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Relate existence of common invariant subspace of $m$ matrices to reducibility of certain polynomial

Let's recall a linear algebra fact: Let $A$ be an $n\times n$ matrix over a field $K$ and $\chi_A(t)$ be its characteristic polynomial. Then if $\chi_A(t)$ is reducible, $A$ would have a proper ...
Xueqing Wen's user avatar
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99 views

Unimodular matrices fixing $(1, 1, \cdots, 1)$

What is known about the subgroup of $GL(n, \mathbb Z)$ fixing (under left multiplication) the vector ${(1, 1, \cdots, 1)}^T$ ('T' denotes transposition). I'm particularly interested in the case $n = 5$...
A. Gupta's user avatar
  • 376
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0 answers
67 views

The minimum number of polynomial equations the components of linearly dependent vectors must satisfy

Context: Consider $m<n$ vectors $v_1,\dotsc,v_m\in\mathbb{C}^n$ with complex components. We can study if they are linearly dependent by constructing the following matrices. First the $n\times m$ ...
FeedbackLooper's user avatar
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1 answer
563 views

Follow up: Show that these vectors are linearly independent almost surely

I posted this question some time ago here. I started a bounty for it and received an answer which helped me a lot. However, I still have some issues I want to discuss regarding it. Unfortunately I can'...
FeedbackLooper's user avatar
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149 views

L_q matrix inequality

The following arose out of studying $\ell_q$ Lewis weights. Let $P$ be a real $n \times n$ orthogonal projection matrix (i.e., $P$ is symmetric and $P^2 = P$) and let $W$ be the diagonal matrix ...
yangpliu's user avatar
  • 101
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0 answers
41 views

Iterative algorithm for obtaining similarity

Let $x_1,x_2,\ldots,x_M$ be $M$ non-negative variables. Moreover, assume that $f_m(x_m)=\frac{x_m}{1+\sum_{n}\beta_{n}^{(m)}x_n}$ be $M$ fractional functions with non-negative constants $\beta_{n}^{(m)...
Math_Y's user avatar
  • 287
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0 answers
202 views

Ratio of maximum to minimum value

Let $y = X \beta + \epsilon$, where $y \in R^{n}$, $X \in R^{n \times p}$, $\beta \in R^{p}$ and $\epsilon \in R^{n}$. Let $X = USV^\top$ be the SVD of the $X$. Let $u_i$ be the rows of $U$, then ...
newbie's user avatar
  • 61
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0 answers
114 views

Error bounds on the expansion of square root of matrix

I'm working on a problem and was lead to trying to find an approximation for the square root of a matrix. I came across a way of doing this using holomorphic functional calculus. However, my first ...
yoshi's user avatar
  • 427
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0 answers
93 views

Linear independence of Wishart matrices

Let $W\sim W_n(I,d)$ be a real Wishart matrix of an identity covariance matrix and $d$ degrees of freedom, i.e., $W=XX^T$ for $X$ being an $n\times d$ matrix whose entries are i.i.d sampled from a ...
user50394's user avatar
  • 123
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0 answers
190 views

Does the functional square root of the cosine admit a vector-based interpretation?

In linear algebra, the cosine of the angle between two vectors $a$ and $b$ is defined as $$\cos(a,b) = \frac{\langle a, b \rangle}{||a||\cdot||b||} .$$ The functional square root of the cosine has at ...
Max Lonysa Muller's user avatar
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0 answers
108 views

Solutions to matrix equations in the non-negative integers

For an integer matrix $S$, and an integer vector $y$, I'm looking for solutions to $xS = y$ where the entries in $x$ are in the non-negative integers. I've been doing this with Sage's mixed integer ...
JonHales's user avatar
  • 101
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0 answers
127 views

Maximizing a vector after a series of matrix multiplications

Problem Statement Let's say we have a set of $n\times n$ matrices $X=\{M_1,\ldots,M_r\}$ and weights of these matrices $\{w_1,\ldots,w_r\}$ along with a set of "initial vectors" $\{v_1,\...
exfret's user avatar
  • 509
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0 answers
70 views

Birkhoff's theorem for hypergraphs

Birkhoff's theorem says that, in a bipartite graph $G$ in which both sides have size $n$, any fractional matching of size $n$ can be presented as a convex combination of integral matchings of size $n$ ...
Erel Segal-Halevi's user avatar
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0 answers
61 views

