[go: up one dir, main page]

Wilson matrix is the following matrix having integers as elements:[1][2][3][4][5]

This is the coefficient matrix of the following system of linear equations considered in a paper by J. Morris published in 1946:[6]

Morris ascribes the source of the set of equations to one T. S. Wilson but no details about Wilson have been provided. The particular system of equations was used by Morris to illustrate the concept of ill-conditioned system of equations. The matrix has been used as an example and for test purposes in many research papers and books over the years. John Todd has referred to as “the notorious matrix W of T. S. Wilson”.[1]

Properties

edit
  1.   is a symmetric matrix.
  2.   is positive definite.
  3. The determinant of   is  .
  4. The inverse of   is  
  5. The characteristic polynomial of   is  .
  6. The eigenvalues of   are  .
  7. Since   is symmetric, the   norm condition number of   is  .
  8. The solution of the system of equations   is  .
  9. The Cholesky factorisation of   is   where  .
  10.   has the factorisation   where  .
  11.   has the factorisation   with   as the integer matrix[7]  .

Research problems spawned by Wilson matrix

edit

A consideration of the condition number of the Wilson matrix has spawned several interesting research problems relating to condition numbers of matrices in certain special classes of matrices having some or all the special features of the Wilson matrix. In particular, the following special classes of matrices have been studied:[1]

  1.   the set of   nonsingular, symmetric matrices with integer entries between 1 and 10.
  2.   the set of   positive definite, symmetric matrices with integer entries between 1 and 10.

An exhaustive computation of the condition numbers of the matrices in the above sets has yielded the following results:

  1. Among the elements of  , the maximum condition number is   and this maximum is attained by the matrix  .
  2. Among the elements of  , the maximum condition number is   and this maximum is attained by the matrix  .

References

edit
  1. ^ a b c Nick Higham (June 2021). "What Is the Wilson Matrix?". What Is the Wilson Matrix?. Retrieved 24 May 2022.
  2. ^ Nicholas J. Higham and Matthew C. Lettington (2022). "Optimizing and Factorizing the Wilson Matrix". The American Mathematical Monthly. 129 (5): 454–465. doi:10.1080/00029890.2022.2038006. S2CID 233322415. Retrieved 24 May 2022. (An eprint of the paper is available here)
  3. ^ Cleve Moler. "Reviving Wilson's Matrix". Cleve’s Corner: Cleve Moler on Mathematics and Computing. MathWorks. Retrieved 24 May 2022.
  4. ^ Carl Erik Froberg (1969). Introduction to Numerical Analysis (2 ed.). Reading, Mass.: Addison-Wesley.
  5. ^ Robert T Gregory and David L Karney (1978). A Collection of Matrices for Testing Computational Algorithms. Huntington, New York: Robert Krieger Publishing Company. p. 57.
  6. ^ J Morris (1946). "An escalator process for the solution of linear simultaneous equations". The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science. 37:265 (265): 106–120. doi:10.1080/14786444608561331. Retrieved 19 May 2022.
  7. ^ Nicholas J. Higham, Matthew C. Lettington, Karl Michael Schmidt (2021). "nteger matrix factorisations, superalgebras and the quadratic form obstruction". Linear Algebra and Its Applications. 622: 250–267. arXiv:2103.04149. doi:10.1016/j.laa.2021.03.028. S2CID 232146938.{{cite journal}}: CS1 maint: multiple names: authors list (link)