FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4211103788> ?p ?o ?g. }

• W4211103788 endingPage "227" @default.
• W4211103788 startingPage "213" @default.
• W4211103788 abstract "Free Access Bibliography Ghias Kharmanda, Ghias KharmandaSearch for more papers by this authorAbdelkhalak El Hami, Abdelkhalak El HamiSearch for more papers by this author Book Author(s):Ghias Kharmanda, Ghias KharmandaSearch for more papers by this authorAbdelkhalak El Hami, Abdelkhalak El HamiSearch for more papers by this author First published: 30 December 2016 https://doi.org/10.1002/9781119379126.biblio AboutPDFPDF ToolsRequest permissionExport citationAdd to favoritesTrack citation ShareShareShare a linkShare onFacebookTwitterLinked InRedditWechat References Abo-Alkheer A., Kharmanda G., El Hami A., “ Probabilistic design for agricultural machines”, International Conference for Non Convex Programming NCP07, Rouen, France, 17– 21 December 2007. Abo-Alkheer A., Kharmanda G., El Hami A., “ Probabilistic design for soil tillage equipments”, Proceedings of the 18th Triennial ISTRO Conference, Izmir, Turkey, 2009. Abo Al-Kheer A., Kharmanda G., El Hami A., “ Intégration des incertitudes de propriétés mécaniques du sol pour l'analyse de conception de machines agricoles”, Congrès Français de Mécanique CFM09, Marseille, France, 24– 28 August 2009. Abo-Alkheer A., Kharmanda G., El Hami A., “ Application of reliability methods for the safety assessment of soil tillage machines”, International Congress for Applied Mechanics, Marrakech, Morocco, 2010. Abo-Alkheer A., Intégration des concepts d'optimisation et de fiabilité dans la conception des machines agricoles, PhD Thesis, INSA de Rouen, 2010. Abo-Alkheer A., El Hami A., Kharmanda G. et al., “Reliability-based design for soil tillage machines”, Journal of Terra-mechanics, vol. 48, no. 1, pp. 57– 64, 2011. Abo-Alkheer A., Eid M., Aoues Y. et al., “Theoretical analysis of the spatial variability in tillage forces for fatigue analysis of tillage machines”, Journal of Terra-mechanics, vol. 48, no. 4, pp. 285– 295, 2011. Abo-Alkheer A., Kharmanda G., El Hami A. et al., “Estimating the variability of tillage forces on a chisel plough shank by modeling the variability of tillage system parameters”, Journal of Computers and Electronics Agriculture, vol. 78, no. 1, pp. 61– 70, 2011. Agarwal H., Reliability based design optimization: formulations and methodologies, PhD Thesis, University of Notre Dame, 2004. Aoues Y., Chateauneuf A., “Benchmark study of numerical methods for reliability-based design optimization”, Journal of Structural and multidisciplinary optimization, vol. 41, no. 2, pp. 277– 294, 2010. Bae K., Wang S., “ Reliability-based topology optimization”, Proceedings of 9th AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization 2002, AIAA 2002–5542, 2002. Barthelemy B., Haftka R.T., “Accuracy analysis of the semi-analytical method for shape sensitivity analysis”, Mechanics of Structures and Machines, vol. 18, no. 3, pp. 407– 432, 1988. Beckers M., Fleury C., “ A primal-dual approach in truss optimization”, in B.H.V. Toppings , M. Papadrakakis (eds), Advances in Structural Optimization, Civil-Comp Press, Edinburgh, 1994. Belegundu A., Rajan S., “A shape optimization approach based on natural design variables and shape function”, Computer Methods in Applied Mechanics and Engineering, vol. 66, pp. 87– 106, 1988. Bennet J.A., Botkin M.E., “Shape optimization of two-dimensional structures with geometric problem description and adaptive mesh refinement”, AIAA Journal, vol. 23, no. 3, pp. 458– 464, 1983. Bendsøe M.P., Kikuchi N., “Generating optimal topologies in optimal design using a homogenization method”, Computer Methods in Applied Mechanics and Engineering, vol. 71, pp. 197– 224, 1988. Bendsøe M.P., Ben-Tal A., Haftka R.T., “ New displacement-based methods for optimal truss topology design”, Proceedings AIAA/ASME/ASCE/AHS/ASC 32nd Structures, Structural Dynamics and Material Conference, Baltimore, 8– 10 April 1991. Ben-Tal A., Kočvara M., Zowe J., “ Two non-smooth methods for simultaneous geometry and topology design of trusses”, in M.P. Bendsøe , C.C. Motasoares (eds), Topology Design of Structures, NATO ASI Series, vol. 227, Kluwer Academic Publishers, 1993. Ben-Tal A., Nimirovskii A., “ An interior point algorithm for truss topology design”, in M.P. Bendsøe , C.C. Motasoares (eds), Topology Design of Structures, NATO ASI Series, vol. 227, Kluwer Academic Publishers, 1993. Bendsøe M.P., Optimization of Structural Topology, Shape and Material, Springer, Berlin, Heidelberg, 1995. Ben-Tal A., Zibulevsky M., “Penalty/barrier method for convex programming problems”, Journal of Structural Optimization, vol. 7, no. 2, pp. 347– 366, 1997. Boyle C., Kim I.Y., “Comparison of different hip prosthesis shapes considering micro-level bone remodeling and stress-shielding criteria using three-dimensional design space topology optimization”, Journal of Biomechanics, vol. 44, no. 2011, pp. 1722– 1782, 2011. Braibant V., Fleury C., “Shape optimal design using B-splines”, Computer Methods in Applied Mechanics and Engineering, vol. 44, pp. 247– 267, 1984. Chang P.B., Williams B.J., Bhalla