Questions tagged [matrices]

The tag has no usage guidance.

Filter by
Sorted by
Tagged with
16
votes
1answer
2k views

How to compute powers of square matrices?

Suppose we are given a matrix $A \in \mathbb R^{N\times N}$, and let $m \in \mathbb N_0$. How fast can we compute the power $A^m$ of that matrix? The next best thing in comparison to computing $m$-...
11
votes
1answer
381 views

Constructing vectors in general position

Let a real $k\times n$ ($k\le n$) matrix ${\bf A}$ with the property that any collection of $k$ columns is full rank. Q: Is there an efficient way to deterministically find a vector ${\bf a}$ such ...
2
votes
1answer
110 views

Finding mapping between two spatial representations of the same objects

I have two matrices $U$ and $V$. $U$ is $n \times n$ and $V$ is $n \times m$. (Both are empirical results of an experiment.) I would like to find a linear transformation $A$, $m \times n$, such that $...
4
votes
1answer
283 views

On planarity in two related graphs

Let $A$ be an $(n\times n)$-matrix with entries from $\{0,1\}$ and $B$ its biadjacency matrix $B = \begin{pmatrix} 0 & A\\ A^t & 0 \end{pmatrix}$. My simple question is: Is there a ...
12
votes
2answers
784 views

Complexity of Membership-Testing for finite abelian groups

Consider the following abelian-subgroup membership-testing problem. Inputs: A finite abelian group $G=\mathbb{Z}_{d_1}\times\mathbb{Z}_{d_1}\ldots\times\mathbb{Z}_{d_m}$ with arbitrary-...
7
votes
1answer
340 views

Complexity to calculate a full set of eigenvectors over a finite field

Let a full rank $n\times n$ matrix ${\bf A}$ with elements over $\mathbb{GF}(2)$. What is the worst case complexity to calculate $n$ linearly independent (over $\mathbb{GF}(2)$) vectors, such that ...
10
votes
1answer
562 views

Can such a matrix exist?

During my work i came up with the following problem: I am trying to find an $n \times n$ $(0,1)$-matrix $M$, for any $n > 3$, with the following properties: The determinant of $M$ is even. For ...
11
votes
0answers
1k views

Complexity of finding the leading eigenvector of a graph Laplacian

Let ${\bf L}$ be the $n\times n$ Laplacian of a graph. What is the worst case complexity for calculating the maximum eigeinvector of ${\bf L}$? Are there any families of Laplacians for which it takes ...
13
votes
1answer
326 views

Cases of nearly linear time solvable linear systems

Let a square $n\times n$ real matrix ${\bf A}$ and two vectors ${\bf x}$ and ${\bf b}$ of length $n$, such that $${\bf A}{\bf x}={\bf b}.$$ Solving for ${\bf x}$ through standard Gaussian Elimination ...
4
votes
0answers
559 views

Convergence of HITS Algorithm in the absence of Normalization

Kleinberg's HITS Algorithm (Authoritative sources in a hyperlinked environment) requires the hub (/authority) vector to be normalized after each step of the iteration $x(k+1) = A.x(k)$, in order to ...
9
votes
3answers
450 views

Linear programming solution in one pass with ordered variables

I have a family of linear programming problems: maximise $c' x$ subject to $A x\le b$, $x\ge0$. The elements of $A$, $b$, and $c$ are nonnegative integers, $c$ strictly positive. ($x$ should also ...
1
vote
0answers
149 views

Row/column overlay problem for filling in a matrix

I was wondering if the following problem has been studied/has a name: Given a matrix of numbers (may assume to be integers), find the smallest number of rules which define the matrix. Three kinds of ...
5
votes
2answers
2k views

Making an adjacency matrix positive semidefinite

I would like to ask how can we transform an adjacency matrix of a graph into a positive semidefinite matrix. Of course, we could set self loops, but I do not know of any result indicating how we can ...
10
votes
1answer
354 views

What is the largest gap between rank and approximate rank?

