journal Vib. Control, vol. 17, no. 10, pp. 1525–1539, 2011.
• [22]Z. Yang, J. Zhang, Z. Chen, and B. Zhang, “Semi-active Control of High-speed Trains Based on Fuzzy PID Control,” Procedia Eng., vol. 15, pp. 521–525, Jan. 2011.[23]W. K. Gawronski, Advanced Dynamics and Active Control of Structures. 2004.