Questions tagged [np-hard]
decision problems that are at least as hard as NP-complete problems
489
questions
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1answer
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How Reduction works in proving NP-Hard?
A problem $X$ is $NP$-Hard if for all $Y \in NP$, $Y \leq_P X$. Further, if a problem $Z$ is $NP$-Complete, and $Z \leq_P X$, then I can prove (rather mechanically) that $X$ is $NP$-Hard.
I also ...
-4
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0answers
35 views
NP problem algorithm that can solve more than normal algorithms why not exists, we move slow in solutions why? [closed]
assume that all algorithms can find optimum in problem like travel selesman problem for 25 cities which mean 25! possibility in polynomial time with using power of supercomputer
then if there ...
2
votes
1answer
72 views
Verifying Hamiltonian Cycle solution in O(n^2), n is the length of the encoding of G
In the textbook of CLRS, 'ch. 34.2 Polynomial-time verification' it says the following:
Suppose that a friend tells you that a given
graph G is hamiltonian, and then offers to prove it by giving ...
1
vote
1answer
50 views
SImple NP-hard proof question
$3SATplus$
Input: 2 CNF formulas $F_1$, $F_2$ where all clauses have exactly $3$ literals.
Question: Does every truth assignment satisfy at-least as many $F_2$ clauses as $F_1$'s?
Assume ...
1
vote
1answer
24 views
Dubins TSP NP-hardness proof detail
In Le Ny et al.'s paper On the Dubins Traveling Salesman Problem (https://tinyurl.com/y59f7d8x) the authors prove, among other works, that the Dubins Traveling Salesman Problem (DTSP) is NP-hard. I ...
0
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1answer
33 views
weighted-clique to vertex cover reduction
WEIGHTED-CLIQUE
input: a undirected graph G that has weighted edges and 2 natural numbers a, b
question: does G have a clique of size a with total weight of b?
I want to prove that this ...
0
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0answers
16 views
How to determine the complexity of a mixed strategy NASH equilibrium problem
How to determine a complete-information mixed strategy NASH equilibrium problem with finite numbers of players and strategies? That is, there exists a payoff matrix which shows all the relation among ...
4
votes
1answer
102 views
P vs. NP and Godel's Theorems
This post is based loosely on a previous post, but the presentation is somewhat different and hopefully much more succinct.
Basically, I'm wondering if it is plausible for there to be a formal proof ...
0
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1answer
43 views
How to prove the optimization version problem (whose decision version is NP-complete) can be solved in poly-time iff P=NP?
I have proved the decision version of my problem be $\mathcal{NP}$-complete. And I know that if I can solve the optimization version in poly-time, then I can just to compare the obtained minimum (or ...
4
votes
1answer
38 views
NP-hardness even with perturbations
Consider the following problem, which can be called "2-SET-PARTITION":
Given two sets of positive numbers, $a_1,\ldots,a_n$ and $b_1,\ldots,b_n$, where $\sum_{i\in[n]}a_i = \sum_{i\in[n]}b_i = 2 S$,...
7
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3answers
152 views
Separating numbers with a minimal difference
Given is a positive integer integer $n$, and integers $a_1,b_1,\dots,a_n,b_n$ with $ a_i\leq b_i$ for each $i$. What is the complexity of deciding whether there exist integers $c_1,\dots,c_n$ such ...
1
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1answer
29 views
Reducing 3 SAT to 3 SET PACKING
I'm trying to prove NP-hardness of 3 SET PACKING, which is a following problem: given a family of sets where each set contains 3 elements, decide whether the family contains k sets that are pairwise ...
2
votes
2answers
53 views
Prove that this language is NP-Hard
Given
$$\mathrm{\#3SAT} = \{ (w, y) \mid w\text{ is a $\mathrm{3SAT}$ instance with at least $y$ satisfying assignments}\}\,,$$
prove that $\mathrm{\#3SAT}$ is NP-Hard.
I am currently stuck with ...
0
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1answer
119 views
Proving NP completeness of maximal length path
I have this question to answer:
For each node i in an undirected network $G = (N,E)$, let $N(i) = \{j \in N : \{i, j\} \in E\}$ denote the set of neighbors of node $i$ and let $c_e\geq0$ denote the ...
0
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1answer
42 views
Time complexity of subset sum problem with reals instead?
It is well known that the conventional subset sum problem with integers is NP-complete. What if the array elements can be any real numbers and also target sum can be any real number? Is it NP-complete ...
3
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1answer
36 views
Quantum vs classic in NP-hard problems
Is there any quantum algorithm (algorithm for quantum computers) for any NP-hard problem that has better runtime than the best known classic algorithm's runtime?
