Questions tagged [approximation-algorithms]

Questions about approximation algorithms.

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1answer
91 views

Density of multiples

I have an infinite collection of positive integers $n_1,n_2,n_3,\ldots$ and I would like to find the density of the numbers divisible by one or more of these.* If the density does not exist, the ...
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1answer
222 views

Online/approximate weighted and capacitated bipartite matching

I wish to take a look at online/approximate weighted and capacitated bipartite matching problem. Consider $G=\{L\cup R, E\}$, $|L|=n_1$, $|R|=n_2$, $|E|=m$ and $E\subseteq L\times R$. For each $r_i\...
-1
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1answer
162 views

Given oracle for Max-3SAT compute clauses that cannot be satisfied

We know that Max-3SAT is NP-hard to compute exactly (and also hard to approximate to a particular constant multiplicative factor). However, suppose you are given an oracle for Max-3SAT that tells you ...
5
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2answers
189 views

Solution/Hardness of the following (integer) budgeted problem?

I have no idea how to solve the following INTEGER problem or prove its hardness. Thanks for any help/comment/open discussion! Assume there are $N$ startups. For each startup $i$, you can invest $x_i\...
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0answers
104 views

algorithms for a large submatrix / general factor / quasi-biclique problem?

Given a sparse 0/1 matrix $X$, too large to fit in memory, with $m$ rows and $n$ columns, I'm looking for an algorithm for finding a submatrix (when one exists) with maximum number of rows such that ...
2
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1answer
854 views

Partial cover approximation

We have a set of elements $E=\{e_1, e_2, \ldots, e_m\}$, and $n$ subsets of $E$: $S_1, S_2, \ldots, S_n$ The union of those subsets is $E$, and each subset $S_i$ has a non-negative weight $w_i$. The ...
3
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1answer
266 views

How can we bound the optimal solution of the dual bin packing when we solve the knapsack problem for each bin?

I have these two problems: Problem 1 (Dual bin packing problem) Instance: A set of $n$ items where each item $i$ has weight $w_i$. A set of $k$ bins where each bin has capacity $W$. Question: Find ...
2
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0answers
126 views

Weighted $l_1$ distance

So there are many well known algorithms for approximate nearest neighbor on the $\ell_1$ distance. My question is, what about the weighted version of the problem (where the weights are specified along ...
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0answers
101 views

Percolation probabilities

I have a finite undirected graph with a probability $p_e$ given for each edge $e$. This gives a random graph by removing each edge e with probability $1-p_e$ independently of the others. I'm ...
2
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1answer
804 views

Max-sum graph-partition for maximizing intra-edge weights?

I would like to know if the following problem has already been studied, and if so how is it called. In particular I'm interested in approximability results. Input: A graph G with negative or non-...
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0answers
184 views

Fast Approximation Algorithms for Covering Design

The covering design problem is as follows: We are given a universe $\mathcal{U}$ of size $n$. By $C(n,k,l)$ we denote the smallest cardinality of any set system $\mathcal{A} \subset 2^\mathcal{U}$ ...
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0answers
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About representability of optimization versions of NP-complete questions as polynomial optimization over the hypercube

Naively, in my very limited awareness, it feels that the Max-CUT is a very "special" NP-Hard problem because for a graph with edge-set $E$, it can be written as the question of trying to maximize a $n$...
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4answers
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Quantum approximation algorithms

It is generally considered unlikely that quantum computers will be able to solve NP-complete problems efficiently. In the classical case one approach to tackle such problems is to use approximation ...
5
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1answer
149 views

Does k-PATH admit a constant approximation?

In the $k$-PATH problem, we receive as input a graph $G$ and an integer $k$. The goal is to decide whether there exists a simple path of length $k$ in $G$. A $\alpha$-approximation for $k$-PATH is an ...
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1answer
1k views

Maximizing a monotone supermodular function s.t. cardinality

I've tried to comb the literature and seen a lot of references to results that almost but don't quite seem to address this. Question: Is it known to be true or is there a hardness result ...
2
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0answers
45 views

Stochastic optimization with erroneous oracles

I am interested in a class of optimization problems of which we know that the input variable is first subjected to noise $\xi$ before entering the data-producing process $f$. I write the objective in ...
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0answers
243 views

Maximizing the number of selected edges with opposing requirements

Consider the following problem: Input: a complete bipartite graph $G$ with its edges colored either white or black, a number $k$. Output: a subset of vertices $W$ of size $k$ which maximizes the ...
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0answers
116 views

