Parallel computation: models and methods
Parallel computation: models and methods
Euler is standing in line dial-a-ride problems with precedence-constraints
Discrete Applied Mathematics - special issue on the 25th international workshop on graph theoretic concepts in computer science (WG'99)
Design Tools and Reusable Libraries for FPGA-Based Digital Circuits
DSD '03 Proceedings of the Euromicro Symposium on Digital Systems Design
Configware and morphware going mainstream
Journal of Systems Architecture: the EUROMICRO Journal - Special issue: Reconfigurable systems
Design and implementation of a fuzzy elevator group control system
IEEE Transactions on Systems, Man, and Cybernetics, Part A: Systems and Humans
Engineering Applications of Artificial Intelligence
Hi-index | 0.00 |
Elevator Group Control Systems (EGCSs) manage multiple elevators in a building transporting efficiently passengers. The performance of an EGCS is measured by means of several metrics such as the average waiting time of passengers, the percentage of the passengers waiting more than some predetermined time, power consumption, among others. Four elevator dispatching algorithms are analyzed and implemented using reconfigurable architectures based on FPGAs. The system is based on Local Controller Systems (LCSs), one for each elevator, and a protocol based on an RS485 network for interconnecting the LCSs. The FPGAs implement the LCSs. A Java interface was implemented for testing and monitoring the system and the EGCS function. The novelty of this approach is that the LCSs are capable to run the different dispatching algorithms, which are suitable for different passenger traffic situations, while the EGCS only must determine the best algorithm to be run in each LCS. The data traffic in the network is reduced given that the EGCS is not directly involved in calculating next floors to be visited. The algorithms were described in VHDL and implemented on Spartan3 FPGA based boards.