K.S.B. et al., “Design and analysis of robust total joint replacements: finite element model experiments with environmental variables”, Journal of Biomechanical Engineering, vol. 123, pp. 239– 246, 2001. Couegnat G., Fok S.L., Cooper J.E. et al., “Structural optimization of dental restorations using the principle of adaptive growth, accepted for publication”, Dental Materials, vol. 22, pp. 3– 12, 2006. Crossland B., “ Effects of large hydrostatic pressures on the torsional fatigue strength of an alloy steel”, International Conference on Fatigue of Metals, London, 1956. Devictor N., Marques M., “ Probabilistic optimization of safety coefficient: comparison between the design point method and a global optimization method”, in G.I. Schuëller , P. Kafka (eds), Safety and Reliability, Rotterdam, 1999. Ditlevsen O., Madsen H., Structural Reliability Methods, John Wiley & Sons, 1996. Doblare M., Garcia J.M., Gomez M.J., “Modelling bone tissue fracture and healing: a review”, Engineering Fracture Mechanics, vol. 71, pp. 1809– 1840, 2004. Duysinx P., Zhang W.H., Zhong H.G. et al., “ Structural shape optimization with error control”, in B.J. Gilmore , D.A. Hoeltzel , D. Dutta et al. (eds), Advances in Design Automation, Proceedings of ASME Design Technical Conferences – 20 Design Automation Conference, Mineapolis, 11–14 September 1994. El-Sheikh H.F., Macdonald B.J., Hashmi M.S.J., “Finite element simulation of the hip joint during stumbling: a comparison between static and dynamic loading”, Journal of Materials Processing Technology, vol. 143–144, pp. 249– 255, 2003. Enevoldsen I., Sorensen J.D., “Reliability-based optimization of series systems of parallel systems”, Journal of Structural Engineering, vol. 119, pp. 1069– 1084, 1993. Enevoldsen I., Sorensen J.D., “Reliability-based optimization in structural engineering”, Structural Safety, vol. 15, pp. 169– 196, 1994. Eschenauer H.A., Olhoff N., “Topology optimization of continuum structures: a review”, Applied Mechanics Reviews, vol. 54, no 4, pp. 331– 390, 2001. Feng Y.S., Moses F., “A method of structural optimization based on structural system reliability”, Journal of Structural Mechanics, vol. 14, no. 4, pp. 437– 453, 1986. Fernandes P.R., Folgado J., Ruben R.B., “Shape optimization of a cementless hip stem for a minimum of interface stress and displacement”, Computer Methods in Biomechanics and Biomedical Engineering, vol. 7, no. 1, pp. 51– 61, 2004. Fleury C., Sander G., “Dual method for optimizing finite element flexural systems”, Computer Methods in Applied Mechanics and Engineering, vol. 37, pp. 249– 275, 1983. Fox R.L., “Constraint surface normals for structural synthesis techniques”, AIAA Journal, vol. 3, no. 8, pp. 1517– 1518, 1965. Frangopol D.M., “Structural optimization using reliability concepts”, Journal of Structure Engineering, ASCE, vol. 111, pp. 2288– 2301, 1985. Frangopol D.M., “ Reliability-based optimum structural design”, in C. Sundarajan (ed.), Probabilistic Structural Mechanics Handbook, Chapman & Hall, New York, 1995. Fraldi M., Esposito L., Perrella G. et al., “Topological optimization in hip prosthesis design”, Biomechanics and Modeling in Mechanobiology, vol. 9, pp. 389– 402, 2010. Fu G., Frangopol D.M., “Reliability-based vector optimization of structural systems”, Journal of Structural Engineering, vol. 116, pp. 2143– 2161, 1990. Garino J.-P., “Modern ceramic-on-ceramic total hip systems in United State”, Clinical Orthopaedics, vol. 379, p. 41, 2000. Gayton N., Pendola M., Lemaire M., “Partial safety factors calibration of externally pressurized thin shells”, in CNES (ed.), Third European Conference on Launcher Technology, Strasbourg, France, 2001. Gayton N., Mohamed A., Sorensen J.D. et al., “Calibration methods for reliability-based design codes”, Structural Safety, vol. 26, pp. 91– 121, 2004. Gonzalez C.D., New A., Browne M., “Probabilistic finite element analysis of the uncemented hip replacement effect of femur characteristics and implant design geometry”, Journal of Biomechanics, vol. 43, no. 3, pp. 512– 520, 2010. Goyet J., Jacob B., Lemaire M. et al., “Fiabilité des constructions”, Revue Française de Génie Civil, vols. 2–5, pp. 529– 610, 1998. Grandhi R.V., Wang L., “Reliability-based structural optimization using improved two-point adaptive nonlinear approximations”, Finite Elements in Analysis and Design, vol. 29, pp. 35– 48, 1998. Gross S., Abel E.W., “A finite element analysis of hollow stemmed hip prostheses as a means of reducing stress shielding of the femur”, Journal of Biomechanics, vol. 34, no. 8, pp. 995– 1003, 2001. Gustafsson A., Schilcher J, Grassi L. et al., “Strains caused by daily loading might be responsible for delayed healing of an incomplete atypical femoral fracture”, Bone, vol. 88, pp. 125– 130, 2016. Haftka R., Gandhi R.V., “Structural shape optimization – a survey”, Computer Methods in Applied Mechanics and Engineering, vol. 57, pp. 91– 106, 1986. Hasofer A.M., Lind N.C., “An exact and invariant first order reliability format”, Journal of Engineering Mechanics, ASCE, vol. EM1 100, pp. 111– 121, 1974. Hauge L., Loseth R., Skjong R., “ Optimal code calibration and probabilistic design”, 11th international Conference on Off Shore Mechanics and Artic Engineering (OMAE-92), vol. II, Calgary, Canada, pp. 191– 199, 1992. Hedia H.S., “Numerical optimization of dental implant through the concept of functionally graded materials”, Materials Testing, vol. 53, no. 9, pp. 556– 563, 2011. Huiskes R., Weinans H., Grootenboer H.J. et al., “Adaptive bone-remodeling theory applied to prosthetic-design analysis”, Journal of Biomechanics, vol. 20, pp. 1135– 1150, 1987. Huiskes R., Boeklagen R., “Mathematical shape optimization of hip prosthesis design”, Journal of Biomechanics, vol. 22, no. 8/9, pp. 793– 804, 1989. Ibrahim M.