___

• D.A. Ratkowsy, Nonlinear regression modeling: a unified practical approach, M. Dekker, Newyork, 1983.
• J.C. Nash, M. Walker-Smith, Nonlinear Parameter Estimation, Marcel Dekker, Inc., New York, Basel (1987).
• G.A.F. Seber, C.J. Wild, Nonlinear regression, Wiley, 2005.
• L. Li, L. Wang, L. Liu, An effective hybrid PSOSA strategy for optimization and its application to parameter estimation, Applied Mathematics and Computation, 179 (2006) 135-146.
• J. Kennedy, R. Eberhart (1995). Particle swarm optimization, Proceedings of IEEE International Conference on Neural Networks, Vol. 4, pp. 1942–1948.
• R. Eberhart, J. Kennedy (1995). A New Optimizer Using Particle Swarm Theory, Proceedings of 6th International Symposium on Micro Machine and Human Science, Nagoya, Japan. IEEE Service Center Piscataway NJ,1995:39-43
• I. Krivy, J. Tvrdik, R. Krpec, Stochastic algorithms in nonlinear regression, Computational Statistics and Data Analysis, 33 (2000) 277-290.
• M. Kaptanoğlu, I.O. Koc, S. Erdogmus, Genetic algorithms in parameter estimation for nonlinear regression models: a experimental approach, Journal of Statistical Computation, 77(10) 2007, 851-867.
• J. Tvrdik, I. Krivy, L. Misık, Adaptive population-based search: application to estimation of nonlinear regression parameters, Computational Statistics and Data Analysis, 52 (2007) 713-724.
• B. Aşıkgil, A. Erar, Polynomial tapered two-stage least square method in nonlinear regression, Applied Mathematics and Computation, 219 (2013) 9743-9754.
• S. Das, A. Abraham, A. Konar, Particle Swarm Optimization and Differential Evolution Algorithms: Technical Analysis, Applications and Hybridization Perspectives, Studies in Computational Intelligence, 116 (2008) 1–38.
• Y. Fukuyama, Modern Heuristic Optimization Techniques, Edited by K.Y.Lee and M.A. El-Sharkawi, Institute of Electrical and Electronics Engineers, 71-83, 2008.
• R. Eberhart, Y. Shi (2001). Particle swarm optimization: developments, applications and resources, Proceedings of IEEE International Congress on Evolutionary Computation, 1, 81–86.
• Y. Shi and R. Eberhart, A modified particle swarm optimizer, Proceedings of IEEE International Conference on Evolutionary Computation, Anchorage, May 1998, 69–73.
• K.Y. Lee, M.A. El-Sharkawi, Modern Heuristic Optimization Techniques: Theory and Applications to Power Systems, IEEE press series on power engineering. Hoboken: Wiley Interscience; New Jersey, 2008.
• W.N. Lee, J.B. Park (2011) Educational Simulator for Particle Swarm Optimization and Economic Dispatch Applications, MATLAB - A Ubiquitous Tool for the Practical Engineer, Prof. Clara Ionescu (Ed.), ISBN: 978-953-307-907-3, InTech, DOI: 10.5772/19873.
• R.C. Eberhart, Y. Shi (2000), Comparing Inertia Weights and Constriction Factors in Particle Swarm Optimization, Proceedings of IEEE International Congress on Evolutionary Computation, 1, 84–88.
• C. Lanczos (1956), Applied Analysis. Englewood Cliffs, NJ: Prentice Hall, pp. 272-280.
• R.I. Jennrich, P.F. Sampson (1968), Application of stepwise regression to non-linear estimation, Technometrics, 10(1) 63-72.
• R.R. Meyer, P.M. Roth (1972), Modified damped least squares: an algorithm for non-linear estimation. J. Inst. Math. Appl, 9, 218-233.
• G.P. Box, W. G. Hunter, J. S. Hunter (1978), Statistics for Experimenters. New York, NY: Wiley, 483-487.
• J.S. Kowalik, M. R. Osborne (1978), Methods for Unconstrained Optimization Problems. New York, NY: Elsevier North-Holland.
• C. Daniel, F. S. Wood (1980), Fitting Equations to Data, Second Edition. New York, NY: John Wiley and Sons, pp. 428-431.
• W. Nelson (1981), Analysis of Performance-Degradation Data. IEEE Transactions on Reliability, 2 (2), 149-155.
• Kahaner, D., C. Moler, and S. Nash, (1989). Numerical Methods and Software. Englewood Cliffs, NJ: Prentice Hall, 441-445.
• J. Kennedy , "The Particle Swarm: Social Adaptation of Knowledge, Proc" , IEEE International Conference on Evolutionary Computation , pp.303 -308 , 1997
• Y. Shi and R. C. Eberhart, , "Empirical study of particle swarm optimization" , Proc. Congr. Evolutionary Computation , pp.1945 -1949 , 1999
• Y. Shi and R. Eberhart , "Fuzzy adaptive particle swarm optimization" , Proc. IEEE Congr. Evol. Comput. , vol. 1 , pp.101 -106 , 2001
• X. Hu , Y. Shi and R. Eberhart , "Recent advances in particle swarm" , Proc. IEEE Congr. Evol. Comput. , vol. 1 , pp.90 -97 , 2004
• Y. del Valle, G. Venayagamoorthy, S. Mohagheghi, J.-C. Hernandez and R. Harley , "Particle swarm optimization: Basic concepts, variants and applications in power systems" , IEEE Trans. Evol. Comput. , vol. 12 , no. 2 , pp.171 -195 , 2008
• C. A. C. Coello, G. T. Pulido, and M. S. Lechuga MS, , "Handling multiple objectives with particle swarm optimization" , IEEE Trans. Evol. Comput. , vol. 8 , no. 3 , pp.256 -279 , 2004
• Wang X, Yang J et al (2007) Feature selection based on rough sets and particle swarm optimization. Pattern Recogn Lett 28:459–471
• Jun Sun, Xiaojun Wu, Vasile Palade, Wei Fang, Yuhui Shi, Random drift particle swarm optimization algorithm: convergence analysis and parameter selection, Machine Learning, 101, 1-3, 345-376 (2015)