The lab is committed to the Research and development of an ultralight drift chamber as the main tracking device of an experiment at future leptonic colliders, designed to provide efficient tracking, high precision momentum measurement and excellen
The lab is committed to the Research and development of an ultralight drift chamber as the main tracking device of an experiment at future leptonic colliders, designed to provide efficient tracking, high precision momentum measurement and excellen
• Smart instruments for measurements on components and systems
• Development of measuring system for health monitoring and wearable sensors
• Analysis of biomedical signal
• Medical image processing
Progettazione di convertitori di potenza per uso avionico;
Caratterizzazione di dispositivi di potenza;
Progettazione e validazione di algoritmi di controllo per convertitori di potenza multilivello
Progettazione di convertitori di potenza per uso avionico;
Caratterizzazione di dispositivi di potenza;
Progettazione e validazione di algoritmi di controllo per convertitori di potenza multilivello
The lab has long been involved in the development and characterization of multichannel integrated circuits for read-out of solid-state detectors and sensors for high energy physics and medical imaging.
The Computer numerical control machines laboratory was founded in 1999. It is part of the scientific area of Manufacturing Systems and Technologies ING-IND/16.
The Microtronic laboratory, operating in the scientific area of Manufacturing systems and technologies (ING-IND/16), is part of the Microtronic network of laboratories.
The research activities are oriented to the analysis and the study of new methodologies for AM and RE implementation. In AM field, new chemical treatments for surface finishing have been developed.
Use of AM technologies in soft robotics field by replacing traditional manufacturing approaches
Manufacturing of sensors, smart objects and sensor systems by means of AM technologies
Microfluidic applications