Many shift scheduling algorithms presume that the staffing levels, required to ensure a target customer service, are known in advance. Determining these staffing requirements is often not straightforward, particularly in systems where the arrival rate fluctuates over the day. We present a branch-and-bound approach to estimate optimal shift schedules in systems with nonstationary stochastic demand and service level constraints. The algorithm is intended for personnel planning in service systems with limited opening hours (such as small call centers, banks, and retail stores). Our computational experiments show that the algorithm is efficient in avoiding regions of the solution space that cannot contain the optimum; moreover, it requires only...
International audienceWe consider a workforce management problem arising in call centers, namely the...
We study the shift scheduling problem in a multi-shift, flexible call center where moving agents bet...
In this study we consider the operational fixed job scheduling problem under working time limitation...
Many shift scheduling algorithms presume that the staffing levels, required to ensure a target custo...
Many shift scheduling algorithms presume that the staffing levels, required to ensure a target custo...
1. Introduction 2. Staffing and scheduling with nonstationary demand for service: state of the art ...
It may be very difficult to achieve the optimal shift schedule in call centers which have highly unc...
International audienceWe consider a workforce management problem arising in call centers, namely a s...
Personnel scheduling problems have been studied by many researchers over the last five decades but m...
This paper compares two linear programming (LP) models for shift scheduling in services where homoge...
Many service systems display nonstationary demand: the number of customers fluctuates over time acco...
International audienceExcessive waiting time in Emergency Departments (ED) can be both a cause of fr...
This paper presents a simulated-annealing heuristic (SAH) for developing shift schedules. We assume ...
AbstractA fast branch and bound algorithm for the job-shop scheduling problem has been developed. Am...
In this paper we introduce the Personnel Task Scheduling Problem (FTSP) and provide solution algorit...
International audienceWe consider a workforce management problem arising in call centers, namely the...
We study the shift scheduling problem in a multi-shift, flexible call center where moving agents bet...
In this study we consider the operational fixed job scheduling problem under working time limitation...
Many shift scheduling algorithms presume that the staffing levels, required to ensure a target custo...
Many shift scheduling algorithms presume that the staffing levels, required to ensure a target custo...
1. Introduction 2. Staffing and scheduling with nonstationary demand for service: state of the art ...
It may be very difficult to achieve the optimal shift schedule in call centers which have highly unc...
International audienceWe consider a workforce management problem arising in call centers, namely a s...
Personnel scheduling problems have been studied by many researchers over the last five decades but m...
This paper compares two linear programming (LP) models for shift scheduling in services where homoge...
Many service systems display nonstationary demand: the number of customers fluctuates over time acco...
International audienceExcessive waiting time in Emergency Departments (ED) can be both a cause of fr...
This paper presents a simulated-annealing heuristic (SAH) for developing shift schedules. We assume ...
AbstractA fast branch and bound algorithm for the job-shop scheduling problem has been developed. Am...
In this paper we introduce the Personnel Task Scheduling Problem (FTSP) and provide solution algorit...
International audienceWe consider a workforce management problem arising in call centers, namely the...
We study the shift scheduling problem in a multi-shift, flexible call center where moving agents bet...
In this study we consider the operational fixed job scheduling problem under working time limitation...