0
votes
0answers
46 views

Stationary distribution for random walks on directed graph

There is an equation (Eq. (2)) in reference by Lovasz and Winkler about the stationary distribution of a random walk on directed graphs that I would like to find references for where the equation is ...
2
votes
2answers
69 views

Random walk on tree

You begin at a root node that has 2 children. Each of those two children have two more children, and each of those children have two final children (i.e., there are 15 nodes in the graph). How do I ...
0
votes
0answers
39 views

Random looking Gray Codes or Hamiltonian Cycles on Hypercubes

Cyclic Gray codes come in many flavors and correspond 1-1 to Hamiltonian cycles on hypercubes. I would like to find a type that looks like a random walk on the hypercube. In a sense this is an ...
1
vote
2answers
64 views

Power series convergence of random walk transition matrix

I would like to find out if $$ \sum_{t=0}^\infty P^t = \left( I- P \right)^{-1} ~,$$ where $P = D^{-1}W ~ $ is a random walk transition matrix. $W$ is a matrix describing weights in a graph and ...
0
votes
0answers
40 views

Expected number of steps in a random graph walk

Suppose I have a directed graph $D(V, A)$ where the edges have weights on them. Let's notate the weight function $w: A \rightarrow [0, 1]$. If $f, t \in V$ and $a \in A$ such that $a = (f, t)$ then ...
1
vote
0answers
33 views

Random walk on a graph

For a random walk say from point $x$ to $y$ on a graph, How is the probability of a Random walker reaching point $y$ before returning to $x$ related to the expected of the number of visits to point ...
0
votes
1answer
50 views

Probability of random walk traversal

Consider a random walk on an connected, non-bipartite, undirected graph G. Show that, in the long run, the walk will traverse each edge with equal probability. Note: The walk can traverse each edge ...
0
votes
0answers
35 views

Reversing a random walk on a hypergraph

I'm looking for resources (books, papers, etc) that will suggest how to reverse random walks on an invariant directed hypergraph. If you're curious, more details are below. In my problem, I allow a ...
2
votes
0answers
45 views

A random walk on the unit distance graph in $\mathbb{R}^n$

Define a graph $G_n$ whose vertices are the points in $\mathbb{R}^n$ with an edge connecting any two points that are one unit apart. Such a graph is called the unit distance graph in $\mathbb{R}^n$. ...
0
votes
0answers
35 views

How to perform a stochastic search of the locality of a node in a network?

In a graph that may be a random graph (ER graph), scale free network, etc. I would like to obtain a distribution of the locality of the nodes surrounding a ...
1
vote
1answer
78 views

Number non self avoiding closed walks surrounding some point

While studying some Peierls-like arguments in statistical physics I thought about the following problem: We have some 2d-integer lattice like this, for simplicity infinite in all directions. Now fix ...
1
vote
0answers
109 views

Extracting hitting times from the pseudoinverse of a Laplacian matrix for an undirected graph

Provided a pseudoinverted Laplacian matrix for an undirected graph $G$, how can I extract first passage and commute times between vertex pairs in $G$?
2
votes
0answers
176 views

Teleporting random walk

Given a directed graph $G = (V,E)$, to define a random walk on $G$ with a transition probability matrix $P$ such that it has a unique stationary distribution (as mentioned in this paper) I used a one ...
1
vote
0answers
253 views

Random walk, Cat and mouse

Here is the problem. In graph G, on different vertices there is cat and mouse. Cat and mouse do independent random walk, but time is synchronous, in one unit of time both cat and mouse do one step. ...
4
votes
2answers
392 views

Random walk on lollipop graph

Hi i am trying to prove expected Hitting time on the Lollipop graph. It is a graph on $n$ vertices with clique on $n/2$ vertices and path joined to this. Let vertex $i$ be a vertex on the clique, ...
-1
votes
1answer
134 views

Stationary distribution for different types of graph

This is a follow-up questions to posts: Stationary distribution for directed graph Stationary distribution for different types of graph The definition of stationary distribution in ...
0
votes
1answer
518 views

Stationary distribution for directed graph

I want to implement the algorithm of graph partitioning of sparse directed graph. In this algorithm after computing the transition matrix ,we should compute the stationary distribution of the random ...
5
votes
1answer
246 views

Walks of Even Length on a Bipartite Graph

Given a random walk on a simple $d$-regular bipartite graph $G$. The adjacency matrix $A'$ of $G$ may be split into blocks $$ A'=\pmatrix{ 0 &A^T\\ A&0 }, $$ The propagation operator $M=A'/d$ ...
4
votes
0answers
79 views

Completeness of random walks in multiple dimensions?

I was reading Artificial Intelligence: Modern Approach (Norvig and Russell), and there was a footnote that really caught my attention. I apologize if the problem is more in the domain of CS than ...
2
votes
1answer
65 views

Is there an unbiased random walk on a colored plane for any number of colors?

So I was trying to motivate the fundamental postulate of statistical mechanics (i.e. all microstates are assumed to be equally probable $-$ even if we can't practically measure them, but only their ...
3
votes
0answers
64 views

Diffusion on a graph and its dual

Is there a relation between the diffusion of a random walker on a planar graph and that on the dual of the graph? It seems perhaps intuitive that if the diffusion on the graph is slow (in comparison ...
3
votes
2answers
609 views

Random walk probability/expected value

With what probability, starting at node $g$, does node $d$ get hit before node $e$ in the graph below? What is the expected value of number of steps you need to hit $\{d,e\}$ (at least one of them) ...
0
votes
2answers
169 views

Question from section 1.5 of Chung's Spectral Graph Theory

I'm (slowly) reading Fan Chung's Spectral Graph Theory. At the moment, I'm in section 1.5 which is about eigenvalues and random walks. There's a small technical point that puzzles me. The context ...
1
vote
1answer
174 views

Returning Paths on Cubic Graphs

Suppose we have a 3-edge-colorable cubic graph with $N$ vertices. How many paths of length $N$ exist that return to its origin? Or putting it differently: What is "PĆ³lya's Random Walk Constant" on ...
1
vote
1answer
70 views

Degree of girraphs

A girraph is an infinite, regular, vertex-transitive graph, on which a random walk is recurrent. The random walk on the square grid returns to the origin with probability 1, and for the cubic grid ...