Tagged Questions

231 views

How can I get eigenvalues and eigenvectors fast and accurate?

I need to compute the eigenvalues and eigenvectors of a big matrix (about 1000*1000 or even more). Matlab works very fast but it does not guaranty accuracy. I need this to be pretty accurate (about ...
384 views

Find eigenvector of 3x3 matrix of known eigenvalue [closed]

I have written an implementation of the cubic formula allowing me to easily calculate eigenvalues for 3x3 matrices. I am now attempting to write an algorithm to calculate eigenvectors from these ...
352 views

Calculating eigenvalues of an infinite banded matrix using LAPACK

I'm new to C++ and am trying to figure out how to use LAPACK to find the eigenvalues of an infinite banded matrix (anharmonic oscillator problem). I know that I'm calculating the matrix correctly as ...
496 views

Copying upper MatrixXd to lower MatrixXd (Eigen3) C++ library

I've got a lower triangular MatrixXd and I want to copy its lower values to the upper side as it'll become a symmetric matrix. How can I do it? So far I've done: MatrixXd m(n,n); ..... //do ...
2k views

Mapping array back to an existing Eigen matrix

I want to map an array of double to an existing MatrixXd structure. So far I've managed to map the Eigen matrix to a simple array, but I can't find the way to do it back. void foo(MatrixXd matrix, ...
326 views

complex eigenvalues in opencv

Any way of computing in opencv the eigenvalues and eigenvectors of an asymmetric matrix?
855 views

How to calculate the eigenvector of a column stochastic matrix in C++

I have a column stochastic matrix A and want to solve the following equation in C++: Ax=x I am assuming that I need to find out an eigenvector x where eigenvalue is set to be 1(right?) but I ...
2k views

Finding eigenvectors of covariance matrix to create 3D bounding sphere

I'm currently in the process of writing a function to find an "exact" bounding-sphere for a set of points in 3D space. I think I have a decent understanding of the process so far, but I've gotten ...