I. Foreword

The extensive use of frequencies in the Ka band and beyond in satellite Telecommunications forces the adoption of particular techniques, known as propagation impairment mitigation techniques (PIMT), to counteract the difficulties posed by the strong atmospheric attenuation. A PIMT of particular interest in satellite applications is the one based on the possibility to control, instant by instant, the flux radiated over the served area with the criterion of favouring the subregions more affected by adverse weather conditions; this allows an optimum exploitation of the limited power available on board. The problem involves a great number of aspects: technological, meteorological, of system control etc. This paper is specifically addressed to this last issue and describes a new theoretical method to optimally control the powers injected in the beam-ports of an on-board multibeam antenna used in Telecommunication applications, aiming at minimizing, any time, the number of users in outage owing to severe weather conditions [1]; basic principles, optimization criteria, necessary input data and their treatment are outlined along with a preliminary assessment of the obtained performance. The impact of a reconfigurable antenna as a possible PIMT is obtaining a certain interest in research, as testified by the rising number of projects [2]–[4] and papers [5], [6] related to the field.