Roberto Flamini scite author profile

Roberto Flamini

5Publications

37Citation Statements Received

10Citation Statements Given

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Affiliations

Institute of Biomedical Technologies, Alenia Aermacchi, Huawei Technologies (France)

Publications

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Enabling Simulation-Based Optimization through Machine Learning: A Case Study on Antenna Design

Testolina

Lecci

Rebato

et al. 2019

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Complex phenomena are generally modeled with sophisticated simulators that, depending on their accuracy, can be very demanding in terms of computational resources and simulation time. Their time-consuming nature, together with a typically vast parameter space to be explored, make simulationbased optimization often infeasible. In this work, we present a method that enables the optimization of complex systems through Machine Learning (ML) techniques. We show how well-known learning algorithms are able to reliably emulate a complex simulator with a modest dataset obtained from it. The trained emulator is then able to yield values close to the simulated ones in virtually no time. Therefore, it is possible to perform a global numerical optimization over the vast multi-dimensional parameter space, in a fraction of the time that would be required by a simple brute-force search. As a testbed for the proposed methodology, we used a network simulator for next-generation mmWave cellular systems. After simulating several antenna configurations and collecting the resulting network-level statistics, we feed it into our framework. Results show that, even with few data points, extrapolating a continuous model makes it possible to estimate the global optimum configuration almost instantaneously. The very same tool can then be used to achieve any further optimization goal on the same input parameters in negligible time.

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Toward a Heterogeneous Smart Electromagnetic Environment for Millimeter-Wave Communications: An Industrial Viewpoint

Flamini¹,

Donno²,

Gambini³

et al. 2022

IEEE Trans. Antennas Propagat.

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Millimeter-wave phased arrays for 5G: An industry view on current issues and challenges

Flamini¹,

Mazzucco²,

Lombardi³

et al. 2019

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Unconventional Array for 5G Scenario: Irregular Clustering Antenna Design and Implementation

Flamini¹,

Resteghini²,

Massagrande³

et al. 2018

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Design and Realization of 3 dB hybrid stripline coupler in 0.5 – 18.0 GHz

Anselmi¹,

Pingue²,

Manna³

et al. 2014

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Roberto Flamini

Enabling Simulation-Based Optimization through Machine Learning: A Case Study on Antenna Design

Toward a Heterogeneous Smart Electromagnetic Environment for Millimeter-Wave Communications: An Industrial Viewpoint

Millimeter-wave phased arrays for 5G: An industry view on current issues and challenges

Unconventional Array for 5G Scenario: Irregular Clustering Antenna Design and Implementation

Design and Realization of 3 dB hybrid stripline coupler in 0.5 – 18.0 GHz

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Roberto Flamini

Enabling Simulation-Based Optimization through Machine Learning: A Case Study on Antenna Design

Toward a Heterogeneous Smart Electromagnetic Environment for Millimeter-Wave Communications: An Industrial Viewpoint

Millimeter-wave phased arrays for 5G: An industry view on current issues and challenges

Unconventional Array for 5G Scenario: Irregular Clustering Antenna Design and Implementation

Design and Realization of 3 dB hybrid stripline coupler in 0.5 &#x2013; 18.0 GHz

Contact Info

Product

Resources

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Design and Realization of 3 dB hybrid stripline coupler in 0.5 – 18.0 GHz