Generalized Inverses: Theory and Applications ... - Benisrael.net

More documents

Recommendations

Info

34 BIBLIOGRAPHYSympos. Math. Statist. and Prob., Vol. I, Univ.California Press, Berkeley, Calif., 1961, pp. 435–451.1093. , When are Gauss-Markov and least squaresestimators identical? A coordinate-free approach,Ann. Math. Statist 39 (1968), 70–75, (see [774]).1094. , The geometry of generalized inverses, J.Roy. Statist. Soc. Ser. B 37 (1975), 272–283, (correctionin J. Roy. Statist. Soc. Ser. B48(1986),258).1095. Jiao Xun Kuang, The representation and approximationof Drazin inverses of linear operators, Numer.Math. J. Chinese Univ. 4 (1982), no. 2, 97–106.1096. , Approximate methods for generalized inversesof operators in Banach spaces, J. Comput.Math. 11 (1993), no. 4, 323–328.1097. V. N. Kublanovskaya, On the calculation of generalizedinverses and projections (Russian), Z. Vycisl.Mat. i Mat. Fiz. 6 (1966), 326–332.1098. H. W. Kuhn (ed.), Proceedings Princeton Sympos.Math. Prog., Princeton, NJ, Princeton Univ. Press,1970.1099. S. H. Kulkarni and K. C. Sivakumar, Applicationsof generalized inverses to interval linear programsin Hilbert spaces, Numer. Funct. Anal. Optim. 16(1995), no. 7-8, 965–973.1100. , Explicit solutions of a special class of linearprogramming problems in Banach spaces, ActaSci. Math. (Szeged) 62 (1996), no. 3-4, 457–465.1101. P. Kunkel and V. Mehrmann, Generalized inversesof differential-algebraic operators, SIAM J. MatrixAnal. Appl. 17 (1996), no. 2, 426–442.1102. I Wen Kuo, The Moore-Penrose inverses of singularM-matrices, Linear Algebra and Appl. 17(1977), no. 1, 1–14.1103. M. C. Y. Kuo and L. F. Mazda, Mimimum energyproblems in Hilbert function space, J. Franklin Inst.283 (1967), 38–54.1104. S. Kurepa, Generalized inverse of an operator witha closed range, Glasnik Mat. 3 (1968), no. 23, 207–214.1105. B. Kutzler and V. Kokol-Voljc, Introduction to Derive5, Texas Instruments, Dallas, TX 75265, 2000.1106. Eldén. L., A weighted pseudoinverse, generalizedsingular values, and constrained least squares problems,BIT 22 (1983), 487–502.1107. C. D. LaBudde and G. R. Verma, On the computationof a generalized inverse of a matrix, Quart.Appl. Math. 27 (1969), 391–395.1108. B. F. Lamond, An efficient factorization for thegroup inverse, SIAM J. Algebraic Discrete Methods8 (1987), no. 4, 797–808.1109. , A generalized inverse method for asymptoticlinear programming, Math. Programming 43(1989), no. 1 (Ser. A), 71–86.1110. B. F. Lamond and M. L. Puterman, Generalized inversesin discrete time Markov decision processes,SIAM J. Matrix Anal. Appl. 10 (1989), no. 1, 118–134.1111. P. Lancaster, Explicit solutions of linear matrixequations, SIAM Rev. 12 (1970), 544–566.1112. , A fundamental theorem on lambdamatriceswith applications—I. ordinary differentialequations with constant coefficients, Linear Algebraand its Applications 18 (1977), 189–211.1113. , A fundamental theorem on lambdamatriceswith applications—II. difference equationswith constant coefficients, Linear Algebra and itsApplications 18 (1977), 213–222.1114. P. Lancaster and J. G. Rokne, Solutions of nonlinearoperator equations, SIAM Journal on MathematicalAnalysis 8 (1977), 448–457.1115. P. Lancaster and M. Tismenetsky, The Theory ofMatrices (Second Edition), Academic Press, SanDiego, 1985.1116. C. Lanczos, Linear systems in self–adjoint form,Amer. Math. Monthly 65 (1958), 665–679.1117. , Linear Differential Operators, D. Van Nostrand,Co., Princeton, 1961.1118. E. M. Landesman, Hilbert–space methods in ellipticpartial differential equations, Pacific J. Math. 21(1967), 113–131.1119. P. M. Lang, J. M. Brenchley, R. G. Nieves, andJ. H. Kalivas, Cyclic subspace regression, J. MultivariateAnal. 