We know that the log of the rank of a 0-1 matrix is the lower bound of deterministic communication complexity, and the log of the approximate rank is the lower bound of randomized communication ...
2
votes
2answers
385 views

LU factorization of a 0-1 matrix

I have a rather naive question on LU factorization which probably should be easy to answer. Say I have a matrix with entries only from $\{0,1\}$. When can we expect to get an LU factorization of such ...
15
votes
2answers
4k views

What is the fastest algorithm to compute rank of a rectangular matrix?

Given an $m \times n$ matrix (assuming $m \ge n$), what is the fastest algorithm to compute its rank and basis of the columns? I am aware it can be solved through linear matroid intersection, which ...
9
votes
0answers
539 views

Finding SVD efficiently for $AB^T$

I have a low rank matrix given as $AB^T$ where $A,B \in \mathbb{R}^{n \times p}$ and $p \ll n$. (I know $A$ and $B$ separately) EDIT: (I have added the second question here since it was closed as a ...
4
votes
1answer
129 views

On the properties of a family of submatrices

Let $n$ and $k \le n/2$ be positive integers, and consider a family $\mathcal{F}$ of $k\times k$ sub-matrices of an $n\times n$ matrix such that every two elements of $\mathcal{F}$ intersect. What non-...
8
votes
1answer
289 views

Transitive closure of an affine relation

I am looking for work on computing the transitive closure of an affine relation in the following sense: Let $R(x_1,\dots,x_n,x'_1,\dots,x'_n)$ be the relation defined by a system of linear ...
20
votes
2answers
517 views

Explicit balanced matrix

Is it possible to build an explicit $N \times N$ $0/1$-matrix with $N^{1.5}$ ones such that every $N^{0.499} \times N^{0.499}$ submatrix contains less than $N^{0.501}$ ones? Or probably it is ...
9
votes
1answer
3k views

Complexity of Finding the Eigendecomposition of a *Symmetric* Matrix

This is a specialized version of a previous question: Complexity of Finding the Eigendecomposition of a Matrix . For NxN symmetric matrices, it is known that O(N^3) time suffices to compute the ...
0
votes
0answers
312 views

Sort sorted matrix [duplicate]

Possible Duplicate: What is a good special-case sorting algorithm? Is there any linear-time sorting algorithm for sorting elements of a sorted matrix (a matrix with all rows and columns sorted)?
40
votes
6answers
14k views

Complexity of Finding the Eigendecomposition of a Matrix

My question is simple: What is the worst-case running time of the best known algorithm for computing an eigendecomposition of an $n \times n$ matrix? Does eigendecomposition reduce to matrix ...
19
votes
2answers
1k views

Can we decide whether a permanent has a unique term?

Suppose we are given an n by n matrix, M, with integer entries. Can we decide in P whether there is a permutation $\sigma$ such that for all permutations $\pi\ne\sigma$ we have $\Pi M_{i\sigma(i)}\ne \...
20
votes
4answers
1k views

Positive topological ordering, take 3

Suppose we have an n by n matrix. Is it possible to reorder its rows and columns such that we get an upper-triangular matrix? This question is motivated by this problem: Positive topological ordering ...
24
votes
1answer
3k views

Space complexity of Coppersmith–Winograd algorithm

Coppersmith–Winograd algorithm is the asymptotically fastest known algorithm for multiplying two $n \times n$ square matrices. The running time of their algorithm is $O(n^{2.376})$ which is the best ...
18
votes
2answers
671 views

Lower bounds on Gaussian complexity

Define the Gaussian complexity of an $n \times n$ matrix to be the minimal number of elementary row and column operations required to bring the matrix into upper-triangular form. This is a quantity ...
25
votes
2answers
926 views

Approximating the sign rank of a matrix

The sign rank of a matrix A with +1,-1 entries is the least rank (over the reals) of a matrix B which has the same sign pattern as A (i.e., $A_{ij}B_{ij}>0$ for all $i,j$). This notion is important in ...

1 2
3