Deep Learning and Model Predictive Control for Self-Tuning Mode-Locked Lasers

November 02, 2017 ยท Declared Dead ยท ๐Ÿ› arXiv.org

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Authors Thomas Baumeister, Steven L. Brunton, J. Nathan Kutz arXiv ID 1711.02702 Category cs.LG: Machine Learning Cross-listed nlin.PS Citations 120 Venue arXiv.org Last Checked 4 months ago
Abstract
Self-tuning optical systems are of growing importance in technological applications such as mode-locked fiber lasers. Such self-tuning paradigms require {\em intelligent} algorithms capable of inferring approximate models of the underlying physics and discovering appropriate control laws in order to maintain robust performance for a given objective. In this work, we demonstrate the first integration of a {\em deep learning} (DL) architecture with {\em model predictive control} (MPC) in order to self-tune a mode-locked fiber laser. Not only can our DL-MPC algorithmic architecture approximate the unknown fiber birefringence, it also builds a dynamical model of the laser and appropriate control law for maintaining robust, high-energy pulses despite a stochastically drifting birefringence. We demonstrate the effectiveness of this method on a fiber laser which is mode-locked by nonlinear polarization rotation. The method advocated can be broadly applied to a variety of optical systems that require robust controllers.
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