COMbination of non-contact, high speed monitoring and non-destructive techniques applicable to LASER Based Manufacturing through a self-learning system

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COMbination of non-contact, high speed monitoring and non-destructive techniques applicable to LASER Based Manufacturing through a self-learning system

Photonics-based materials processing technologies


Specifics for Project COMBILASER | COMbination of non-contact, high speed monitoring and non-destructive techniques applicable to LASER Based Manufacturing through a self-learning system

Title COMbination of non-contact, high speed monitoring and non-destructive techniques applicable to LASER Based Manufacturing through a self-learning system
Description The continuous growth of laser-based manufacturing processes has allowed the introduction of many new applications in different industries during last years.
 Periodic Reporting for period 3 - COMBILASER (COMbination of non-contact, high speed monitoring and non-destructive techniques applicable to LASER Based Manufacturing through a self-learning system) Result title Periodic Reporting for period 3 - COMBILASER (COMbination of non-contact, high speed monitoring and non-destructive techniques applicable to LASER Based Manufacturing through a self-learning system) Result description After research by the USFD it was concluded that no scientific papers for such optimization of cladding process based on prediction parameters.
 Photonics-based materials processing technologies Taxon title Photonics-based materials processing technologies
 Condition and performance monitoring Taxon description This involves advanced metrology, calibration and sensing, signal processing and model-based virtual sensing for a wide range of applications, e.g. event pattern detection, diagnostics, anomaly detection