On recursive calculation of the generalized inverse of a matrix

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On recursive calculation of the generalized inverse of a matrix

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ACM Transactions on Mathematical Software (TOMS) archive
Volume 17 , Issue 1 (March 1991) table of contents

Pages: 130 - 147

Year of Publication: 1991

ISSN:0098-3500

Authors

Saleem Mohideen	Hewlett-Packard, Cupertino, CA
Vladimir Cherkassky	Univ. of Minnesota, Minneapolis

Publisher

ACM New York, NY, USA

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Downloads (6 Weeks): 6, Downloads (12 Months): 79, Citation Count: 1

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abstract references cited by index terms review collaborative colleagues

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ABSTRACT

The generalized inverse of a matrix is an extension of the ordinary square matrix inverse which applies to any matrix (e.g., singular, rectangular). The generalized inverse has numerous important applications such as regression analysis, filtering, optimization and, more recently, linear associative memories. In this latter application known as Distributed Associative Memory, stimulus vectors are associated with response vectors and the result of many associations is spread over the entire memory matrix, which is calculated as the generalized inverse. Addition/deletion of new associations requires recalculation of the generalized inverse, which becomes computationally costly for large systems. A better solution is to calculate the generalized inverse recursively. The proposed algorithm is a modification of the well known algorithm due to Rust et al. [2], originally introduced for nonrecursive computation. We compare our algorithm with Greville's recursive algorithm and conclude that our algorithm provides better numerical stability at the expense of little extra computation time and additional storage.

REFERENCES

Note: OCR errors may be found in this Reference List extracted from the full text article. ACM has opted to expose the complete List rather than only correct and linked references.

	1	T. Kohonen, Self-organization and associative memory: 3rd edition, Springer-Verlag New York, Inc., New York, NY, 1989
	2	B. Rust , W. R. Burrus , C. Schneeberger, A simple algorithm for computing the generalized inverse of a matrix, Communications of the ACM, v.9 n.5, p.381-385, May 1966 [doi>10.1145/355592.365659]
	3	BEN-ISRAEL, A., AND GREVILLE, T. N. E. Generalized Inverses Theory and Applicatwns, Wiley, New York, 1974.
	4	FLETCHER, R. A technique for orthogonalization. J. Inst. Math. Appl. 5 (1969) 162-166.
	5	GOLUB, G., AND VAN LOAN, C. F. Matrix Computations, The Johns Hopkins University Press, 1983.
	6	ABDELMALEK, N. N. Roundoff error analysis for Gram-Schmidt methods and solution of linear least squares problem. BIT 11 (1971), 345-368.
	7	J. M. Char , V. Cherkassky , H. Wechsler , G. L. Zimmerman, Distributed and Fault-Tolerant Computation for Retrieval Tasks Using Distributed Associative Memories, IEEE Transactions on Computers, v.37 n.4, p.484-490, April 1988 [doi>10.1109/12.2196]
	8	Malathi Rio , Harry Wechsler, Fault-tolerant database using distributed associative memories, Information Sciences: an International Journal, v.53 n.1-2, p.135-158, 1991 [doi>10.1016/0020-0255(91)90061-X]

CITED BY

Miroslav Andrle , Laura Rebollo-Neira, Letter to the Editor: Experiments on orthogonalization by biorthogonal representations of orthogonal projectors, Journal of Computational and Applied Mathematics, v.205 n.1, p.545-551, August, 2007

INDEX TERMS

Primary Classification:
G. Mathematics of Computing
G.1 NUMERICAL ANALYSIS
G.1.3 Numerical Linear Algebra
Subjects: Matrix inversion

Additional Classification:
G. Mathematics of Computing
G.1 NUMERICAL ANALYSIS
G.1.3 Numerical Linear Algebra
Subjects: Linear systems (direct and iterative methods); Pseudoinverses**
G.4 MATHEMATICAL SOFTWARE
Subjects: Algorithm design and analysis

General Terms:
Algorithms, Performance, Theory

Keywords:
associative data retrieval, associative memory, recursive algorithm

REVIEW

"Mohamed E. El-Hawary : Reviewer"

The notion of a generalized (or pseudo) inverse of a matrix extends the idea of the inverse of an ordinary square (and nonsingular) matrix to any matrix. The conventional application areas include linear optimization as well as least squares e more...

Collaborative Colleagues:

Saleem Mohideen: colleagues

Vladimir Cherkassky: colleagues

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