Giampiero Di Paolo scite author profile

The Alphasat satellite was launched on 25 July 2013. The Aldo Paraboni technology demonstration payload, funded by ASI under ESA's ARTES Programme, was embarked as an hosted payload on Alphasat. This Technology Demonstration Payload (identified as TDP5 and recently renamed Aldo Paraboni) was implemented under an ESA contract awarded in co-contractorship to Space Engineering and Thales Alenia Space Italia (TAS-I) which conceived the experimental mission and industrialised the subsystems. The Aldo mission is composed of two main elements: a Communication Experiment mission, which aims at assessing the performance of communication links at Q/V Bands; and a Scientific Experiment mission implemented through two beacons at Ka and Q Bands, which aims at characterizing propagation phenomena at these frequencies. During the In Orbit Test campaign of the above two mission components, TDP5 demonstrated compliance to the requirements and the nominal conditions of the Payload. The main topics of this paper are the description of the In Orbit Test requirements and the discussion of tests results. The good health of the Payload is demonstrated by the agreement of the results with the predictions that were calculated on the basis of the results of the on ground test campaign. The Commissioning and IOT campaign of Aldo Paraboni was performed over 3 distinct sessions: • Commissioning: 17-18 September 2013 • IOT Part 1: 10-18 October 2013 • IOT Part 2: 4-8 November 2013 This work is only related to the verification of the performance of the space segment, the Q/V-Band Payload, also referred to as the TDP5. TDP5 stands for Technical Demonstrator Payload #5 and it is formally the 5th experimental (i.e. technological demonstrator) hosted payload of the Alphasat programme

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Flexible Payload Technologies to Enable Multi Mission Satellite Communication Systems

Marziale¹,

Pisano²,

Paolo³

2006

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Measurements and numerical evaluation of the electric field in the near-zone of radio base station antennas

Davide

Paolo²,

Renato³

et al.

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The increasing presence in many countries of radio base stations (RBSs) for mobile communications has caused, in recent years, a growing anxiety ofpeople living close to RBS, worried by biological effects on human body of the electromagnetic pollution. In this paper we present a fast and eflcient method for the evaluation of the electromagnetic field levels in the near zone of linear array RBS antennas. Theoretical model is explained and a comparison between experimental measurements and the proposal method is reported.

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Italian next generation MilSatCom: the Sicral 2 SHF Payload

Pera

Pisano

Paolo

2007

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