Combining quadratic and linear matrix terms into a quadratic term

Given $$ C = AFA^T + A\bar{F} $$ where $A = [A_1 A_2]$, $F = \begin{bmatrix} F_1 & F_2 \\ F_2^T & F_3 \end{bmatrix}$, $\bar{F} = 2 \begin{bmatrix} \bar{F}_1 \\ \bar{F}_2 \end{bmatrix}$ such ...
P Emt's user avatar
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0 answers
45 views

Critical Growth of Dimension for Dense Cover by Linear Subspaces

Let $X$ be a separable Banach space of dimensional $>2$. When does there exist a sequence positive integers $\{N_n\}_{n \in \mathbb{n}}$ such that For any sequence of distinct finite-dimensional ...
ABIM's user avatar
  • 5,405
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0 answers
236 views

Eigenvectors of a matrix

Let $M$ be a square matrix of order $n\times d$. Let $\xi_{1},\dots,\xi_{n\times d}$ be an orthonormal basis of $\mathbb{R}^{n\times d}$ formed of eigenvectors of $M$. We have $$\xi_{i}=(\lambda_1, 0,...
yassine yassine's user avatar
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0 answers
166 views

Is the free algebra over an operad an algebra over that operad?

I'm asking here this question I asked on MSE that got no answers. Let $V$ be a dg-module and $P$ an operad. The free $P$-algebra on $V$ is defined by $P(V)=\bigoplus_{r=0}^\infty (P(r)\otimes V^{\...
Javi's user avatar
  • 519
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0 answers
54 views

Is there a method to find a vector that optimizes a Rayleigh quotient over a subspace?

Let $M\in\mathbb{C}^{n\times n}$ be an arbitary Hermitian matrix and let $E$ be a subspace of $\mathbb{C}^n$. Is there a method to find vectors $y,z\in E$ such that $$\dfrac{y^*My}{y^*y}=\sup_{x\in E\\...
Chilote's user avatar
  • 596
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0 answers
141 views

Stabilizers in the action of $\mathrm{GL}(n, \mathbb Z)$ on $\mathbb Z^n$

How can we calculate effectively the subgroups of $G: = \mathrm{GL}(n, \mathbb Z)$ which fix pointwise a given submodule $S$ of $\mathbb Z^n$ in the action of $G$ on $\mathbb Z^n$ by left ...
A. Gupta's user avatar
  • 376
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0 answers
86 views

Eigenvalue inequality

Let $g(\boldsymbol{\theta},\boldsymbol{\theta_0}) = trace [ \boldsymbol{\Omega{(\boldsymbol{\theta})}}^{-1} \boldsymbol{\Omega{(\boldsymbol{\theta_0})}}]-ln[det(\boldsymbol{\Omega{(\boldsymbol{\theta}...
user0735's user avatar
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0 answers
149 views

Upper-triangular matrices as union of centralizers of cyclic elements

Let $p$ be a prime number and $G=GL_n ( \mathbb{Z} / p \mathbb{Z} )$ such that $n\leq p$. Consider the set $U$ of upper-triangular matrices of $G$ having entries of $1$ on the diagonal. The ...
Nourddine Snanou's user avatar
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0 answers
30 views

Signs of difference matrices (sum of submatrices)

Given matrix $A \in \mathbb{R}^{m \times n}$, are there any results related to its difference array $$A^* \triangleq \left[sign(a_{i,j} + a_{r, s} - a_{r, j} - a_{i, s})\right]_{i<r, j<s}?$$ Or ...
Pascalprimer's user avatar
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0 answers
45 views

On full rank submatrices of a construction

Take two matrices $T_1$ and $T_2$ in $\mathbb Z^{n\times n}$ with entries uniformly in $[-b,b]\cap\mathbb Z$ at some $b>0$. The matrices will be of rank $n$ each with probability at least $1-\frac1{...
VS.'s user avatar
  • 1,836
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0 answers
91 views

Image of Frobenius element under irreducible representation is diagonalizable

Let $K/ \mathbb Q$ be a Galois extension, and $\rho$ be an irreducible representation of the Galois group $Gal(K/ \mathbb Q)$. Consider an integer prime $p$ which doesn't ramify in $K$, and let $\...
asrxiiviii's user avatar
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0 answers
159 views

How to solve a non-local self-consistent equation

I have been struggling lately with solving numerically an equation of the form: $$ g(x\pm x_{0}) = F[ g(x) ] $$ where $g(x)$ is a matrix satisfying the condition $g(x\to\pm\infty)=0$. My question is ...
Zarathustra's user avatar
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47 views

