Multiobjective Modeling to Aid the Design of Industrial Networks of Sensors and Actuators Wireless for Closed Loop Controllers
Industrial Wireless Networks, WirelessHART, ISA100.11a, Multi-objective Genetic Algorithm , Closed-loop Control.
Nowadays wireless communication has aroused interest and is a tendency in industry environments. In part this interest is due to the ease of deployment and maintenance of this network, which dispenses sophisticated designs and execution of works of deploying cables, which in industrial environment often prohibitively expensive, and enabling the addition of new applications when compared to their wired counterparts. Despite its high degree of applicability, a WirelessHART network faces some technical (reliability, energy consumption, environment interference) and cultural challenges present as the main negative points for the deployment of large-scale industrial networks in the industry. In this doctoral thesis proposal will address the problem of location of equipments, sensors as well as actor, enabling closed-loop control in the industrial wireless networks. With particular emphasis on the WirelessHART and ISA100.11a standard, which presents themselves as the most promising solution for industrial wireless networks, this work intends to propose a system intelligent system to aid to the design and installation of industrial wireless sensor and actor network.