📝 SummarXiv

Abstract

An old conjecture of Gallai states that every $n$ vertex graph can be decomposed, that is $E(G)$ can be partitioned, into $\lceil \frac{n}{2}\rceil$ or fewer paths. In response to this conjecture, Lov\'asz proved in 1968 that every $n$ vertex graph can be decomposed into $\lfloor \frac{n}{2}\rfloor$ or fewer cycles and paths. We study a related conjecture which states that every $n$ vertex graph can be decomposed into $n-1$ or fewer cycles and edges. We prove this conjecture for all graphs with maximum degree at most $4$. We also show that every $n$ vertex claw-free graph can be decomposed into $n-1$ or fewer $2$-regular subgraphs and edges. In addition, we consider the analogues covering problem. We prove that every graph $G$ containing a cycle can be covered by $n-2$ or fewer cycles and edges.