Dynamic Simulation and Optimization of a Dual-Type Methanol Reactor Using Genetic Algorithms

The nondominated sorting genetic algorithm (NSGA) is adapted and used to obtain multiobjective Pareto optimal solutions for three grades of nylon 6 being produced in an industrial semibatch reactor. The total reaction time and the concentration of an undesirable cyclic dimer in the product are taken

A multiobjective optimization technique has been developed for free radical bulk polymerization reactors using genetic algorithm. The polymerization of methyl methacrylate in a batch reactor has been studied as an example. The two objective functions which are minimized are the total reaction time a

## Abstract The optimization of Fresnel zone plates using a genetic algorithm and a the body‐of‐revolution, finite‐difference time‐domain simulator is studied. This technique is applied to zone plates for use in a free‐space, focused‐beam system to measure the electrical properties of materials. Th

For many optimum design problems, the objecti®e function is the result of a complex numerical code and may not be differentiable and explicit. The first aim is to propose a way of sol®ing such complexity on an example problem. A no®el and global strategy in®ol®ing artificial neural networks and a ge

## Abstract This paper presents the application of a genetic algorithm (GA) to the design and optimization of a nonplanar dipole array in light of its application at a cell‐site antenna for mobile communication. Cell‐site antennas demand widely different radiation patterns depending upon the geogra