-H., Kharmanda G., Charki A., “Reliability-based design optimization for fatigue damage analysis”, The International Journal of Advanced Manufacturing Technology, vol. 76, pp. 1021– 1030, 2015. Jung H.-S., Cho S., Yang Y.-S., “ Reliability-based robust topology design optimization of nonlinear structures”, WCSMO5, Italy, 2003. Jung H.-S., Cho S., “Reliability-based topology optimization of geometrically nonlinear structures with loading and material uncertainties”, Finite Elements in Analysis and Reliability Design, vol. 43, pp. 311– 331, 2004. Katouzian H., Davy D.T., “ Three-dimensional shape optimization of femoral components of total hip prostheses”, Bioengineering Conference ASME, vol. 24, pp. 552– 555, 1993. Keller T.S., “Predicting the compressive mechanical behavior of bone”, Journal of Biomechanics, vol. 27, pp. 1159– 1168, 1994. Kharmanda G., Mohamed A., Lemaire M., “ Méthode hybride pour l'optimisation mécano-fiabiliste des structures”, Troisième Conférence Nationale Fiabilité des Matériaux et des Structures, JN Fiab 3, Bordeaux, 1–2 February 2001. Kharmanda G., Mohamed A., Lemaire M., “ Intégration de l'analyse de la fiabilité en optimisation des structures”, Journée Optimisation, Annales Scientifiques de l'Université Blaise Pascal, Clermont-Ferrand, France, 1 March 2001. Kharmanda G., Mohamed A., Lemaire M., “ Une nouvelle méthodologie pour la conception optimisée des structures fiables”, 7ème Colloque sur la Conception Mécanique Intégrée, AIP-PRIMECA, La Plagne, France, 2–4 April 2001. Kharmanda G., Mohamed A., Lemaire M., “ New hybrid formulation for reliability-based optimization of structures”, The Fourth World Congress of Structural and Multidisciplinary Optimization, WCSMO-4, Dalian, Chine, 4– 8 June 2001. Kharmanda G., Olhoff N., Reliability-based topology optimization, Report no. 110, Institute of Mechanical Engineering, Aalborg University, December 2001. Kharmanda G., Mohamed A., Lemaire M., “CAROD: Computer-Aided Reliable and Optimal Design as a concurrent system for real structures”, International Journal of CAD/CAM, vol. 2, pp. 1– 22, 2002. Kharmanda G., Mohamed A., Lemaire M., “ Algorithms for reliability-based design optimization of truss structures”, ESREL, Lyon, France, 18– 22 March 2002. Kharmanda G., Mohamed A., Lemaire M., “ Integration of reliability-based design optimization within CAD and FE models”, The 4th International Conference of Integrated Design and Manufacturing of Mechanical Engineering, Clermont-Ferrand, France, 4– 8 May 2002. Kharmanda G., Mohamed A., Lemaire M., “Efficient reliability-based design optimization using hybrid space with application to finite element analysis”, Structural and Multidisciplinary Optimization, vol. 24, pp. 233– 245, 2002. Kharmanda G., Mohamed A., Lemaire M., “Méthode hybride pour l'optimisation mécano-fiabiliste des structures”, Revue Française de Génie Civil, vol. 6, no. 3, pp. 457– 465, 2002. Kharmanda G., Olhoff N., “ Reliability-based topology optimization as a new strategy to generate different topologies”, Nordic Seminar in Computational Methods, NSCM-15, Aalborg, Denmark, 18– 19 October 2002. Kharmanda G., Olhoff N., Optimal safety factors, Report no. 115, Institute of Mechanical Engineering, Aalborg University, October 2002. Kharmanda G., Mohamed A., Lemaire M., “ Integration of reliability-based design optimization within CAD and FE models”, in G. Gogu et al. (eds), Recent Advances in Integrated Design and Manufacturing in Mechanical Engineering, Kluwer Academic Publishers, 2003. Kharmanda G., Olhoff N., “ An optimum safety factor approach for reliability-based optimal design”, Fifth World Congress of Structural and Multidisciplinary Optimization, Lido di Jesolo-Venice, Italy, 19– 23 May 2003. Kharmanda G., Mohsine A., El-Hami A., “ Efficient reliability-based design optimization for dynamic structures”, Fifth World Congress of Structural and Multidisciplinary Optimization, Lido di Jesolo-Venice, Italy, 19– 23 May 2003. Kharmanda G., El-Hami A., Olhoff N., “ Global reliability-based design optimization”, 4th International Conference on Frontiers in Global Optimization, Nonconvex Optimization and its Applications, Santorini, Greece, 8– 12 June 2003. Kharmanda G., Optimization and CAD of reliable structures, European PhD Thesis, Blaise Pascal University/Aalborg University, 23 June 2003. Kharmanda G., El Hami A., Olhoff N., “Global reliability-based design optimization”, Journal of Non-Convex Optimization and its Applications, vol. 74, pp. 255– 274, 2003. Kharmanda G., El Hhami A., Olhoff N., “ Global reliability-based