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1answer
29 views
If a problem C is NP hard and there is an existing reduction from/to A,B,D, are they NP hard as well?
Lets say there is an reduction in polynomial time from problem A to B, from problem B to C and from problem C to D. Now lets say C is NP hard. Does this mean A,B,D are NP hard as well?
2
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1answer
44 views
Existence of path under weight and value budgets
Consider the following problem:
Input: An undirected graph $G = (V, E)$, each edge has a non-negative weight $w_i$ and a non-negative value $v_i$. There are two vertices to represent start point $s$...
2
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1answer
56 views
The Ising Model and Computational Complexity
I've been told recently that one can use the Ising model can find solutions to certain NP-hard problems, such as Clique, although it doesn't do so in polynomial time.
Googling gets a few Arxiv ...
5
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1answer
78 views
Reduction from Exact Cover to Fixed Exact Cover
I am trying to reduce Exact Cover to Fixed Exact Cover to show that Fixed Exact Cover is NP-Hard.
Exact Cover
Input
S = {x1, x2, ..., xn} (set)
P = {P1, P2, ..., Pm} (subsets of S)
Decision ...
0
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1answer
34 views
What are the current state of art approximation algorithm for NP-Hard problems? [closed]
I came cross some works try to use deep learning to approximate NP-Hard
https://arxiv.org/pdf/1810.10659.pdf
Though the paper seems to have very good results but based on the citations. I'm quit ...
0
votes
1answer
68 views
Subset with modified condition, is it still NP-complete? [closed]
So I know the conditions required for a problem to be NP-Complete is that it has to lie within NP and has to be NP-hard.
The given problem I have is subset sum.
However, the conditions have been ...
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2answers
102 views
Reduce 4-SAT to 5-SAT
given is a reduction from 4-SAT to 5-SAT.
How is it possible to describe such a function?
I found some informations about reduction 3-SAT to 4-SAT here, but it can't help me so much.
0
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0answers
27 views
Is retrospective inference NP-hard?
Here is a minimal working example of the question:
Consider a network with nodes arranged in a pyramid: $1$ node in the first row, $1+d$ nodes in the second, $1+2d$ nodes in the third, and so on, ...
2
votes
0answers
41 views
Is a “stacked”, “local” version of 3-SAT NP-hard?
In this previous question, I learned that if each variable in a string $C \in 3\text{-SAT}$ appears only "locally", then finding a satisfying assignment is no longer NP-hard. My question below builds ...
0
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0answers
35 views
Job scheduling with minimum makespan
You are given n jobs, m workstations and an n × m two-dimensional task matrix T of the time each job will spend at each workstation. Each job becomes available at a specified time and may be processed ...
7
votes
1answer
399 views
Is a “local” version of 3-SAT NP-hard?
Below is my simplification of part of a larger research project on spatial Bayesian networks:
Say a variable is "$k$-local" in a string $C \in 3\text{-CNF}$ if there are fewer than $k$ clauses ...
7
votes
1answer
1k views
Is this possible when it comes to the relations of P, NP, NP-Hard and NP-Complete?
I saw an image that describes the relations of P, NP, NP-Hard and NP-Complete which look like this :
https://en.wikipedia.org/wiki/NP-hardness#/media/File:P_np_np-complete_np-hard.svg
I wonder if ...
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1answer
84 views
P vs NP question from GeeksforGeeks
From here: https://www.geeksforgeeks.org/algorithms-np-complete-question-2/
Let S be an NP-complete problem and Q and R be two other problems not known to be in NP. Q is polynomial time reducible to ...
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2answers
48 views
Maximal cliques in a multipartite graph - efficient?
I am looking at a combinatorial optimisation problem where I have N classes and k objects of each class.
Now I am looking for the optimal subset such that each of the N classes is represented ...
2
votes
1answer
40 views
Decision variation of max sat
I am trying to prove that following decison variation of MaxSAT is both NP hard and co-NP hard.
$(\phi ,k) \in L$ iff an assignment of $\phi$ satisfies k clauses and no assignment satisfies more than ...
0
votes
1answer
49 views
MILP problem NP-hard proof [closed]
Since a MILP problem is not necessarily NP hard. How could I demonstrate that a MILP problem is actually NP hard? There exists some smart and easy method to do that?
Many thanks!
0
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1answer
34 views
Can a NP problem be reduced to another NP problem?
I have three related questions which have been bothering me for a while now...
Suppose I have a problem $A$, which is in NP. Suppose there is another
problem $B$ in NP, can I ...
8
votes
2answers
2k views
Is “Reachable Object” really an NP-complete problem?
I was reading this paper where the authors explain Theorem 1, which states "Reachable Object" (as defined in the paper) is NP-complete. However, they prove the reduction only in one direction, i.e. ...
