YALL1-Group: A solver for group/joint sparse reconstruction

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Revision as of 12:34, 23 February 2012

YALL1-Group is a MATLAB software package for group/joint sparse reconstruction, written by Wei Deng, Wotao Yin and Yin Zhang at Rice University. Download

1 Introduction
2 Model
3 Syntax
4 Input Arguments
5 Output Arguments
6 Examples
7 Technical Report

Introduction

In the last few years, finding sparse solutions to underdetermined linear systems has become an active research topic, particularly in the area of compressive sensing, statistics and machine learning. Sparsity allows us to reconstruct high dimensional data with only a small number of samples. In order to further enhance the recoverability, recent studies propose to go beyond sparsity and take into account additional information about the underlying structure of the solutions.

In practice, a wide class of solutions are known to have group sparsity structure. Namely, the solution has a natural grouping of its components, and the components within a group are likely to be either all zeros or all nonzeros. Joint sparsity is an interesting special case of the group sparsity structure. Joint sparse solutions consist of multiple sparse solutions that share a common nonzero support. Encoding the group/joint sparsity structure can reduce the degrees of freedom in the solution, thereby leading to better recovery performance.

Model

$LaTeX: \ell_{2,1}$ -based minimizatoin is one of the approaches for group or joint sparse reconstruction.

YALL1-Group solves models (1) and (2), and its future versions will support extensions of (1) and (2).

(1) Group-sparse basis pursuit model with or without nonnegativity constraint:

                  Minimize        
                  subject to   
                                (optional)

where

$LaTeX: A\in \mathbb{R}^{m\times n}\,(m<n)$ ;
$LaTeX: b\in \mathbb{R}^m$ ;
$LaTeX: w_i\geq0$ is the weight for the $LaTeX: i$ -th group;
$LaTeX: g_i$ denotes the index set of the $LaTeX: i$ -th group;
the groups may overlap.

(2) Joint-sparse basis pursuit model with or without nonnegativity constraint:

                  Minimize     
                  subject to    or , for j=1,...,l
                                (optional)

where

the sensing matrix can be the same $LaTeX: A\in \mathbb{R}^{m\times n}\,(m<n)$ for each channel (column) of X, or can be different $LaTeX: A_j\in \mathbb{R}^{m\times n}\,(m<n)$ for each channel;
$LaTeX: B\in \mathbb{R}^{m\times l}$ ;
$LaTeX: x^i$ and $LaTeX: x_j$ denote the i-th row and j-th column of matrix $LaTeX: X$ , respectively;
$LaTeX: w_i\geq0$ is the weight for the $LaTeX: i$ -th row.

Syntax

[x,Out] = YALL1_group(A,b,groups,'param1',value1,'param2',value2,...);

Input Arguments

A: an m-by-n matrix with m < n, or a structure with the following fields:

1) A.times (required): a function handle for $LaTeX: A*x$ ;

2) A.trans (required): a function handle for $LaTeX: A^T*x$ ;

3) A.invIpAAt: a function handle for $LaTeX: (\beta_1I_m+\beta_2AA^T)^{-1}*x$ ;

4) A.invAAt: a function handle for $LaTeX: (AA^T)^{-1}*x$ .

Note: Field A.invIpAAt is only required when (a) primal solver is to be used, and b) A is non-orthonormal, and (c) exact linear system solving is to be performed. Field A.invAAt is only required when (a) dual solver is to be used, and b) A is non-orthonormal, and (c) exact linear system solving is to be performed.

b: an m-vector for the group-sparse model or an m-by-l matrix for the joint-sparse model.

groups: an n-vector containing the group number of the corresponding component of $LaTeX: x$ for the group-sparse model, or [] for the joint-sparse model.

Optional input arguments:

Parameter Name	Value	Description
'StopTolerance'	positive scalar	Stopping tolerance value.
'GrpWeights'	nonnegetive n-vector	Weights for the groups/rows.
'Nonnegative'	true or false	True for imposing nonnegativity constraints.
'nonorthA'	true or false	Specify if matrix A has non-orthonormal rows (true) or orthonormal rows (false).
'ExactLinSolve'	true or false	Specify if linear systems are to be solve exactly (true) or approximately by taking a gradient descent step (false).
'QuadPenaltyPar'	nonnegative 2-vector for primal solver or nonnegative scalar for dual solver	Penalty parameters.
'StepLength'	nonnegative 2-vector for primal solver or nonnegative scalar for dual solver	Step lengths for updating the multipliers.
'maxIter'	positive integer	Maximum number of iterations allowed.
'xInitial'	an n-vector for group-sparse model or an n-by-l matrix for joint-sparse model	An initial estimate of the solution.
'Solver'	1 or 2	Specify which solver to use: 1 for primal solver; 2 for dual solver.
'Continuation'	true or false	Specify if continuation on the penalty parameters is to be used (true) or not (false). The continuation scheme is as follows: multiply the penalty parameters by a factor $LaTeX: c\,(c\,>\,1)$ if $LaTeX: \\|R\\|_2 > \alpha\\|Rp\\|_2$ , where 0< $LaTeX: \alpha$ <1 is a parameter, $LaTeX: R$ and $LaTeX: Rp$ denote the constraint violations at the current and previous iterations, respectively. Continuation allows small initial penalty parameters for constraint violations, which lead to faster initial convergence, and it increases those parameters whenever the violation reduction slows down. It leads to overall speedups in most cases.
'ContParameter'	scalar between 0 and 1	The parameter $LaTeX: \alpha$ (0 < $LaTeX: \alpha$ <1) in the continuation scheme.
'ContFactor'	scalar greater than 1	The factor $LaTeX: c\,(c\,>\,1)$ in the continuation scheme.

Note: the parameter names are not case-sensitive.

Output Arguments

x: last iterate (hopefully an approximate solution).
Out: a structure with fields:
- Out.status—exit information;
- Out.iter—number of iterations taken;
- Out.cputime—solver CPU time.

Examples

Please see the demo files in the YALL1-Group package: demo_group.m, demo_joint.m and demo_nonnegative.m. Download

Technical Report

The description and theory of the YALL1-Group algorithm can be found in

Wei Deng, Wotao Yin, and Yin Zhang, Group Sparse Optimization by Alternating Direction Method. (TR11-06, Department of Computational and Applied Mathematics, Rice University, 2011)

Retrieved from "http://www.convexoptimization.com/wikimization/index.php/YALL1-Group:_A_solver_for_group/joint_sparse_reconstruction"

@@ Line 9: / Line 9: @@
 == Model ==
 <math>\ell_{2,1}</math>-based minimizatoin is one of the approaches for group or joint sparse reconstruction.
+*YALL1-Group solves models (1) and (2), and its future versions will support extensions of (1) and (2).
 (1) Group-sparse basis pursuit model with or without nonnegativity constraint:
@@ Line 16: / Line 17: @@
                                 <math>x\geq0</math> (optional)
-where <math>A\in \mathbb{R}^{m\times n}\,(m<n)</math>, <math>b\in \mathbb{R}^m</math>, <math>w_i\geq0</math> is the weight for the <math>i</math>-th group, <math>g_i</math> denotes the index set of the <math>i</math>-th group, and the groups may overlap.
+where
+*<math>A\in \mathbb{R}^{m\times n}\,(m<n)</math>;
+*<math>b\in \mathbb{R}^m</math>;
+*<math>w_i\geq0</math> is the weight for the <math>i</math>-th group;
+*<math>g_i</math> denotes the index set of the <math>i</math>-th group;
+*the groups may overlap.
 (2) Joint-sparse basis pursuit model with or without nonnegativity constraint:
                    Minimize     <math>\|X\|_{w,2,1}:=\sum_{i=1}^n w_i\|x^i\|_2</math>
-                   subject to   <math>AX=B\,</math>
+                   subject to   <math>AX=B\,</math> or <math>A_jx_j=b_j</math>, for j=1,...,l
                                 <math>X\geq0</math> (optional)
-where <math>A\in \mathbb{R}^{m\times n}\,(m<n)</math>, <math>B\in \mathbb{R}^{m\times l}</math>, <math>x^i</math> denotes the <math>i</math>-th row of matrix <math>X</math>, and <math>w_i\geq0</math> is the weight for the <math>i</math>-th row.
+where
+* the sensing matrix can be the same <math>A\in \mathbb{R}^{m\times n}\,(m<n)</math> for each channel (column) of X, or can be different <math>A_j\in \mathbb{R}^{m\times n}\,(m<n)</math> for each channel;
-*YALL1-Group solves models (1) and (2), and its future versions will support extensions of (1) and (2).
+* <math>B\in \mathbb{R}^{m\times l}</math>;
+* <math>x^i</math> and <math>x_j</math> denote the i-th row and j-th column of matrix <math>X</math>, respectively;
+* <math>w_i\geq0</math> is the weight for the <math>i</math>-th row.
 == Syntax ==

YALL1-Group: A solver for group/joint sparse reconstruction

From Wikimization

Revision as of 12:34, 23 February 2012

Contents

Introduction

Model

Syntax

Input Arguments

Output Arguments

Examples

Technical Report

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