65 (1998), no. 1, 58–70.1120. C. E. Langenhop, On generalized inverses of matrices,SIAM J. Appl. Math. 15 (1967), 1239–1246.1121. , The Laurent expansion for a nearly singularmatrix, Linear Algebra and its Applications 4(1971), 329–340.1122. , On the invertibiliby of a nearly singularmatrix, Linear Algebra and its Applications 7(1973), 361–365.1123. L. J. Lardy, A series representation for the generalizedinverse of a closed linear operator, Atti Accad.Naz. Lincei Rend. Cl. Sci. Fis. Mat. Natur. (8) 58(1975), no. 2, 152–157.1124. , Some iterative methods for linear operatorequations with applications to generalized inverses,SIAM J. Appl. Math. 32 (1977), no. 3, 610–618.1125. W. E. Larimore, Order-recursive factorization ofthe pseudoinverse of a covariance matrix, IEEETrans. Automat. Control 35 (1990), no. 12, 1299–1303.1126. Ty A. Lasky and B. Ravani, Sensor-based pathplanning and motion control for a robotic systemfor roadway crack sealing, IEEE Transactions onControl Systems Technology 8 (2000), 609–622.1127. K. J. Latawiec, S. Bańka, and J. Tokarzewski, Controlzeros and nonminimum phase lti mimo systems,Annual Reviews in Control 24 (2000), no. 1,105–112.1128. P. -J. Laurent, Approximation et Optimisation.Collection Enseignement des Sciences, no. 13, Hermann,Paris, 1972.
BIBLIOGRAPHY 351129. , Quadratic convex analysis and splines,Methods of Functional Analysis in ApproximationTheory (Bombay, 1985), Birkhäuser, Basel, 1986,pp. 17–43.1130. K. B. Laursen and M. Mbekhta, Closed range multipliersand generalized inverses, Studia Math. 107(1993), no. 2, 127–135.1131. J. -L. Lavoie, A determinantal inequality involvingthe Moore-Penrose inverse, Linear Algebra and itsApplications 31 (1980), 77–80.1132. C. L. Lawson and R. J. Hanson, Solving LeastSquares Problems, Prentice-Hall Inc., EnglewoodCliffs, N.J., 1974, (reprinted, Classics in AppliedMathematics, 15. Society for Industrial andApplied Mathematics (SIAM), Philadelphia, PA,1995. xii+337 pp).1133. E. B. Leach, A note on inverse function theorems,Proc. Amer. Math. Soc. 12 (1961), 694–697.1134. , On a related function theorem, Proc.Amer. Math. Soc. 14 (1963), 687–689.1135. E. E. Leamer, Coordinate–free ridge regressionbounds, J. Amer. Statist. Assoc. 76 (1981), no. 376,842–849.1136. , Errors in variables in linear systems,Econometrica 55 (1987), no. 4, 893–909.1137. G. G. Lendaris, K. Mathia, and R. Saeks, LinearHopfield networks and constrained optimization,IEEE Transactions on Systems, Man, and Cybernetics,Part B: Cybernetics 29 (1999), 114–118.1138. G. -S. Leng and Y. Zhang, Vertex angles for simplices,Applied Mathematics Letters 12 (1999), 1–5.1139. A. H. Lent, Wiener–Hopf Operators and Factorizations,Doctoral dissertation in applied mathematics,Northwestern Univertsity, Evanston, IL, June1971.1140. A. S. Leonov, Approximate calculation of a pseudoinversematrix by means of the generalized residualprinciple, Zh. Vychisl. Mat. i Mat. Fiz. 25 (1985),no. 6, 933–935, 959.1141. , The method of a minimal pseudoinversematrix for solving ill-posed problems of linear algebra,Dokl. Akad. Nauk SSSR 285 (1985), no. 1,36–40, (English translation: Soviet Math. Dokl.32(1985), no. 3, 628–632).1142. , The method of a minimal pseudoinversematrix, Zh. Vychisl. Mat. i Mat. Fiz. 27 (1987),no. 8, 1123–1138, 1276.1143. , On the theory of the method of the minimalpseudo-inverse matrix, Dokl. Akad. Nauk SSSR314 (1990), no. 1, 89–93.1144. , The minimal pseudo-inverse matrixmethod: theory and numerical realization, Zh. Vychisl.Mat. i Mat. Fiz. 31 (1991), no. 10, 1427–1443.1145. , On the accuracy of the minimal pseudoinversematrix method, Mat. Zametki 49 (1991),no. 4, 81–87, 158.1146. , The method of minimal pseudoinversedmatrix. Basic statements, Ill-Posed Problems inNatural Sciences (Moscow, 1991), VSP, Utrecht,1992, pp. 57–62.1147. Ö. Leringe and P.