design optimization”, in C.A. Floudas et al. (eds), Frontiers in Global Optimization, Chapter 20, Kluwer Academic Publishers, Dordrecht, The Netherlands, 2004. Kharmanda G., “Two points of view for developing reliability-based design optimization”, New Trends in Fatigue and Fracture IV, Aleppo, Syria, 10– 12 May 2004. Kharmanda G., Mohsine A., Baroud Y. et al., “Reliability-based design optimization for free vibrated structures”, New Trends in Fatigue and Fracture IV, Aleppo, Syria, 10– 12 May 2004. Kharmanda G., El Hami A., Makhloufi A. et al., “Probabilistic distribution variability in reliability-based optimum design”, New Trends in Fatigue and Fracture IV, Aleppo, Syria, 10– 12 May 2004. Kharmanda G., Olhoff N., Mohamed A. et al., “Reliability-based topology optimization”, Structural and Multidisciplinary Optimization, vol. 26, pp. 295– 307, 2004. Kharmanda G., Olhoff N., El-Hami A., “Optimum values of structural safety factors for a predefined reliability level with extension to multiple limit states”, Structural and Multidisciplinary Optimization, vol. 27, pp. 421– 434, 2004. Kharmanda G., Olhoff N., El-Hami A., “ Recent developments in reliability-based design optimization”, Sixth World Congress of Computational Mechanics, WCCMVI, Beijing, China, 5– 10 September 2004. Kharmanda G., Ibrahim H., “Efficient reliability-based design optimization methods for composite materials”, Research Journal of Aleppo University, Series of Engineering Sciences, vol. 46, pp. 123– 138, 2005. Kharmanda G., Olhoff N., Linear and nonlinear reliability-based design optimization, Report no. 57, Institute of Mechanical Engineering, Aalborg University, Denmark, March 2006. Kharmanda G., Altonji A., El Hami A., “ Safest point method for reliability-based design optimization of freely vibrating structures”, CIFMA01, 1st International Francophone Congess of Advanced Mechanics, Aleppo, Syria, 2– 4 May 2006. Kharmanda G., Makhloufi A., El Hami A., “ Efficient computing time reduction for reliability-based design optimization”, Qualita 2007, Tanger, Maroc, 20– 22 March 2007. Kharmanda G., Souza de Cursi E., El Hami A.,” Advanced technologies for reliability-based design optimization”, 2nd International Francophone Congress of Advanced Mechanics, Aleppo, Syria, 14–16 May 2007. Kharmanda G., Kourdi N., Daboul A. et al., “ Reliability-based topology optimization as efficient tool for structural designers”, 2nd International Francophone Congress of Advanced Mechanics, Aleppo, Syria, 14– 16 May 2007. Kharmanda G., Olhoff N., “An extension of optimum safety factor approach to nonlinear reliability-based design optimization”, Structural and Multidisciplinary Optimization, vol. 34, pp. 367– 380, 2007. Kharmanda G., Lambert S., Kourdi N. et al., “Reliability-based topology optimization for different engineering applications”, International Journal of CAD/CAM, vol. 7, no. 1, p. 18, 2007. Kharmanda G. Souza de Cursi E., El Hami A., “ Nonlinearity investigation of reliability-based design optimization for stress unilateral structures”, International Conference for Non Convex Programming, Rouen, France, 17–21 December 2007. Kharmanda G., Ibrahim H., “Reliability-based design optimization for freely vibrating composite structures”, Research Journal of Aleppo University, vol. 56, pp. 182– 199, 2007. Kharmanda G., “ Numerical and semi-numerical methods for reliability-based design optimization”, in D.M. Frangopol (eds), Structural Design Optimization Considering Uncertainties, Taylor & Francis Publisher, 2008. Kharmanda G., Sur l'optimisation fiabiliste des structures: Méthodologies et applications, HDR Report, University of Rouen, April 2008. Kharmanda G., Mohsine A., Makhloufi A. et al., “Recent methodologies for reliability-based design optimization”, International Journal for Simulation and Multidisciplinary Design Optimization, vol. 2, no. 1, pp. 11– 24, 2008. Kharmanda G., Ibrahim H., “Reliability-based design optimization for fatigue damage analysis”, Research Journal of Aleppo University, vol. 61, pp. 262– 281, 2008. Kharmanda G., El-Hami A., Souza de Cursi, “ Optimisation fiabiliste des structures”, in R. Filomeno Coelho , P. Breitkopf (eds), Optimisation Multidisciplinaire en Mécanique, vol. 2, Lavoisier – Hermès Science, 2009. Kharmanda G., Sharabaty S., Makhloufi A. et al., “Reliability based design optimization using efficient semi-numerical methods for structural engineering applications”, International Journal of CAD/CAM, vol. 9, 2009. Kharmanda G., Ibrahim H., Sharabaty S., “Optimum safety factors for nonlinear reliability-based design optimization: applications on orthopedic replacement design”, Research Journal of Aleppo University, vol. 67, pp. 22– 37, 2009. Kharmanda G., Ibrahim , H, “Intégration de l'OptimisationFiabiliste en Applications Industrielles”, Research Journal of Aleppo University, vol. 72, pp. 364– 379, 2009. Kharmanda G., El-Hami A., Souza de Cursi E., “ Reliability-based design optimization”, in P. Breitkopf , R. Filomeno Coelho (eds), Multidisciplinary Design Optimization in Computational Mechanics, ISTE Ltd, London and Wiley & Sons, New York, 2010. Kharmanda G., “Méthode hybride robuste pour la conception des structures