Yagawa, G. “Free mesh method using tetrahedral element including the vertex rotations”, in : Proceedings-Japan Society of Civil Engineers , DOTOKU GAKKAI, pp. 97–108, 2004.  Tian, R. and Yagawa, G., “Generalized nodes and high-performance elements”, International Journal for Numerical Methods in Engineering , 64, 2039–2071, 2005. doi.org/10.1002/nme.1436.  Tian, R., Matsubara, H. and Yagawa, G., “Advanced 4-node tetrahedrons”, International Journal for Numerical Methods in Engineering , 68, 1209–1231, 2006. doi.org/10.1002/nme.1744  Tian, R., Matsubara, H
References  Darabont Ö., Kiss K. J., Domokos J., “Performance Analysis of Remote Desktop Virtualization based on Hyper-V versus Remote Desktop Services”, in Proceedings of the 5 th International Conference on Recent Acievements in Mechatronics, Automation, Computer Science and Robotics (MACRo 2015), Tîrgu Mureș, Romania , 2015, pp. 125-135.  Bari F., Boutaba R., Esteves R., Granville L. Z., Podlesny M., Rabbani G., Zhang Q., Zhani M. F., “Data Center Network Virtualization: A Survey”, in IEEE Communications Surveys & Tutorials , Vol. 15, No. 2, pp. 909
In this paper, the earlier formulation of the eight-node hexahedral SFR8 element is extended in order to analyze material nonlinearities. This element stems from the so-called Space Fiber Rotation (SFR) concept which considers virtual rotations of a nodal fiber within the element that enhances the displacement vector approximation. The resulting mathematical model of the proposed SFR8 element and the classical associative plasticity model are implemented into a Fortran calculation code to account for small strain elastoplastic problems. The performance of this element is assessed by means of a set of nonlinear benchmark problems in which the development of the plastic zone has been investigated. The accuracy of the obtained results is principally evaluated with some reference solutions.
. 171-178, 2003.  Kim, J., and Cioffi, J. M., “Spatial Multiuser Access OFDM with Antenna Diversity and Power Control”, in Proc. IEEE 52nd Vehicular Technology Conference , Boston , MA , Sept. 2000, pp. 273-279.  Esquerta-Soto, J. A., et al., “Performance Analysis of 3G+ Cellular Technologies with Mobile Clients”, Journal of Applied Research and Technology , vol. 10, no. 2, pp. 227-247, April 2012.  Kim, S., and Choz, Y. J., “Adaptive Transmission Opportunity Scheme Based on Delay Bound and Network Load in IEEE 802.11e Wireless LANs”, Journal of Applied
] Grimes, D. R., Kelly, C., Bloch, K., Partridge, M., “A method for estimating the oxygen consumption rate in multicellular tumour spheroids”, J. R. Soc. Interface 11, 20131124 (2014).  Macklin, P., Edgerton, M. E., Thompson, A. M., Cristini, V., “Patient-calibrated agent-based modelling of ductal carcinoma in situ (DCIS): From microscopic measurements to macroscopic predictions of clinical progression”, Journal of Theoretical Biology 301 (2012) 122–140.  Kiss, D., Lovrics, A., “Performance analysis of a computational off-lattice tumor growth model
References  Strumpp, G., Ricco, M. “Common Rail – An Attractive Fuel Injection System for Passenger Car DI Diesel Engines”, SAE Technical Paper Series 960870, 1996.  Zellbeck, H. and Schmidt G. “Einspritzsysteme für zukünftige Anforderungen an schnellaufenden Dieselmotor”, MTZ , vol. 56, no. 11, pp. 648-655, 1995.  Tutak W, Jamrozik A, Bereczky Á and Lukács K. “Effects of injection timing of diesel fuel on performance and emission of dual fuel diesel engine powered by diesel/E85 fuels”, TRANSPORT (VILNIUS) , vol. 33, no. 3, pp. 633-646, 2018. [4
compressors”, Journal of Applied Soft Computing , Vol.11, Issue. 1, pp. 1036–1043, January 2011.  Sheng, H., Huang, W., and Zhang, T., “Output feedback control of surge and rotating stall in axial compressors”, Asian Journal of Control , Vol. 19, Issue 1, pp.1–7, September 2016.  Debbah, A., Kharfene, H., Karboua, A., “Using Robust sliding mode controller to improving the aerodynamic performance of a gas turbine”, in Proc. of the 4 th International Seminar on New and Renewable Energies , 2016, pp. 1–6.  Lui, J., “Advanced sliding mode control for mechanical