Launch Power Optimization in super-(C+L) Systems

Yanchao Jiang; Dario Pilori; Antonino Nespola; Alberto Tanzi; Stefano; Piciaccia; Mahdi Ranjbar Zefreh; Fabrizio Forghieri; Pierluigi Poggiolini

arXiv:2407.14401·eess.SP·July 22, 2024

Launch Power Optimization in super-(C+L) Systems

Yanchao Jiang, Dario Pilori, Antonino Nespola, Alberto Tanzi, Stefano, Piciaccia, Mahdi Ranjbar Zefreh, Fabrizio Forghieri, Pierluigi Poggiolini

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TL;DR

This paper explores launch power optimization in super-(C+L) systems around 12 THz, demonstrating that simple suboptimal power profiles can achieve near-optimal throughput despite ISRS effects.

Contribution

It introduces an iterative evaluation method using NLI closed-form models for optimizing launch power in super-(C+L) systems, highlighting robustness to suboptimal profiles.

Findings

01

Suboptimal launch power profiles cause minimal throughput loss.

02

Systems tolerate easy-to-implement power adjustments despite ISRS.

03

Iterative performance evaluation improves optimization accuracy.

Abstract

We investigate launch power optimization in 12-THz super-(C+L) systems, using iterative performance evaluation enabled by NLI closed-form models. We find that, despite the strong ISRS, these systems tolerate well easy-to-implement suboptimal launch power profiles, with marginal throughput loss.

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Taxonomy

TopicsSpacecraft Design and Technology · Radiation Effects in Electronics · Parallel Computing and Optimization Techniques