Modelagem e meta-heurísticas para o problema de roteamento de veículos com janelas de tempo, múltiplos entregadores e múltiplas viagens em uma empresa de distribuição de bebidas
Abstract
Vehicle routing problems occur in many practical situations where the pickup and/or delivery
of goods is required. In this context, the present research aims to contribute to the study of
logistic operations that arise in companies that deliver products on a regular basis to
customers in densely populated urban areas. The problem consists in designing minimal cost
daily routes serving the maximal number of customers. To this end, the crew of each vehicle
comprise multiple deliverymen as means to reduce service times. Based on a case study in a
drinks producer and distributor in the state of São Paulo, it is proposed a mixed integer linear
programming model that comprise costs with own and chartered vehicles and the number of
deliverymen, and various operational constraints such as time windows in customers, multiple
daily trips, time limitations for the circulation of some vehicle types in specific areas,
compatibility between vehicles and customers, maximum load in each vehicle, maximum
route time and minimum load for the realization of a second trip. Results obtained by solving
the model with real instances through exact (branch&cut), heuristic (constructive, local
search, GRASP and Simulated Annealing) and hybrid (GRASP and branch&cut) approaches
demonstrate the good quality of the generated solutions, and indicate the potential of
application of some of these methods in practice.