-Å. Wedin, A comparison betweendifferent methods to compute a vector x which minimizes‖Ax − b‖ 2 when Gx = h, Department ofcomputer science, Lund University, Lund, Sweden,March 1970.1148. G. Lešnjak, Semigroups of EP linear transformations,Linear Algebra and its Applications 304(2000), no. 1-3, 109–118.1149. Y. Levin and A. Ben-Israel, Inverse-free methodsfor systems of nonlinear equations, RUTCOR–Rutgers Ctr. Oper. Res. 58-2000, Rutgers University,Piscataway, NJ, 2000.1150. , Directional Halley and quasi-Halley methodsin n variables, Inherently Parallel Algorithmsin Feasibility and Optimization and their Applications(Amsterdam) (D. Butnariu, Y. Censor, andS. Reich, eds.), Elsevier Science, 2001.1151. , Directional Newton methods in n variables,Mathematics of Computations (2001).1152. , A Newton method for systems of m equationsin n variables, Nonlinear Analysis 47 (2001),1961–1971.1153. , The Newton bracketing method for convexminimization, Computational Optimization andApplications 21 (2002), 213–229.1154. Y. Levin, M. Nediak, and A. Ben-Israel, A directapproach to calculus of variations via Newton-Raphson method, Comput. & Appl. Math. 139(2001), 197–213.1155. J. Levine and R. E. Hartwig, Applications of theDrazin inverse to the Hill cryptographic system. I,Cryptologia 4 (1980), no. 2, 71–85.1156. , Applications of the Drazin inverse to theHill cryptographic system. II, Cryptologia 4 (1980),no. 3, 150–168.1157. B. C. Levy, A note on the hyperbolic singular valuedecomposition, Linear Algebra and its Applications277 (1998), no. 1-3, 135–142.1158. A. S. Lewis, The convex analysis of unitarily invariantmatrix functions, J. Convex Anal. 2 (1995),no. 1-2, 173–183.1159. T. O. Lewis, T. L. Boullion, and P. L. Odell, A bibliographyon generalized matrix inverses, In Boullionand Odell [255], pp. 283–315.1160. T. O. Lewis and T. G. Newman, Pseudoinversesof positive semidefinite matrices, SIAM J. Appl.Math. 16 (1968), 701–703.1161. T. O. Lewis and P. L. Odell, A generalization of theGauss-Markov theorem, J. Amer. Statist. Assoc. 61(1966), 1063–1066.1162. Bin Li, Yinghui Li, and Xuegang Ying, Dynamicmodeling and simulation of flexible cable with largesag, Applied Mathematics and Mechanics (EnglishEdition) 21 (2000), 707–714.1163. Chi-Kwong Li and R. Mathias, Extremal characterizationsof the Schur complement and resulting
Page 1: Generalized Inverses: Theory and Ap
Page 4 and 5: 4 BIBLIOGRAPHY30. J. K. Amburgey, T
Page 6 and 7: 6 BIBLIOGRAPHY102. R. B. Bapat and
Page 8 and 9: 8 BIBLIOGRAPHYHypercube Multiproces
Page 10 and 11: 10 BIBLIOGRAPHY243. , On certain pr
Page 12 and 13: 12 BIBLIOGRAPHY308. , Linear system
Page 14 and 15: 14 BIBLIOGRAPHY379. Yong-Lin Chen a
Page 16 and 17: 16 BIBLIOGRAPHY451. D. L. Davis and
Page 18 and 19: 18 BIBLIOGRAPHY520. , Gauss-Markov
Page 20 and 21: 20 BIBLIOGRAPHY594. M. Ferrante and
Page 22 and 23: 22 BIBLIOGRAPHY664. A. J. Goldman a
Page 24 and 25: 24 BIBLIOGRAPHY735. R. Grone, C. R.
Page 26 and 27: 26 BIBLIOGRAPHY(Proc. Conf., Oberwo
Page 28 and 29: 28 BIBLIOGRAPHY884. M. R. Hestenes,
Page 30 and 31: 30 BIBLIOGRAPHY953. N. Jacobson, An
Page 32 and 33: 32 BIBLIOGRAPHYlinearized waveform
Page 36 and 37: 36 BIBLIOGRAPHYinequalities, SIAM R
Page 38 and 39: 38 BIBLIOGRAPHY1234. G. Marsaglia a
Page 40 and 41: 40 BIBLIOGRAPHY1301. , Minors of th
Page 42 and 43: 42 BIBLIOGRAPHY1372. , An alternati
Page 44 and 45: 44 BIBLIOGRAPHY1444. W. Oktaba, Tes
Page 46 and 47: 46 BIBLIOGRAPHY1517. S. Puntanen an
Page 48 and 49: 48 BIBLIOGRAPHY13 (1988), no. 1, 4-
Page 50 and 51: 50 BIBLIOGRAPHY1659. R. S. Schreibe
Page 52 and 53: 52 BIBLIOGRAPHY1733. A. G. Spera, R
Page 54 and 55: 54 BIBLIOGRAPHYlinéaires, C. R. Ac
Page 56 and 57: 56 BIBLIOGRAPHY1876. , The explicit
Page 58 and 59: 58 BIBLIOGRAPHY1944. Guorong Wang a
Page 60 and 61: 60 BIBLIOGRAPHY2014. Yimin Wei and
Page 62 and 63: 62 BIBLIOGRAPHY2085. Tsuneo Yoshika

Generalized Inverses: Theory and Applications ... - Benisrael.net

Create successful ePaper yourself

Delete template?

Save as template?