https://orcid.org/0000-0002-2048-5354
References
- Balike, M. 1998. “Enhancement of Crashworthiness in Car–Truck Collisions Using Damped Under-Ride Guard.” PhD diss., Concordia University, Montreal.
- Baykasoğlu, Adil, and Cengiz Baykasoğlu. 2017. “Multiple Objective Crashworthiness Optimization of Circular Tubes with Functionally Graded Thickness via Artificial Neural Networks and Genetic Algorithms.” Journal of Mechanical Engineering Science 231 (11): 2005–2016.
- Das, Indraneel, and J. E. Dennis. 1998. “Normal-Boundary Intersection: A New Method for Generating the Pareto Surface in Nonlinear Multicriteria Optimization Problems.” SIAM Journal on Optimization 8 (3): 631–657.
- Fehr, Jorg, Michael Fischer, Bernard Haasdonk, and Peter Eberhard. 2013. “Greedy-Based Approximation of Frequency-Weighted Gramian Matrices for Model Reduction in Multibody Dynamics.” ZAMM - Journal of Applied Mathematics and Mechanics / Zeitschrift für Angewandte Mathematik und Mechanik 93 (8): 501–519.
- Griðkevièius, Paulius, and Antanas Þiliukas. 2003. “The Crash Energy Absorption of the Vehicles Front Structures.” Transport 18 (2): 97–101.
- Grunert, Dennis, and Jörg Fehr. 2016. “Identification of Nonlinear Behavior with Clustering Techniques in Car Crash Simulations for Better Model Reduction.” Advanced Modeling and Simulation in Engineering Sciences 3 (20): 1–19. doi:10.1186/s40323-016-0072-x.
- Hamza, Karim T. 2008. “Design for Vehicle Structural Crashworthiness via Crash Mode Matching.” PhD diss., University of Michigan.
- Hamza, Karim, and Kazuhiro Saitou. 2004. “Design for Crashworthiness of Vehicle Structures via Equivalent Mechanism Approximations and Crush Mode Matching.” American Society of Mechanical Engineers, Design Engineering Division (Publication) DE 117: 949–960.
- Huang, Zhixin, and Xiong Zhang. 2020. “Crashworthiness and Optimization Design of Quadruple-Cell Aluminum/CFRP Hybrid Tubes Under Transverse Bending.” Composite Structures 235: 111753. doi:10.1016/j.compstruct.2019.111753.
- Ibrahim, Hesham Kamel. 2009. “Design Optimization of Vehicle Structures for Crashworthiness Improvement.” PhD diss., Concordia University Montreal Quebec Canada.
- Khalkhali, Abolfazl, Majid Mostafapour, Seyed Mohamad Tabatabaie, and Behnam Ansari. 2016. “Multi-objective Crashworthiness Optimization of Perforated Square Tubes Using Modified NSGA-II and MOPSO.” Structural and Multidisciplinary Optimization 54: 45–61.
- Kurtaran, H., A. Eskandarian, D. Marzougui, and N. E. Bedewi. 2002. “Crashworthiness Design Optimization Using Successive Response Surface Approximations.” Computational Mechanics 29: 409–421.
- Lattanzio, Richard K., Linda Tsang, and Bill Canis. 2011. Vehicle Fuel Economy and Greenhouse Gas Standards. https://crsreports.congress.gov.
- Lee, Tae Hee, and Jin Min Lee. 2011. “Full Frontal Crashworthiness Design Optimization of a Vehicle Using the Statistical Space-Time Kriging Metamodel Based on Multiple Responses Approach.” In 9th World Congress on Structural and Multidisciplinary Optimization, Shizuoka, Japan, June 13–17.
- Ma, Jiayao, and Zhong You. 2014. “Energy Absorption of Thin-Walled Square Tubes with a Prefolded Origami Pattern—Part I: Geometry and Numerical Simulation.” Journal of Applied Mechanics 81 (1): 1–11.
- Mozafari, Hozhabr, Soroushet Khatami, Habibollah Molatefi, Vincenzo Crupi, Gabriella Epasto, and Eugenio Guglielmino. 2016. “Finite Element Analysis of Foam-Filled Honeycomb Structures Under Impact Loading and Crashworthiness Design.” International Journal of Crashworthiness 21 (2): 148–160.
- Ofochebe, S. M., S. O. Enibe, and C. G. Ozoegwu. 2016. “Absorbable Energy Monitoring Scheme: New Design Protocol to Test Vehicle Structural Crashworthiness.” Heliyon 2 (5): 1–33.
- Ofochebe, Sunday M, Chigbogu G Ozoegwu, and Samuel O Enibe. 2015. “Performance Evaluation of Vehicle Front Structure in Crash Energy Management Using Lumped Mass Spring System.” Advanced Modeling and Simulation in Engineering Sciences 2 (2): 1–18.
- Pawlus, W., K. G. Robbersmyr, and H. R. Karimi. 2011. “Mathematical Modeling and Parameters Estimation of a Car Crash Using Data-Based Regressive Model Approach.” Applied Mathematical Modelling 35: 5091–5107.
- Robbersmyr, K. G. 2004. “Calibration Test of a Standard Ford Fiesta 1.1 l, Model Year 1987, according to NS-EN 12767.” Technical Report 43/2004, Agder Research, Grimstad.
- Shi, Dongyong, and Kenichi Watanabe. 2019. “Multi-objective Optimization Design of Multi-material (MM) Vehicle Beam with Aluminum Extrusion and High Strength Steel.” Society of Automotive Engineers of Japan 50 (2): 417–423.
- Song, Xueguan, Guangyong Sun, Guangyao Li, Weizhao Gao, and Qing Li. 2013. “Crashworthiness Optimization of Foam-Filled Tapered Thin-Walled Structure Using Multiple Surrogate Models.” Structural and Multidisciplinary Optimization 47: 221–231.
- Tahan, Fadi J., Chung-Kyu Park, Richard M. Morgan, Chongzhen Cui, Bavneet Brar, Kurt Shanks, and Cing-Dao Kan. 2013. “The Effect of Reduced Mass on Frontal Crashworthiness.” In International Journal of Crashworthiness Conference, Milan, Italy, July 18-20.
- Yildiz, Ali R., and Kiran N Solanki. 2012. “Multi-objective Optimization of Vehicle Crashworthiness Using a New Particle Swarm Based Approach.” The International Journal of Advanced Manufacturing Technology 59: 367–376.
- Zhang, Yong, Guangyong Sun, Guangyao Li, Zhen Luo, and Qing Li. 2012. “Optimization of Foam-Filled Bitubal Structures for Crashworthiness Criteria.” Materials and Design 38: 99–109. doi:10.1016/j.matdes.2012.01.028.
- Zhang, Songan, Qing Zhou, and Yong Xia. 2015. “Influence of Mass Distribution of Battery and Occupant on Crash Response of Small Lightweight Electric Vehicle.” In SAE Technical Papers, March 27.
- Zhou, Junxian, Qin Ruixian, and Chen Bingzhi. 2019. “Energy Absorption Properties of Multi-cell Thin-Walled Tubes with a Double Surface Gradient.” Thin-Walled Structures 145: 106386. doi:10.1016/j.tws.2019.106386.