Luis Pesquera

TL;DR: High-speed long-distance communication based on chaos synchronization over a commercial fibre-optic channel is demonstrated, showing that information can be transmitted at high bit rates using deterministic chaos in a manner that is robust to perturbations and channel disturbances unavoidable under real-world conditions.

TL;DR: This work experimentally demonstrate optical information processing using a nonlinear optoelectronic oscillator subject to delayed feedback and implements a neuro-inspired concept, called Reservoir Computing, proven to possess universal computational capabilities.

TL;DR: Improved strategies to perform photonic information processing using an optoelectronic oscillator with delayed feedback are presented and it is illustrated that the performance degradation induced by noise can be compensated for via multi-level pre-processing masks.

TL;DR: It is shown that the reservoir computing implementation, in this case optoelectronic, is also capable to realize extreme learning machines, demonstrating the unified framework for both schemes in software as well as in hardware.

TL;DR: A scheme that integrates a digital key in a phase-chaos electro-optical delay system for optical chaos communications that provides a large flexibility allowing for easy reconfigurations to communicate securely at a high bit rate between different systems is introduced.