Abstract. In sports timetabling, creating an appropriate timetable for a round-robin tournament with home–away assignment is a significant problem. To solve this problem, we need to construct home–away assignment that can be completed into a timetable; such assignment is called a feasible pattern set. Although finding feasible pattern sets is at the heart of many timetabling algorithms, good characterization of feasible pattern sets is not known yet. In this paper, we consider the feasibility of pattern sets, and propose a new necessary condition for feasible pattern sets. In the case of a pattern set with a minimum number of breaks, we prove a theorem leading a polynomial-time algorithm to check whether a given pattern set satisfies the ne...
We consider round-robin sports tournaments with n teams and n − 1 rounds. We construct an infinite f...
The fifth International Timetabling Competition (ITC2021) was held to instigate further research on ...
Sports timetabling algorithms need to be able to handle a wide varietyof requirements. We present a ...
AbstractWe consider the break minimization problem for fixing home–away assignments in round-robin s...
We consider the break minimization problem for fixing home–away assignments in round-robin sports to...
A popular approach to construct a schedule for a round-robin tournament is known as first-break, the...
This paper aims to show the interest of constraint programming for minimizing the number of breaks i...
The Traveling Tournament Problem is a sports timetabling problem that abstracts two issues in creati...
Wegeneralize the concept of a break by considering pairs of arbitrary rounds.Weshow that a set of ho...
Single round robin tournaments are a well-known class of sports leagues schedules. We consider leagu...
In a round-robin sports timetable, each team meets every other team a fixed number of times. The sim...
The International Timetabling Competition (ITC) has a long tradition of arranging scientific competi...
We consider round-robin sports tournaments with $n$ teams and $n-1$ rounds. We construct an infinite...
AbstractWe consider round-robin sports tournaments with n teams and n−1 rounds. We construct an infi...
Jean Charles Régin and Michael Trick have proposed to solve the schedule generation problem for spor...
We consider round-robin sports tournaments with n teams and n − 1 rounds. We construct an infinite f...
The fifth International Timetabling Competition (ITC2021) was held to instigate further research on ...
Sports timetabling algorithms need to be able to handle a wide varietyof requirements. We present a ...
AbstractWe consider the break minimization problem for fixing home–away assignments in round-robin s...
We consider the break minimization problem for fixing home–away assignments in round-robin sports to...
A popular approach to construct a schedule for a round-robin tournament is known as first-break, the...
This paper aims to show the interest of constraint programming for minimizing the number of breaks i...
The Traveling Tournament Problem is a sports timetabling problem that abstracts two issues in creati...
Wegeneralize the concept of a break by considering pairs of arbitrary rounds.Weshow that a set of ho...
Single round robin tournaments are a well-known class of sports leagues schedules. We consider leagu...
In a round-robin sports timetable, each team meets every other team a fixed number of times. The sim...
The International Timetabling Competition (ITC) has a long tradition of arranging scientific competi...
We consider round-robin sports tournaments with $n$ teams and $n-1$ rounds. We construct an infinite...
AbstractWe consider round-robin sports tournaments with n teams and n−1 rounds. We construct an infi...
Jean Charles Régin and Michael Trick have proposed to solve the schedule generation problem for spor...
We consider round-robin sports tournaments with n teams and n − 1 rounds. We construct an infinite f...
The fifth International Timetabling Competition (ITC2021) was held to instigate further research on ...
Sports timetabling algorithms need to be able to handle a wide varietyof requirements. We present a ...