"Probability" for a partitioned matrix to be singular

Let $A,B\in\mathbb{R}^{n\times n}$ be two nonsingular matrices with $A\ne B$, and consider the following partitioned matrix $$ M:=\begin{bmatrix}AA^\top + BB^\top & A^\top \Delta_1 A + B^\top \...
Ludwig's user avatar
  • 2,712
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0 answers
101 views

Find occurrences of certain matrix inside a matrix

This problem occurred from my need to find all graphs with a certain topology inside a bigger one. I don't need the subgraphs but the graphs that have the exact topology I am searching. We know for ...
leo_bouts's user avatar
  • 101
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0 answers
132 views

How can GL(n) acts on the determinant polynomial?

I'm reading Landsberg's paper, which provide an introduction to geometric complexity theory. At chapter 2 of this paper, the author defined the following objects: Let $W = \mathbb {C}^{n^2}$, $det_n \...
Yi_Feng's user avatar
  • 47
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0 answers
50 views

Generalized eigenvectors product

Let's consider a real square matrix $A$ with eigenvalues $\lambda_n$ and eigenvectors $\mathbb x_n$, i.e. $A \mathbb x_n = \lambda_n \mathbb x_n$. Suppose there are some generalized eigenvectors $\...
Lo Scrondo's user avatar
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0 answers
50 views

restriction of a formula with matrix inverse multiplied by a vector

I'm trying to reproduce a proof from this paper but I'm stuck in one point (Lemma 6). The general subject is bayesian model for multi-armed bandit problem solved with Thompson sampling. I think I ...
Martyna's user avatar
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0 answers
33 views

Find a complex matrix on a unit sub-spheres

I am new to optimization theory. I have a following question. For a given $X = [x_1 x_2 \ldots x_N] \in \mathbb{C}^{N \times N}$, where $x_i \in \mathbb{C}^{N\times 1}$ for $i \in \{1,\ldots,N\}$, $U =...
OptimusPrime's user avatar
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0 answers
132 views

Upper bound on the condition number of the product of a random sparse matrix and a semi-orthogonal matrix

Let $G \in \mathbb{R}^{n \times m}$ (m > n, m = O(n)) whose all entries are i.i.d. distributed as $\mathcal{N}(0, 1) * \text{Ber}(p)$. Let $V \in \mathbb{R}^{m \times n}$ be a fixed semi-orthogonal ...
nikhil_vyas's user avatar
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0 answers
144 views

A Riemannian manifold with a non-degenerate metric and an inner product $u_{\beta} u^{\beta}=1$

The question is: given a Riemannian manifold with a non-degenerate metric g and an inner product $u_{\beta}u^{\beta}=1$, is $\nabla_{\mu} (u_{\alpha}u_{\beta})=0$ without demanding the trivial ...
Kolten's user avatar
  • 9
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0 answers
81 views

Constructing set with maximal independent subset

What is the minimal $m$ such that there exists a set $A = \{a_1,...a_n\}$ of vectors : $a_i \in \{0,1\}^m$ ($n$ is given) such that every subset of vectors of size $k$ is independent, but only with ...
SomeoneHAHA's user avatar
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0 answers
59 views

A system of inequalities involving a skew-symmetric integer matrix

Which skew-symmetric integer matrices $S$ satisfy the following inequalities $SV_i \ne z_iE_i$ for all $i = 1,\cdots, n$ where $V_i$ denotes the column with integer entries such that the $i$-th ...
A. Gupta's user avatar
  • 376
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0 answers
41 views

Orthogonality condition of symmetric matrix pencil

Let $P(\lambda)=\lambda M−L\in \mathbb{R}^{n \times n}$ be a matrix pencil with symmetric nonsingular matrix $M$ and $L$ is a weighted Laplacian matrix of a connected graph. Clearly $(0,1_n)$ is an ...
Saheb's user avatar
  • 21
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0 answers
84 views

A permutation statistic and determinantal identity

I'm trying to read this paper, Total positivity, Grassmannians and networks by Postnikov (https://arxiv.org/abs/math/0609764) and I'm stuck on Lemma 5.1, which is essentially an identity about maximal ...
lfy's user avatar
  • 1
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0 answers
136 views

Finding a specific solution to $X^T\Sigma X = D$

I'm looking to solve for a specific $X$ in the following equation: $$X^T\Sigma X = D,$$ where $\Sigma \succ 0$, $D$ is a diagonal matrix with strictly positive entries, and all matrices are square. It ...
Allen94's user avatar
  • 41
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0 answers
99 views

