@misc{elediasc12508,
           month = {January},
           title = {Analytic Design Techniques for MPT Antenna Arrays},
          author = {Giacomo Oliveri and Loreno Poli and Paolo Rocca and Vincenzo Gervasio and Andrea Massa},
            year = {2011},
            note = {This version is a pre-print of the final version available at IEEE.},
             url = {http://www.eledia.org/students-reports/508/},
        abstract = {Solar Power Satellites (SPS) represent one of the most interesting technological opportunities to provide large scale, environmentally clean and renewable energy to the Earth [1]-[3]. A fundamental and critical component of SPSs is the Microwave Power Transmission (MPT) system, which is responsible for the delivery of the collected solar power to the ground rectenna [2]. Towards this end, the MPT array must exhibit a narrow main beam width (), a high beam efficiency (BWBE), and a low peak sidelobe level (). Moreover, reduced realization costs and weights are also necessary [3]. To reach these contrasting goals, several design techniques have been investigated including random methods [4] and hybrid deterministic-random approaches [2][3]. On the contrary, well-established design tools based on stochastic optimizers [5][6] are difficult to be employed, due to their high computational costs when dealing with large arrays as those of interest in SPS [3].}
}