optimales”, Research Journal of Aleppo University, vol. 86, pp. 114– 127, 2010. Kharmanda G., Gashim M., Efficient multi objective optimization methods for complex finite element engineering applications, Workshop on Finite Element Engineering Applications, Faculty of Mechanical and Electrical Engineering, Damascus University, Syria, 3–4 November 2010. Kharmanda G., Sayegh A., Advanced strategies for complex optimization procedures with application to different mechanical engineering studies, Workshop on High Performance Computing, HIAST, Damascus-Syria, 13–15 December 2010. Kharmanda G., Sayegh A., “ Advanced algorithm for improving power building systems”, Solar Energy Conference, Aleppo, Syria, 15– 16 March 2011. Kharmanda G., Alkhatab Z., “Nouvelles méthodes pour la conception de topologie”, Research Journal of Aleppo University, vol. 94, pp. 403– 420, 2011. Kharmanda G., Albashi Z., “Technologie de l'optimisation de topologie pour augmenter la performance des structures”, Research Journal of Aleppo University, vol. 97, pp. 47– 64, 2011. Kharmanda G., Albashi L., “Numerical study for increasing efficiency of artificially un-cemented hip joint”, Research Journal of Aleppo University, vol. 101, pp. 47– 64, 2011. Kharmanda G., Boshi A., “Reliability analysis of soil tillage machine design”, Research Journal of Aleppo University, vol. 101, pp. 148– 165, 2011. Kharmanda G., Boshi A., “Optimum design of shank chisel plough under soil random variables”, Research Journal of Aleppo University, vol. 101, pp. 395– 409, 2011. Kharmanda G., Computer-Aided Design, Aleppo University Publications, Syria, October 2011. Kharmanda G., Mulki S., Sabsabi Y., “Computer-aided design of internal replacement models in orthopedics surgery”, Research Journal of Aleppo University, Series of Engineering Sciences, vol. 105, pp. 312– 328, 2012. Kharmanda G., Ibrahim M.-H., “ Topology-based optimum design method for artificially replaced cementless hip joints”, 10th World Congress on Structural and Multidisciplinary Optimization, Orlando, 19–24 May 2013. Kharmanda G., Abdalla M., Kachit M. et al., “ Proportional gradient method for minimizing casting defects: numerical and experimental application on aluminum alloy A356”, 10th World Congress on Structural and Multidisciplinary Optimization, Orlando, 19–24 May 2013. Kharmanda G., Albashi L., “Integration of topology optimization into osteo-replaced joint design”, Research Journal of Aleppo University, vol. 113, pp. 408– 423, 2013. Kharmanda G., Wallin M., Ristinmaa M., “ Integration of multi-objective structural optimization into ANSYS software with application to artificially hip replacement joints”, ANSYS 2014 Convergence Conferences, Gothenburg, Sweden, 20– 21 May 2014. Kharmanda G., Kharma M.Y., Ristinmaa M. et al., “ Structural optimization of mini-plates in fixation of human mandible fractures”, in A. Eriksson , A. Kulachenko , M. Mihaescu (eds), 27th Nordic Seminar on Computational Mechanics – Stockholm, Sweden, 22–24 October 2014. Kharmanda G., Ibrahim M.-H., Abo Al-kheer A. et al., “Reliability-based design optimization of shank chisel plough using optimum safety factor strategy”, Journal of Computers and Electronics Agriculture, vol. 109, pp. 162– 171, 2014. Kharmanda G., “Reliability analysis for cementless hip prosthesis using a new optimized formulation of yield stress against elasticity modulus relationship”, Materials and Design, vol. 65, pp. 496– 504, 2015. Kharmanda G., Shokry A., “ Investigation and validation of a new optimized yield stress/elasticity modulus formulation for bone fracture identification”, International Conference on Mechanics of Complex Solids and Fluids, ICMCSF, Lille, France, 17– 22 May 2015. Kharmanda G., Antypas I., “Integration of reliability concept into soil tillage machine design”, Journal of Don State Technical University 'Vestnik of DSTU', vol. 15, no. 2, pp. 22– 31, 2015.ISSN 1992-5980. Kharmanda G., “Integration of multi-objective structural optimization into cementless hip prosthesis design: improved Austin-Moore model”, Computer Methods in Biomechanics and Biomedical Engineering, vol. 19, no. 14, pp. 1557– 1566, 2016. Kharmanda G., Kharma M.Y., “Evaluating the effect of minimizing screws on stabilization of symphysis mandibular fracture by 3D finite element analysis”, Journal of Maxillofacial and Oral Surgery, 2016. Kharmanda G., Ibrahim M.H., El Hami A., “ Reliability analysis of mini-plate stabilization used in human fractured mandibles”, 22nd Congress of the European Society of Biomechanics, Lyon, France, 10– 13 July 2016. Kharmanda G., Antypas I., “Reliability-based design optimization strategy for soil tillage equipment considering soil parameter uncertainty”, Journal of Don State Technical University 'Vestnik of DSTU', vol. 16, no. 2, 2016. Kirsch U, “On singular topologies in optimum structural design”, Journal of Structural Optimization, vol. 2, pp. 133– 142, 1990. Knahr K., Pospischill M., “Revision strategies in total hip arthroplasty with regard to ceramic articulations”, European Musculoskeletal Review, vol. 2006, pp. 54– 55, 2006. Korkmaz H.H., “Evaluation of different miniplates in fixation of fractured human mandible