0
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1answer
49 views
How can I develop a pseudo-polynomial time algorithm for a non-integer problem?
I have an scheduling probelm with a set of jobs $J$, with a ''non-integer'' parameter $\beta_j$, i.e. the parameter is a real number and $\beta_j \leqslant 0.5, \exists j \in J$.
Since the problem ...
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0answers
42 views
Delivering to two or more locations in one go while respecting deadlines?
Assume that I have a business where people can place product orders. Each order must be delivered within a time limit, say $x$ minutes.
I need 15 minutes to make each product. However, multiple ...
3
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1answer
50 views
Clarification on NP-hardness and hardness of approximation results for set cover?
I'm not familiar with complexity theory at all so please correct me if I make any incorrect statements.
I am wondering what is the hard case of set cover? My understanding of NP-hardness is that it ...
0
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0answers
22 views
Finding “good” order of elements for the purpose of material minimization
I am working with metallic shapes which are curved and highly irregular. The initial order of them is random and by default they are merely sorted by size, which is simple. However the resulting order ...
0
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0answers
68 views
Implementing a job-scheduling problem with multiple dependencies and variable tasks (time frames) using dynamic programming
I'm writing a "Chores Scheduler" in Python. It has to be implemented using dynamic programming and has to take in two types of chores, as below:
Regular chores with a start time and end time (a real-...
0
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0answers
25 views
Where f(n) = n! belongs to? P, co-P, NPComplete or NPHard? [duplicate]
Where f(n) = n! belongs to? P, co-P, NPComplete or NPHard?
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0answers
104 views
Is Hamiltonian cycle problem on graphs with out-degree at most 3 NP hard?
I am trying to show a different form of Hamiltonian cycle problem is NP Hard. The problem is as follows.
We have a directed graph and each node can have at most 3 outgoing edges. Determine if this ...
0
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1answer
115 views
Turing Machine that both halts and loops in NP
This is in regards to a specific TM:
$UNIQUE: \{$ TM | TM loops on at least an input, and TM also halts on at least one input $\}$
This is a play on the Halting Problem, where it basically combines $...
2
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1answer
61 views
How to partition a set in order to minimize the number of the elements and their interactions?
Given two sets $S_1$ and $S_2$ of $n$ elements each. Each set $S_1$ (resp. $S_2$) has a revenue $R_1$ (resp. $R_2$). Each element $i$ of $S_1$ (resp. $S_2$) has a gain $g_{i1}$ (resp. $g_{i2}$). From ...
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0answers
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A special case of the SUBSET SUM problem
Consider the following special case of SUBSET SUM
Inputs: Positive integers $a$ and $b$ with $a \ne b$, and positive integers $k$ and $t$, with $k$ specified in unary.
Encoding: These inputs (...
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0answers
22 views
Given a subset of numbers $1, \dots, n$, find the minimal subset of numbers $1, \dots, n$ sums of every subset of which cover all sums of first subset
Given a subset $A = \{a_1, a_2, \dots, a_k\}$ of numbers $\{1, 2, \dots, n\}$, find another subset $B = \{b_1, b_2, \dots, b_t\}$ of numbers $\{1, 2, \dots, n\}$ of minimal size (that is, minimise $t$)...
2
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1answer
80 views
Reducing the vertex cover problem to a variation of the vertex cover problem [duplicate]
The following variation on the vertex cover problem was given:
Given is an instance of graph $G = (V, E)$. Does $G$ have a vertex cover of size at most $\frac{|V|}{4}$?
I was asked to prove that ...
1
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1answer
94 views
Is there a polynomial-time reduction from a NP-hard problem to the complement of tautology?
Is the following true or false? Why?
Let $Y$ denote the complement of the tautology problem. If a problem X is NP-hard, then there is a polynomial-time (many-one) reduction of $Y \leq_{p} X$.
2
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1answer
304 views
Reducing 3SAT to a Set Splitting Problem
I want to be able to reduce the 3SAT problem to a flavor of set-splitting problem. Basically, given $n$ items and $m$ subsets $S_1, S_2,...,S_m$ of these items I want a yes or no answer based upon the ...
3
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1answer
37 views
How to generate snowflakes of a fixed area as challenges for the FridgeIQ puzzle?
I have been presented a set of FridgeIQ by a friend and she has planted an idea in my head.
FridgeIQ is a geometric disection puzzle consisting of 16 polygonal tiles as seen in the terrible picture ...
2
votes
2answers
242 views
Negative simple path NP-Complete
Given a graph $G=(V,E)$, and positive and negative edge weights, negative path problem asks if there is a simple path with negative total weight from $s$ to $t$ where $s,t \in V$
My approach was to ...