L-reduction From Matrix-Tiling To Minimal Dominating Set in Unit Disk Graph

Recently I read this paper which was published in FOCS2007. In section 4, just before Theorem 4.2, the author mentioned that the gadget construction of Minimum Dominating Set in UDG is similar to ...
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0answers
127 views

Complexity of minimizing monotone arithmetical formulas

Let's say that I have a multi-variate arithmetical expression $A(x_1, \ldots, x_n)$ that uses addition and multiplication operations and is also in a very simple form of sums of products, e.g., $A_1(...
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0answers
362 views

Complexity of approximating the range of a matrix

Given an $m$ by $n$ matrix $M$ with $m \leq n$ and elements from $\{-1,1\}$, let us define: $$S_M = |\{Mx : x \in \{-1,1\}^n\}|.$$ I believe that it is NP-hard to compute $S_M$ exactly, by applying ...
3
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1answer
340 views

What is the reverse of greedy algorithm for setcover?

A common approach to approximating SETCOVER is the greedy algorithm (Algorithm 2.2 Vazirani). This algorithm greedily picks the most cost-effective subset at each iteration, removes covered elements, ...
3
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1answer
234 views

Which is the approximation class of Minimum 0-1 integer programming if only non-negative integers are allowed?

I'm wondering which is the approximation class of Minimum 0-1 Integer Programming if only non-negative integers are used. That is: minimize $c^T \cdot x$, with $x\in \{0,1\}^n$ and $c\in (\mathbb{Z}^...
3
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1answer
307 views

Approximation algorithms for the maximum $2$-independence set problem

I am interested in approximating the maximum $2$-independent set problem in arbitrary graphs. In a graph $G$ a set $I$ of vertices is called $2$-independent if the distance between any two distinct ...
11
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1answer
242 views

maximize MST(G[S]) over all induced subgraphs G[S] in a metric graph

Has this problem been studied before? Given a metric undirected graph G (edge lengths satisfy triangle inequality), find a set S of vertices such that MST(G[S]) is maximized, where MST(G[S]) is the ...
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9answers
3k views

Optimal greedy algorithms for NP-hard problems

Greed, for lack of a better word, is good. One of the first algorithmic paradigms taught in introductory algorithms course is the greedy approach. Greedy approach results in simple and intuitive ...
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1answer
221 views

Approximating the clique size of the graph

Let $G=(V,E)$ be a graph. For a given $\rho \leq |V|$ and $\epsilon$ with $(0<\epsilon<1)$, is there any sublinear query algorithm known/possible to decide if the graph has a clique of size $\...
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0answers
75 views

Distributing bags of apples equally

Assume you have $N$ bags of apples that you want to equally distribute to $K$ people. Each bag contains $n_i$ apples and you are not allowed to open and divide the bags; you must distribute the bags ...
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0answers
259 views

Linear Programing with Rounding for the Fire Station Problem

Consider the following fire station problem: The input is a positive integer k and a complete undirected graph $G = (V,E)$ with distances on the edges. The distances form a metric: $d(v, v) = 0$, $d(...
4
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1answer
262 views

The complexity of decomposing a bi-stochastic matrix

A bistochastic matrix $A$ is a matrix with positive entries in which each row/column sums to $1$. By the Birkhoff von-Neumann theorem $A$ is a convex combination of permutation matrices. Further, by ...
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0answers
33 views

On approx-preserving P- and A-reducibilities

Let $X$ and $Y$ be two NPO problems. Let $(f,g)$ be a reduction between $X$ and $Y$, in particular, assume that $(f,g)$ is both P-reduction and A-reduction, i.e., there exist two poly-time ...
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0answers
123 views

Maximize number of bins and minimize cost of elements chosen from a set

I am considering the following problem: there is a set of elements $S$ where each element is assigned to a bin $B$. The bins are disjoint and their union is $S$. There is also a cost function ...
2
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1answer
90 views

Approximations for the Stable Fixtures Problem

I have a set of N items, each with a subset of those items they can be paired with; each pair has a weight. I'd like to choose pairs to maximize the total weight, subject to each item being in at ...
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0answers
171 views

Statistical Algorithms vs Convex Relaxations - Planted Clique

I am trying to understand exactly what the lower bounds for the query complexity of statistical algorithms imply for convex relaxations for the planted clique problem ? A recent paper by Feldman, ...
4
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1answer
565 views

Constrained version of vertex cover in a bipartite graph

Let $G(V_1, V_2, E)$ be a bipartite graph such that degree of all the vertices in $V_1$ is bounded by some constant (say) $d$. Now, for given two positive integer $l$ and $k$, we wish to decide if ...
10
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2answers
300 views

The complexity of finding a Borsuk-Ulam point

The Borsuk-Ulam theorem says that for every continuous odd function $g$ from an n-sphere into Euclidean n-space, there is a point $x_0$ such that $g(x_0)=0$. Simmons and Su (2002) describe a method ...
4
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1answer
258 views

Are there any learning algorithms with any provable guarantees for manifold learning or manifold regularization?