with the finite element method”, Oral Surg Oral Med Oral Pathol Oral Radiol Endod., vol. 103, no. 6, pp. 1– 13, 2007. Kroon IB., Decision theory applied to structural engineering problems, PhD Thesis, Institute for Building Technology, Aalborg University, Denmark, 1994. Kumar S.T., Saraf S., Devi S.P., “Evaluation of bite force after open reduction and internal fixation using microplates”, Journal of Dentistry, Tehran University of Medical Sciences, vol. 10, no. 5, pp. 466– 477, 2013. Kuschel N., Rackwitz R., “To basic problems in reliability-based structural optimization”, Mathematical Methods of Operation Research, vol. 46, pp. 309– 333, 1997. Lambert S., Kharmanda G., Kadi N. et al., “ Integration of system reliability analysis for large-scale fatigue damage problems”, 2nd International Francophone Congress of Advanced Mechanics, Aleppo, Syria, 14– 16 May 2007. Lee S., Kwak B.M., “Smooth boundary topology optimization using B-spline and hole generation”, International Journal of CADCAM, vol. 7, pp. 10– 17, 2007. Lovald S.T., Wagner J.D., Baack B., “Biomechanical Optimization of Bone Plates Used in Rigid Fixation of Mandibular Fractures”, Journal of Oral and Maxillofacial Surgery, vol. 67, no. 5, pp. 973– 985, May 2009. Makrizi A., Radi B., “Optimisation Topologique d'une Structure Elastique via la Décomposition du Domaine”, African Journal of Mathematical Physics, vol. 5, pp. 7– 13, 2007. Mesnard M., Ramos A., Ballu A. et al., “Biomechanical analysis comparing natural and alloplastic temporomandibular joint replacement using a finite element model”, Journal of Oral and Maxillofacial Surgery, vol. 69, no. 4, pp. 1008– 1017, 2011. Michell A.G.M., “The limits of economy of material in frame structures”, Philosophical Magazine, vol. 8, no. 6, pp. 589– 597, 1904. Mlejnek H.P., Sigmund O., “Some aspects of the genesis of structures”, Structural Optimization, vol. 5, pp. 64– 69, 1992. Mohamed A., Kharmanda G., Lemaire M., “ Apport de la fiabilité dans l'optimisation des structures”, Journée AIP-PRIMECA, 31 January 2002. Mohsine A., Kharmanda G., El Hami A., “ Reliability-based design optimization using simplified model”, ESReDA-25, Paris, France, November 2003. Mohsine A., Kharmanda G., El-Hami A., “ Integration of equivalent model within reliability-based design optimization for reducing freedom degrees in dynamic structures”, 11th IFIP Conferences on Reliability and Optimization Systems, Canada, November 2003. Mohsine A., Kharmanda G., El Hami A., “ Improved hybrid method for reliability-based design optimization”, Proceedings of the 12th WG 7.5 Working Conference on Reliability and Optimization of Structural Systems, Aalborg, Denmark, pp. 59– 64, 22–25 May 2005. Mohsine A., Kharmanda G., El Hami A., “ Reliability-based design optimisation study using normal and lognormal distributions with applications to dynamic structures”, 9th International Conference on Structural Safety and Reliability, ICOSSAR05, Rome, Italy, pp. 3799– 3805, 19–23 June 2005. Mohsine A., Contribution à l'optimisation fiabiliste en dynamique des structures mécaniques, PhD Thesis, INSA Rouen, 21 February 2006. Mohsine A., Kharmanda G., El-Hami A., “Improved hybrid method as a robust tool for reliability-based design optimization”, Structural and Multidisciplinary Optimization, vol. 32, no. 3, pp. 203– 213, 2006. Mohsine A., Kharmanda G., El Hami A., “ Improved hybrid method for reliability based design optimization”, in D.M. Frangopol , J.D. Sorensen (eds), Advances in Reliability and Optimization of Structural Systems, Taylor & Francis, pp. 59– 64, 2006. Moses F., “Structural system reliability and optimization”, Computers & Structures, vol. 7, pp. 283– 290, 1977. Mozumder C.K., Renaud J.E., “ An investigation of reliability-based topology optimization”, 20th Aerospace and Mechanical Engineering Graduate Student Conference, Notre Dame, 19 October 2006. Nerkowski E., “Conception des prothèses articulaires: Méthode cinématique”, RBM-News, vol. 18, pp. 71– 77, 1996. Olhoff N., Rønholt E., Scheel J., “Topology optimization of three-dimensional structures using optimum microstructures”, Structural and Multidisciplinary Optimization, vol. 16, pp. 1– 18, 1998. Olhoff N., “ Comparative study of optimizing the topology of plate-like structures via plate theory and 3-D theory of elasticity”, in G.I.N. Rozvany , N. Olhoff (eds), Topology Optimization of Structures and Composite Continua, 2000. Patel N.M., Agarwal H., Tovar A. et al., “ Reliability based topology optimization using the hybrid cellular automaton method”, 1st AIAA Multidisciplinary Design Optimization Specialist Conference, Austin, Texas, 18– 21 April 2005. Prager W., Taylor J.E., “Problems of optimal structural design”, Journal of Applied Mechanics, vol. 35, pp. 102– 106, 1968. Prager W., “A note on discretized Michell structures”, Computer Methods in Applied Mechanics and Engineering, vol. 3, no. 3, pp. 349– 355, 1974. Proos K., Steven G., Swain M. et al., “Preliminary studies on the optimum shape of dental bridges”, Computer Methods in Biomechanics and Biomedical Engineering, vol. 4, pp. 77– 92, 2000. Ramos A., Marques H., Mesnard M., “The effect of mechanical properties of bone in