Article ID: | iaor2013377 |
Volume: | 64 |
Issue: | 1 |
Start Page Number: | 403 |
End Page Number: | 411 |
Publication Date: | Jan 2013 |
Journal: | Computers & Industrial Engineering |
Authors: | Onieva Luis, Guadix Jos, Corts Pablo, Muuzuri Jess |
Keywords: | soft systems, optimization |
Nowadays is very common the presence of tall buildings in the business centres of the main cities of the world. Such buildings require the installation of numerous lifts that are coordinated and managed under a unique control system. Population working in the buildings follows a similar traffic pattern generating situations of traffic congestion. The problem arises when a passenger makes a hall call wishing to travel to another floor of the building. The dispatching of the most suitable car is the optimization problem we are tackling in this paper. We develop a viral system algorithm which is based on a bio‐inspired virus infection analogy to deal with it. The viral system algorithm is compared to genetic algorithms, and tabu search approaches that have proven efficiency in the vertical transportation literature. The experiments undertaken in tall buildings from 10 to 24 floors, and several car configurations from 2 to 6 cars, provide valuable results and show how viral system outperforms such soft computing algorithms.