decision problems that are at least as hard as NP-complete problems

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2
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0answers
17 views

Hardness of a maximum contiguous subarray sum for a sparse multi-dimensional array

Suppose we have a d-dimensional array A (d > 1) where each dimension has length n. The array is given in sparse notation as input, and the number of given non-zero elements is N. We want to find a ...
0
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0answers
12 views

What are the known NP-hardness or optimization results about spectrum of matrices? [on hold]

Like for symmetric $d-$regular matrices over 0/1 or 0/1/-1 what are some known optimization results about their possible spectral radius or spectral gap? [..I am calling a symmetric matrix to be ...
1
vote
1answer
45 views

NP HARD Problem Longest Path in Graph

I got stuck with this problem since the whole day. When we are finding the longest path in a graph we first do topological sorting and then check the path of adjacent vertices and keep upgrading ...
7
votes
4answers
195 views

Can finding a witness be NP-hard even if we already know there is one?

The common examples of NP-hard problems (clique, 3-SAT, vertex cover, etc.) are of the type where we don't know whether the answer is "yes" or "no" beforehand. Suppose that we have a problem in which ...
1
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0answers
36 views

Lower bounding the minimum equivalent graph

The transitive reduction $G^t = (V,E^t)$ of a graph $G=(V,E)$ is the smallest graph with the same reachability as $G$ with the property $E^t \subseteq V \times V$. The minimum equivalent graph $G' = ...
0
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0answers
32 views

Is the weighted transitive reduction problem NP-hard?

The transitive reduction problem is to find the graph with the smallest number of edges such that $G^t = (V,E^t)$ has the same reachability as $G=(V,E)$. When $E^t \subseteq E$ it is NP-complete. ...
3
votes
1answer
28 views

Pseudo polynominal time algorithm for Np-Complete Problems

For problems like knapsack there is pseudopolynominaltime algorithm and it is np-complete. So we reduce every other problem in np in polytime to knapsack. But why don't we have then a ...
4
votes
2answers
198 views

Richard Karp's 21 NP-Hard problems, the meaning of his research?

In Richard Karp's paper "Reducability among combinatorial problems" he lists 21 NP-Hard problems. Though I can somewhat understand the ideas and motivation behind the paper I am searching for some ...
0
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1answer
36 views

Not Hamiltonian is in NP Class? [duplicate]

I ask a question before, Questions on Graph and Hamiltonian, but i ask it here with different challenging contest. From this book and other study in complexity theory, I have seen the following ...
2
votes
1answer
80 views

Questions on Graph and Hamiltonian [closed]

From this book and other study in complexity theory, I have seen the following statement: The definition of NP is not symmetric with respect to yes-instances and no-instances. For example, it is ...
7
votes
1answer
136 views

Hardness of a constrained quadratic maximization

Consider the following quadratic maximization: \begin{align} \max_{\mathbf{x} \in \mathcal{X}} &\quad\mathbf{x}^{T}\mathbf{A}\mathbf{x} \end{align} with \begin{align} \mathcal{X} = \lbrace ...
1
vote
1answer
40 views

How can Weighted MaxSAT be in $FP^{NP}$ when dealing with large weights?

Weighted MaxSAT is in $\mathrm{FP^{NP}}$, see [1] Theorem 17.4, i.e. Weighted MaxSAT can be solved with at most a polynomial number of calls to a SAT oracle. The proof in [1] makes use of binary ...
0
votes
1answer
66 views

Is this problem P or NP?

Given a set of whole numbers $M=\{z_0, ..., z_n\}$ Are there $z_i$ and $z_j$ with $i \neq j$ but $z_i = z_j$? Is this Problem (surely or only probably) in $P$ or in $NP$? Is it $NP-hard$?
2
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0answers
44 views

What is the trick of “adding a huge number” for in the reduction from $\textsf{3-Partition}$?

Problem: To prove the $\textsf{NP-Completeness}$ of the problem of "Packing Squares (with different side length) into A Rectangle", $\textsf{3-Partition}$ is reduced to it, as shown in the following ...
2
votes
1answer
56 views

Reduction from a further constrained problem

If I find an NP Hard problem that is equivalent to my problem with an additional constraint or bound, can I still prove that my problem is NP Hard? Generally, this is probably not the case. For ...
1
vote
1answer
24 views

Hardness of 3SAT-k

According to these scribe notes (and a paper), 3SAT-5 is NP-hard. The problem is defined to be: given a 3SAT formula, each variable occurs in at most 5 clauses. It is also proven that 3SAT-4 is ...
2
votes
1answer
26 views

Does randomness makes exponential difference?