First of all, I want to make clear that my question is about algorithms. I'd like to know if there are any algorithms with provable guarantees in the context of manifold learning (or manifold ...
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0answers
25 views

Which matrix of Q values is being used here?

This question refers to this paper: Using Free Energies to Represent Q-values in a Multiagent Reinforcement Learning Task In section 2.1, equations (5) and (6), I am wondering which Q values are ...
4
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1answer
90 views

Approximate matching in table of integer vectors

Disclaimer: This is my first question on cstheory.stackexchange.com so please be forgiving. I have a list of M (M is big, more than 1 million elements) vectors of integers. Each vector can contain 0-...
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0answers
49 views

Is there any exsiting research on this kind of “sorting with constraint” problem?

I have been interested in this kind of "sorting with constraint" problem: Given $n$ items $\{S_1 ,S_2 ,...S_n\}$ with corresponding weight $w_i ,i=1,2,...,n$, we want to sort these $n$ items (i.e. ...
2
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0answers
77 views

“conservative approximate Set Cover”?

We are given a lattice graph $L$, embedded on the plane, and a certain "shape" (a connected, acyclic subgraph $S$ of $L$). The task is to approximately cover $L$ with translated, rotated and flipped ...
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2answers
261 views

What are some of the most ingenious linear programs developed for tackling hard combinatorial problems?

What are some known ingenious linear programs that have been developed for tackling hard combinatorial optimization problems, especially any linear programs which had helped in getting good ...
2
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1answer
224 views

Evaluating the expected value of negatively correlated random variables

A polynomial random process satisfying the following properties converts a fractional point $(x_1, x_2, \ldots, x_n) \in \mathcal{P}$, $(x_i \in [0,1])$ to a random integer point $(X_1, X_2, \ldots, ...
8
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2answers
7k views

Top-k frequent items in data stream

Paper "HyperLogLog: the analysis of a near-optimal cardinality estimation algorithm" introduce an efficient algorithm which can help to estimate distinct items in large data set. I am thinking about ...
3
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0answers
118 views

An algorithm to compute sine and cosine within $n$-digit precision

I know CORDIC, but is there a better algorithm to compute $\sin x$ and $\cos x$ within specified $n$-digit accuracy?
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0answers
159 views

Difficult On Average Cases for 3MaxSAT and 3SAT Approximation Algorithm [closed]

1.Its known that a polynomial time approximation algorithm that satisfies 3MaxSAT in 7/8+e clauses implies P=NP. 2.Its also experimentally known that 3SAT has the most difficult known cases when the ...
12
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0answers
343 views

How good is greedy in average?

Given a family ${\cal F}\subset 2^E$ of (feasible solutions), the maximization problem on ${\cal F}$ is, for every weighting $x:E\to \{0,1,\ldots\}$ of ground elements, to compute the maximum weight ...
15
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2answers
1k views

What is known about this TSP variant?

This question was previously posted to Computer Science Stack Exchange here. Imagine you're a very successful travelling salesman with clients all over the country. To speed up shipping, you've ...
9
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3answers
896 views

Planted Clique in G(n,p), varying p

In the planted clique problem, one must recover a $k$-clique planted in an Erdos-Renyi random graph $G(n,p)$. This has mostly been looked at for $p=\frac{1}{2}$, in which case it is known to be ...
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0answers
148 views

3D Bin Packing with one bin with infinite/unknown size

Hi I'm looking for a variation of the Orthogonal 3D-BinPacking algorithm with only one bin of unknown size. I have a set $S$ of $n$ cuboids items $i_j$ with $j=1...n$. The dimensions of the items are ...
0
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1answer
140 views

What is the intuition behind “hardness of approximation”? [closed]

I am reading a paper about graph matching problem. Which is, to some extent, an optimization version of the graph isomorphism problem. To my surprise, some closely related NP-hard problems are quite ...

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