the mandible, a numerical case study”, Advances in Biomechanics and Applications, vol. 1, no. 1, pp. 67– 76, 2014. Royset J.O., Der Kiureghian A., Polak E., “Reliability-based optimal design of series structural systems”, Journal of Engineering Mechanics, vol. 127, pp. 607– 614, 2001. Rozvany G.I.N., Optimal Design of Flexural Systems, Pergamon Press, Oxford, 1976. Rozvany G.I.N., Zhou M., “The COC algorithm, part I: cross-section optimization or sizing”, Computer Methods in Applied Mechanics and Engineering, vol. 89, pp. 281– 308, 1991. Rozvany G.I.N., “ Layout topology for grid-type structures”, in M.P. Bendsøe , C.C. Mota Soares (eds), Topology Design of Structures, Kluwer Academic Publishers, 1993. Rozvany G.I.N., “ Problem classes, solution strategies and unified terminology of FE-based topology optimization”, in G.I.N. Rozvany , N. Olhoff (eds), Topology Optimization of Structures and Composite Continua , Proc NATO ARW, Budapest 2000. Ruben R.B., Fernandes P.R., Folgado J., “On the optimal shape of hip implants”, Journal of Biomechanics, vol. 45, no. 2, pp. 239– 246, 10 January 2012. Schmit L.A., “ Structural design by systematic synthesis”, Proceedings of the Second ASCE Conference on Electronic Computation, Pittsburgh, Pennsylvania, pp. 105– 122, 1960. Senapati S.-K., Pal S., “UHMWPE–alumina ceramic composite: a proposed metal substitute for artificially replaced hip joint”, Journal of Institution of Engineers, India, vol. 85, pp. 157– 162, 2005. Shaik S.A., Bose K., Cherukuri H.P., “A study of durability of hip implants”, Materials & Design, vol. 42, pp. 230– 237, 2012. Shetty V., Mcbrearty D., Fourney M. et al., “Fracture line stability as a function of the internal fixation system: an in vitro comparison using a mandibular angle fracture model”, Journal of Oral and Maxillofacial Surgery, vol. 53, no. 7, pp. 791– 801, 1995. Sigmund O., “A 99 line topology optimization code written in Matlab”, Structural and Multidisciplinary Optimization, vol. 21, pp. 120– 127, 2001. Stevenson J.D., “ Reliability analysis and optimum design of structural systems with applications to rigid frames”, Division of Solid Mechanics and Structures, Case Western Reserve University, Cleveland, 1967. Svanberg K., “Optimization of geometry in truss design”, Computer Methods in Applied Mechanics and Engineering, vol. 28, pp. 63– 80, 1981. Tams J., Otten B., Vanloon J.P. et al., “A computer study of fracture mobility and strain on biodegradable plates used for fixation of mandibular fractures”, Journal of Oral and Maxillofacial Surgery, vol. 57, no. 8, pp. 973– 981, 1999. Tams J., Vanloon J.P., Otten B. et al., “A computer study of biodegradable plates for internal fixation of mandibular angle fractures”, Journal of Oral and Maxillofacial Surgery, vol. 59, no. 4, pp. 404– 407, 2001. Thoft-Christensen P., Baker M.B., Structural Reliability Theory and its Applications, Springer, Berlin, 1982. Tovar A., Patel N.M., Letona G.A. et al., “ Hybrid cellular automata: a biologically-inspired structural optimization technique”, Proceedings of the 10th AIAA/ISSMO Symposium on Multidisciplinary Analysis and Optimization, Albany, New York, 30 August–1 September 2004. Tsubota K., Adachi T., Tomita Y., “Functional adaptation of cancellous bone in human proximal femur predicted by trabecular surface remodeling simulation toward uniform stress state”, Journal of Biomechanics, vol. 35, pp. 1541– 1551, 2002. Tu J., Choi K.K., Park Y.H., “A new study on reliability-based design optimization”, Journal of Mechanical Design, vol. 121, no. 4, pp. 557– 564, 01 December 1999. Venkayya V.B., Khot N.S., Berke L., “ Application of optimality criteria approaches to automated design of large practical systems”, Symposium on Structural Optimization, Milan, Italy, 1973. Wang L., Grandhi R.V., “ System reliability analysis optimization with the use of higher-order approximations”, AIAA-96-4043-CP, pp. 579– 591, 1996. Wolff J., The Law of Bone Remodeling, Springer, Berlin Heidelberg, New York, 1986. Yang L., Ma Z.K., “Optimum design based on reliability for a composite structural system.” Computers and Structures, vol. 36, no. 5, pp. 785– 790, 1990. Yang L., Nikolaidis E., “Design of aircraft wings subject to gust loads: a safety index based approach”, AIAA Journal, vol. 29, pp. 804– 812, 1991. Yang R.J., Chuang C., Gu L. et al., “Experience with approximate reliability-based optimization methods II: an exhaust system problem”, Structural and Multidisciplinary Optimization, vol. 29, pp. 488– 497, 2005. Youn B.D., Choi K.K., Park Y.H., “Hybrid analysis method for reliability-based design optimization”, Journal of Mechanical Design ASME, vol. 125, no. 2, pp. 221– 32, 2003. Zhou M., Rozvany G.I.N., “The COC algorithm, part II: topological, geometry and generalized shape optimization”, Computer Methods in Applied Mechanics and Engineering, vol. 89, pp. 309– 336, 1991. Zienkiewicz O.C., Campbell J.S., “ Shape optimization and sequential linear programming”, in R.H. Gallagher , O.C. Zienkiewicz (eds), Optimum Structural Design, John Wiley & Sons, New York, 1973. Biomechanics: Optimization, Uncertainties and Reliability, Volume 5 ReferencesRelatedInformation" @default.