Schwartz–Zippel lemma can solve the polynomial identity testing in expected poly-time. As far as I know, there is no deterministic poly-time algorithm for the problem, but we do not know if the ...
1
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0answers
66 views

Is the multiset - subset sum problem variant not in NP?

If the input for a subset sum problem is a multiset (with repetitions) instead of a set (without repetitions), e.g. Set $a = ...
1
vote
1answer
31 views

Kth largest subset for small K

The $K$th Largest Subset problem is often given as an example of an NP-hard problem. However, the assumption is that $K$ is unconstrained, and can be as large as $2^n$. Clearly, if $K \le 3$ the ...
3
votes
1answer
25 views

What does $\Sigma^0_2$-hard and $\Pi^0_2$-hard for a TM's Acceptance Problem mean?

I'm reading about a Turing Machine $M$ and it says the problem of deciding whether M accepts a string is "$\Sigma^0_2$-hard and $\Pi^0_2$-hard". I haven't seen this kind of notation before and ...
1
vote
2answers
102 views

Maximum non-intersecting subset of circles

We are given a set of circles, stored by their center points in an array $A$. In particular, the center of the $i$th circle is at coordinates $(A[i].x, A[i].y)$. All the circles have radius of $k$. ...
1
vote
1answer
73 views

Shortest walk that covers $k$ nodes

I have the following problem, I would like to know an efficient algorithm to solve it. Suppose I have a weighted graph $G$ and a set of vertices $K$, I want to find a walk which starts at a vertex ...
3
votes
1answer
102 views

Reducing Exact Cover to Subset Sum

Show that the subset sum problem (Given a sequence of integers $S=i_1, i_2, \dots , i_n$ and an integer $k$, is there a subsequence of $S$ that sums to exactly $k$?) is NP-complete. Hint: Use ...
6
votes
2answers
88 views

Is $NP$ “minimal”, i.e. does $\Pi\notin NP$ imply $\Pi$ is $NP$-hard?

Suppose $\Pi$ is a decidable decision problem. Does $\Pi\not \in NP$ imply $\Pi$ is $NP$-Hard? Edit: if we assume there exists $\Pi\in coNP\setminus NP$ then we are done. Can we refute the claim ...
3
votes
2answers
60 views

Can someone provide a trivial example to the “reduction” procedure used to prove hardness? [duplicate]

I cannot comprehend how you can prove hardness between two NP complete problems. For example, let X be a NP hard problem, I want to prove Y is also NP hard. I can do this by reducing X to Y, if Y is ...
0
votes
1answer
58 views

Problem A is polynomially reducible to problem B…what can we say about A and B?

This is a question on a practice final. Problem A is polynomially reducible to problem B. Which of the following statements is correct? I. If problem A is solvable in a polynomial time then problem ...
7
votes
0answers
76 views

Is finding a weight-balanced tree NP-hard?

In the following, we are considering binary trees where only the leaves have weights. Let $T$ be a binary tree and $W(T)$ be the sum of its weighted leaves. Let $T.l$ and $T.r$ be the left child and ...
0
votes
1answer
25 views

Extended knapsack: is it NP-complete? [closed]

I have a problem of this form coming from an application domain, similar to the classical knapsack problem but not quite the same: Maximize the value of ($\sum_{i=1}^n v_i \cdot x_i) + B \cdot ...
3
votes
1answer
43 views

PARTITION with 0-sum assumption

The PARTITION problem: $\{\{x_1,...,x_n\}: \exists I\subseteq[n], \sum_{i\in I}x_i=\sum_{i\notin I}x_i\}$ is well known to be NP-complete. My question: does the partition problem remain ...
0
votes
3answers
77 views

Show that finding a minimum-weight subgraph that includes all marked nodes is NP-hard

We've been given a weighted graph with marked nodes. We want to make a minimum-weight subtree from this graph that contains all marked nodes. I want to show that this problem is NP-hard. Is there any ...
5
votes
0answers
71 views

NP-hardness of a special traveling salesman problem

Consider we have $n$ vertices, $v_1,\ldots,v_n$. We have two positive values $(a_i,b_i)$ associated with each $v_i$. The edge weight $w(v_iv_j)=a_ia_j+b_ib_j$. Is it NP-hard to solve the traveling ...
1
vote
2answers
62 views

Is the Weighted Maximum Coverage Problem with frequency weights NP-hard?

I want to prove the following case of Weighted Maximum Coverage problem with special weights is NP-hard. But I have no idea. So I am here seeking for help. The Weighted Maximum Coverage problem is ...
1
vote
1answer
94 views

Is the maximum coverage variant of Vertex Cover also NP-hard?