Link between eigenvalues of a symmetric matrix and a functional space

Let $f_1,\dots,f_n \in L^2(\mathbb{R},\mathbb{R})$ be $n$ mutually orthogonal functions with $\int f^2_i =1$ such that $|\{x \in \mathbb{R} | f_i(x) = 0\}| = 0$ for any $i \in \{1, \dots,n\}$. Does ...
Alfred's user avatar
  • 31
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0 answers
179 views

Not unique eigenvalues in singular value decomposition

I have the following problem: I have a matrix $M\in \mathbb{R}^{3\times 3}$ and I consider two SVD's $U_1DV_1^T$ and $U_2DV_2^T$ of $M$ with $D = \mathrm{diag}(\lambda_1,\lambda_1,\lambda_2)$. ...
Palpatine2357's user avatar
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0 answers
94 views

Neat expresion for an anti-symmetric matrix

Fix a column vector $\pmb{v}$ and consider the cross product $\pmb{v}^T\times\pmb{x}^T$ for any column vector $\pmb{x}\in\mathbb{R}^3$. One can write $$\pmb{v}^T\times\pmb{x}^T=A(\pmb{v})\pmb{x}$$ for ...
T. Amdeberhan's user avatar
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0 answers
287 views

Complexity of pseudo-inverse of random matrix

Assume that $\mathbf{A}_{M\times N}$ is a sparse complex matrix. Then, what is the complexity of computation of its pseudo inverse, i.e., $$\mathbf{A}^{\mathrm{H}}(\mathbf{A}\mathbf{A}^{\mathrm{H}})^{-...
Math_Y's user avatar
  • 287
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0 answers
84 views

Relation between two matrices associated with a positive definite function

Let $f:\mathbb{R}^N \to \mathbb{R}$ be a positive definite function. Let $$g(h) = \int_{\mathbb{R}^N}f(x)f(h-x)\mathrm{d}x$$ Due to Bochner's and Parseval's theorems, $g$ is also a positive definite ...
Rajesh D's user avatar
  • 698
0 votes
1 answer
126 views

Tauberian operators

Let $X$ be a Banach space non reflexive and $T$ from $l_2(X)$ to $l_2(X)$ a bounded operator defined by: $$T(x_n )=\frac{x_n }{n}.$$ We know that : $$T^{**-1}(l_2(X))=\{x_n^{**} \in l_2(X^{**}) : \...
mahamed-beghdadi's user avatar
0 votes
0 answers
255 views

Span of a nonlinear function

Fix vectors $x,y\in\mathbb{R}^d$ and a smooth function $\phi:\mathbb{R}\rightarrow \mathbb{R}$. Define $\phi^d: \mathbb{R}^d \rightarrow \mathbb{R}^d$ as applying $\phi$ entrywise (i.e. $\phi^d(x_1, ...
ecstasyofgold's user avatar
0 votes
0 answers
353 views

Spectral norm of difference of quadratic matrices restricted to a subspace

Say that we have two matrices $X$ and $Y$ of dimensions $(T \times N)$ with $N < T$ and $rank(X)=rank(Y)=N$. Furthermore, define a $(T \times k)$ dimensional matrix $D$ with $k<N$ and $rank(D)=k$...
E_Wijler's user avatar
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0 answers
96 views

Eigenvalues of the matrix obtained by letting some of the rows vanish, hoping for some inequality

Let $A$ be an $n \times n$ matrix. Let $A_k$ be the matrix obtained by keeping the first $k$ rows of $A$ fixed and substituting $0$ for the rows $k+1$ to $n$. To be precise, we write $A= [R_1...R_k, ...
Learning math's user avatar
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0 answers
400 views

Comparison of two similarity matrices

English is not my first language, so please excuse any mistakes. I'm working with two similarity matrices on the same data set: Suppose I have $n$ items, and I calculated the similarity of each item ...
Catasaur's user avatar
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0 answers
83 views

Nullity of infinite matrix in row echelon form

For an $m \times n$ matrix $A$ in row echelon form, $\mathrm{nullity} (A)$ is equal to the number of columns that do not contain a pivot. Is this also true for an infinite matrix in row echelon form ...
user3433489's user avatar
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0 answers
67 views

Singular values and the chromatic number

What relation, if any, is there between the singular values of the adjacency matrix ( or possibly incidence matrix) of a simple graph and its chromatic number. Typically, do we have Hoffmann type, or ...
vidyarthi's user avatar
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