Skip to main content
MathOverflow
JimN's user avatar
JimN's user avatar
JimN's user avatar
JimN
  • Member for 10 years, 1 month
  • Last seen more than a month ago
  • Canada
Profile Activity

67 Actions

All Accepts Posts Badges Comments Revisions Reviews Suggestions
revised
power of a block triangular matrix
Grammar and spelling
suggested
Approve
power of a block triangular matrix
revised
Are there more paths exiting a box in $\mathbb{Z}^2$ to the right if I remove some edges to the left
spaced-out the long paragraph of text and equations. Corrected one typo. Added clarifying statement that (N+1,N+1) is the midpoint of this lattice grid
suggested
Approve
Are there more paths exiting a box in $\mathbb{Z}^2$ to the right if I remove some edges to the left
revised
Subset of the vertices in a tournament
Capitalized the title and added fraction in mathJax
suggested
Approve
Subset of the vertices in a tournament
awarded
 Organizer
answered
Books that teach other subjects, written for a mathematician
awarded
 Revival
answered
Relationship between cycle length, number of chords, and number of induced $P_{4}$ subgraphs of the cycle
revised
Relaxing Meyniel graphs: condition for strongly perfect instead of very strongly perfect
added 4 characters in body
awarded
 Citizen Patrol
revised
How to find a good individualising set in graph isomorphism
replaced dead link with a suitable substitute and corrected grammar throughout the text
suggested
Approve
How to find a good individualising set in graph isomorphism
answered
Chordless cycles and planarity in graphs
awarded
 Quorum
awarded
 Excavator
comment
Largest number of simple paths between two vertices
I see what you mean now. Used in making a solution to the problem.
comment
Largest number of simple paths between two vertices
It doesn't look to me like that fact was used in the IOI problem ... from what I understood, their example 3 simply says that there is no way to have 3 simple paths between two vertices in a graph with $|V|=2$. Is your fact about your defined $f(u,v)$ verified?
comment
Chordless cycles and planarity in graphs
can you elaborate on 'chordless cycles' ? Most definitions refer to a chord of a cycle $v_1,v_2,v_3,v_4,...,v_n,v_1$ to mean an edge from one $v_i$ to another $v_j$ with $|i-j| \neq 1$ (mod n). But I think in your context, you would be counting a path to qualify as a chord. Does the path necessarily have to be a subdivision of a single edge? Can you maybe illustrate your V and P for a graph like {ab,bc,cd,de,ef,fa, gf,gb,he,hc} ?
1
2 3 4