Akca., I., Gunther, T., Muller-Petke, M., Basokur, A. T., Yaramanci, U., 2014, Joint parameter estimation from magnetic resonance and vertical electric soundings using a multi-objective genetic algorithm: Geophysical Prospecting, 62, 364–376.
Barbosa, V. C. F., Silva, J. B. C., and Medeiros, W. E., 1997, Gravity inversion of basement relief using approximate equality constraints on depths: Geophysics, 62, 1745–1757.
Barbosa, V. C. F., Silva, J. B. C., and Medeiros, W. E., 1999, Gravity inversion of a discontinuous relief stabilized by weighted smoothness constraints on depth: Geophysics, 64(5), 1429-1437.
Blickle, T., and Thiele, L., 1996, A comparison of selection schemes used in evolutionary algorithms: Evolutionary Computation, 4(4), 361–394.
Coello, C. A. C., 1999, A comprehensive survey of evolutionary-based multi-objective optimization techniques: Knowledge and Information Systems, 1(3), 269-308.
Golub, G. H., Heath, M., and Wahba, G., 1979, Generalized cross validation as a method for choosing a good ridge parameter: Technometrics, 21, 215–23.
Hansen, P. C., 1992, Analysis of discrete ill-posed problems by means of the L-curve: SIAM Review.
Hubert, M. K. A., 1948, A line-integral method for computing the gravimetric effect of two-dimensional masses: Geophysics, 13, 215–222.
Lawrence, K. P., and Phillips, R. J., 2003, Gravity/topography admittance inversion on Venus using niching genetic algorithms: Geophys. Res. Lett., 30(19), 1994.
Le˜ao, J. W. D., Menezes, P. T. L., Beltr˜ao, J. F., and Silva, J. B. C., 1996, Gravity inversion of basement relief constrained by the knowledge of depth at isolated points: Geophysics, 61, 1702–1714.
Li, Y., and Oldenburg, D. W., 1999, 3D Inversion of DC resistivity data using an L-curve criterion: 69th Annual International Meeting., Society of Exploration Geophysicists, Expanded Abstracts, 251–254.
Miernik, K., Bogacz, A., Kozubal, A., Danek, T., and Wojdyla, M., 2016, Pareto joint inversion of 2D magnetotelluric and gravity data – towards practical applications: Acta Geophysica, 64(5), 1655–1672.
Miller, B. L., and Golberg, D. E, 1995, Genetic algorithms tournament selection and the effects of noise: Complex Systems, 9(3), 193-212.
Montesinos, F. G., Arnoso, J., and Vieira, R., 2005. Using a genetic algorithm for 3-D inversion of gravity data in Fuerteventura (Canary Islands): International Journal of Earth Sciences: 94, 301–316.
Morozov, V. A., 1966, On the solution of functional equations by the method of regularization: Soviet Mathematics Doklady, 7, 414–417.
Silva, J. B. C., Costa, D. C. L., and Barbosa, V. C. F., 2006, Gravity inversion of basement relief and estimation of density contrast variation with depth: Geophysics, 71, J51–J58.
Silverman, B. W., 1986, Density estimation for statistics and data analysis: Chapman and Hall.
Telford, W. M., Geldart, L. P., and Sheriff, R. E., 1990, Applied Geophysics: Cambridge University Press.
Talwani, M., Worzel, J. L., and Landisman, M., 1959, Rapid gravity computations for two-dimensional bodies with application to the Mendocino submarine fracture zone: J. . Geophys. Res., 64, 49-59.
Zhang, J., Wang, C., Shi, Y., Cai, Y., Chi, W., Dreger, D., Cheng, W., and Yuan, Y., 2004, Three-dimensional crustal structure in central Taiwan from gravity inversion with a parallel genetic algorithm: Geophysics, 69, 917–924, DOI:10.1190/1.1778235.
Zitzler, E., Laumanns, M., and Thiele, L., 2001, SPEA2: Improving the Strength Pareto Evolutionary Algorithm: TIK-Report, 103.
Zitzler, E., and Thiele, L., 1999, Multi-objective evolutionary algorithms: A comparative case study and the strength Pareto approach: IEEE Transactions on Evolutionary Computation, 3(4), 257–271.