In Chapter 3 of "Approximation Algorithms for NP Hard Problems" edited by Prof. Dorit S. Hochbaum, there is such a sentence that "Maximum Coverage Problem is clearly NP-hard, as Set Cover is reducible ...
2
votes
1answer
52 views

Is ecological bin packing NP-hard?

The ACM Contest Problem 102 (HTML or PDF) can be paraphrased as: Given 3 bins each containing possibly different number of bottles of 3 colors, move the bottles so that there is one color per bin, ...
5
votes
3answers
177 views

Complexity of natural language processing problems [closed]

Which natural language processing problems are NP-Complete or NP-Hard? I've searched the natural-lang-processing and complexity-theory tags (and related complexity tags), but have not turned up any ...
8
votes
1answer
427 views

Are “Flow Free” puzzles NP-hard?

A "Flow Free" puzzle consists of a positive integer $n$ and a set of (unordered) pairs of distinct vertices in the $n \times n$ grid graph such that each vertex is in at most one pair. A solution to ...
-1
votes
1answer
113 views

how to improve solution generated by greedy method for 0-1 knapsack? [closed]

I am working on 0-1 knapsack using greedy method, I have some problem in it. It's already proved that solution generated by greedy method for 0-1 knapsack is may or may not be optimal. If solution ...
6
votes
1answer
337 views

Proving NP-hardness of strange graph partition problem

I am trying to show the following problem is NP-hard. Inputs: Integer $e$, and connected, undirected graph $G=(V,E)$, a vertex-weighted graph Output: Partition of $G$, $G_p=(V,E_p)$ obtained ...
1
vote
1answer
77 views

Proving NP hardness of maximum sum of means of a partition into k sets

I am trying to show the following problem is NP-hard and would like some help. Inputs: Integer $k$, and unordered set of $N$ numbers, $O$ Output: the $\max \sum\limits_{S_i \in S} ...
0
votes
2answers
84 views

NP-hard proof with reduction from two known NP-hard problems

As I understand, to show that a certain problem P is NP-hard we can reduce a known NP-hard problem, Q, to problem in P in polynomial time. To show that the problem P is NP-hard in strong sense, we can ...
3
votes
1answer
161 views

The buckets of water problem

Let's consider the following problem (buckets/pails of water problem) (This problem may be known with different name. If does, please correct me). Let $B=\{b_1,...,b_n\}$ be a set of $n$ buckets. ...
10
votes
2answers
209 views

Are regex crosswords NP-hard?

I was fooling around the other day on this website: http://regexcrossword.com/ and it got me wondering what the best way to solve it was. Can you solve the following problem in polynomial time or is ...
-1
votes
1answer
46 views

Relationship between an NP-hard problems with the subsets of them (part 2)? [duplicate]

I asked two questions about NP-hard problems here Relationship between an NP-hard problems with the subsets of them? and here Does this manner of proof for being NP-hard is true? but unfortunately ...
0
votes
1answer
96 views

NP-hardness proof, what is wrong with it?

My question is the following: If we have a problem divided into two versions, weighted and unweighted. Can we prove that the unweighted problem is NP-hard from the fact that the weighted problem is ...
6
votes
3answers
89 views

Is finding the smallest collection of subsets so that the number of elements among the subsets is <= the number of subsets NP-hard?

Given a collection of non-empty subsets of $\{1,2,\ldots,N\}$ ($N$ not fixed), the problem is to find the smallest non-empty collection of subsets so that the number of distinct elements appearing ...
4
votes
1answer
40 views

Probabilistic hardness of approximation or solution of NP-hard optimization problems under a probabilistic generative model for input data

So in biology (DNA sequences), sequence alignment is a generalization of longest common subsequence where an alignment of two sequences is scored typically with a linear function of how many spaces ...
5
votes
2answers
80 views

Exponential-size numbers in NP completeness reduction

In the proof of Theorem 4 in [GS'12], the authors reduce an instance of PARTITION to their problem. Therefore, they create for each element $a_i$ in the instance of PARTITION a number $2^{c \cdot ...
5
votes
1answer
99 views

How hard is this constrained $n$-rooks problem?

I asked this over on math.stackexchange.com, then I found out about this forum. Suppose you have an $(n\times n)$-chessboard, together with a constraining function $C : n \times n \to 2$ where ...
1
vote
1answer
84 views

Set cover problem with constant size subset

Consider a variation of the set cover problem in which the size of the subsets is no larger than a constant $k$. Is this variation still NP-hard?
2
votes
1answer
182 views

Monotone boolean satisfiability with at most k 1s is NP-Complete

I am to prove that monotone boolean formula satisfiability checking when at most k variables are set to 1 is an NP-Complete problem. Proving that it is in NP is easy, but I'm having difficulty ...