[1] |
Ben-Israel, A., Linear equations and inequalities in finite dimensional, real or complex, vector spaces: a unified theory, J. Math. Anal. Appl., 12, 367-389 (1969) · Zbl 0174.31502 |
[2] |
Ben-Israel, A.; Greville, T. N.E., Generalized Matrix Inverses: Theory and Applications (1973), Wiley: Wiley New York |
[3] |
Berman, A.; Plemmons, R. J., Eight types of matrix monotonicity, Linear Algebra and Appl., 13, 115-123 (1976) · Zbl 0341.15013 |
[4] |
A. Berman and R.J. Plemmons, Nonnegative Matrices in the Mathematical Sciences; A. Berman and R.J. Plemmons, Nonnegative Matrices in the Mathematical Sciences · Zbl 0815.15016 |
[5] |
Collatz, L., Functional Analysis and Numerical Mathematics (1966), Academic: Academic New York · Zbl 0221.65088 |
[6] |
Campbell, S. L.; Meyer, C. D., Weak Drazin inverses, Linear Algebra and Appl., 20, 167-178 (1978) · Zbl 0379.15002 |
[7] |
Carlson, D., Generalizations of matrix monotonicity, Linear Algebra and Appl., 13, 125-132 (1976) · Zbl 0322.15012 |
[8] |
Drazin, M. P., Pseudo inverses in associative rings and semigroups, Amer. Math. Monthly, 65, 506-513 (1958) · Zbl 0083.02901 |
[9] |
Kaneko, K., Linear complementarity problems and characterizations of Minkowski matrices, Linear Algebra and Appl., 20, 111-129 (1978) · Zbl 0382.15011 |
[10] |
Kuo, I., The Moore-Penrose inverses of singular \(M\)-matrices, Linear Algebra and Appl., 17, 1-14 (1977) · Zbl 0361.15006 |
[11] |
Marchuk, G. I.; Kurznetzov, Y., Iterative Methods and Quadratic Functionals (1972), Science Press: Science Press Novosibirsk, (in Russian). |
[12] |
Meyer, C. D., The role of the group generalized inverse in the theory of finite Markov chains, SIAM Review, 17, 443-464 (1975) · Zbl 0313.60044 |
[13] |
Meyer, C. D.; Plemmons, R. J., Convergent powers of a matrix with applications to iterative methods for singular linear systems, SIAM J. Numer. Anal., 14, 699-705 (1977) · Zbl 0366.65017 |
[14] |
C.D. Meyer and M. Stadelmaier, Singular \(M\)Linear Algebra and Appl; C.D. Meyer and M. Stadelmaier, Singular \(M\)Linear Algebra and Appl · Zbl 0411.15006 |
[15] |
M. Neumann and R.J. Plemmons, Semiconvergent nonnegative matrices and iterative methods for singular linear systems, preprint.; M. Neumann and R.J. Plemmons, Semiconvergent nonnegative matrices and iterative methods for singular linear systems, preprint. · Zbl 0372.65014 |
[16] |
Ortega, J. M., Numerical Analysis: A Second Course (1972), Academic: Academic New York · Zbl 0248.65001 |
[17] |
Ostrowski, A., Über der Determinanten mit úberwiegender Hauptdiagonal, Comment. Math. Helv., 10, 69-96 (1937) · JFM 63.0035.01 |
[18] |
Plemmons, R. J., Regular splittings and the discrete Neumann problem, Numer. Math., 25, 153-161 (1976) · Zbl 0319.65028 |
[19] |
Plemmons, R. J., \(M\)-matrices leading to semi-convergent splittings, Linear Algebra and Appl., 15, 243-252 (1976) · Zbl 0358.15016 |
[20] |
Plemmons, R. J., \(M\)-matrix characterizations I: Nonsingular \(M\)-matrices, Linear Algebra and Appl., 18, 175-188 (1977) · Zbl 0359.15005 |
[21] |
U. Rothblum, An index classification of \(M\)Linear Algebra and Appl; U. Rothblum, An index classification of \(M\)Linear Algebra and Appl · Zbl 0402.15009 |
[22] |
J. Schróder, \(M SIAM Review \); J. Schróder, \(M SIAM Review \) |
[23] |
Seneta, E., Nonnegative Matrices: An Introduction to the Theory and Applications (1973), Wiley: Wiley New York · Zbl 0278.15011 |
[24] |
Varga, R. S., Matrix Iterative Analysis (1962), Prentice-Hall: Prentice-Hall Englewood Cliffs, New Jersey · Zbl 0133.08602 |