• W4211103788 created "2022-02-13" @default.
• W4211103788 date "2016-12-30" @default.
• W4211103788 modified "2023-09-27" @default.
• W4211103788 title "Bibliography" @default.
• W4211103788 cites W121860272 @default.
• W4211103788 cites W1261216704 @default.
• W4211103788 cites W1964343610 @default.
• W4211103788 cites W1972176634 @default.
• W4211103788 cites W1972475732 @default.
• W4211103788 cites W1975137278 @default.
• W4211103788 cites W1975465594 @default.
• W4211103788 cites W1977819622 @default.
• W4211103788 cites W1978016951 @default.
• W4211103788 cites W1979297787 @default.
• W4211103788 cites W1986513568 @default.
• W4211103788 cites W1987331033 @default.
• W4211103788 cites W1989683982 @default.
• W4211103788 cites W1990289039 @default.
• W4211103788 cites W1991892718 @default.
• W4211103788 cites W1992213116 @default.
• W4211103788 cites W1993016356 @default.
• W4211103788 cites W1993222156 @default.
• W4211103788 cites W1997033934 @default.
• W4211103788 cites W2003988774 @default.
• W4211103788 cites W2004411411 @default.
• W4211103788 cites W2004679400 @default.
• W4211103788 cites W2004945242 @default.
• W4211103788 cites W2005595061 @default.
• W4211103788 cites W2006249098 @default.
• W4211103788 cites W2010276483 @default.
• W4211103788 cites W2012478253 @default.
• W4211103788 cites W2014806854 @default.
• W4211103788 cites W2015606572 @default.
• W4211103788 cites W2017655467 @default.
• W4211103788 cites W2018039960 @default.
• W4211103788 cites W2026833164 @default.
• W4211103788 cites W2029342148 @default.
• W4211103788 cites W2029851764 @default.
• W4211103788 cites W2031005334 @default.
• W4211103788 cites W2034093859 @default.
• W4211103788 cites W2035493280 @default.
• W4211103788 cites W2037083820 @default.
• W4211103788 cites W2037897052 @default.
• W4211103788 cites W2041467918 @default.
• W4211103788 cites W2055196230 @default.
• W4211103788 cites W2055342876 @default.
• W4211103788 cites W2060756518 @default.
• W4211103788 cites W2060760684 @default.
• W4211103788 cites W2062434853 @default.
• W4211103788 cites W2064928643 @default.
• W4211103788 cites W2067218345 @default.
• W4211103788 cites W2069697210 @default.
• W4211103788 cites W2069780056 @default.
• W4211103788 cites W2070944661 @default.
• W4211103788 cites W2071873346 @default.
• W4211103788 cites W2073660427 @default.
• W4211103788 cites W2078468573 @default.
• W4211103788 cites W2079294419 @default.
• W4211103788 cites W2080710380 @default.
• W4211103788 cites W2080942196 @default.
• W4211103788 cites W2081020524 @default.
• W4211103788 cites W2090758996 @default.
• W4211103788 cites W2094521912 @default.
• W4211103788 cites W2095216523 @default.
• W4211103788 cites W2095453524 @default.
• W4211103788 cites W2100576885 @default.
• W4211103788 cites W2103212363 @default.
• W4211103788 cites W2115923827 @default.
• W4211103788 cites W2119814947 @default.
• W4211103788 cites W2123823854 @default.
• W4211103788 cites W2135606310 @default.
• W4211103788 cites W2137304008 @default.
• W4211103788 cites W2137726847 @default.
• W4211103788 cites W2142128101 @default.
• W4211103788 cites W21432690 @default.
• W4211103788 cites W2148346730 @default.
• W4211103788 cites W2161104607 @default.
• W4211103788 cites W2167940145 @default.
• W4211103788 cites W2330085732 @default.
• W4211103788 cites W2333412210 @default.
• W4211103788 cites W2337863816 @default.
• W4211103788 cites W2338003792 @default.
• W4211103788 cites W3004492923 @default.
• W4211103788 cites W361584896 @default.
• W4211103788 cites W4191462 @default.
• W4211103788 cites W4249681866 @default.
• W4211103788 cites W4379779317 @default.
• W4211103788 cites W640545677 @default.
• W4211103788 cites W83272788 @default.
• W4211103788 doi "https://doi.org/10.1002/9781119379126.biblio" @default.
• W4211103788 hasPublicationYear "2016" @default.
• W4211103788 type Work @default.
• W4211103788 citedByCount "0" @default.
• W4211103788 crossrefType "other" @default.
• W4211103788 hasBestOaLocation W42111037881 @default.
• W4211103788 hasConcept C41008148 @default.
• W4211103788 hasConceptScore W4211103788C41008148 @default.

• next