Analysis of the state of the art of the biofabrication strategies for the regeneration of the myotendinous junction

La giunzione miotendinea (MTJ) è una struttura anatomica specializzata che collega il muscolo al tendine. La sua funzione è quella di permettere la trasmissione della forza generata dal muscolo al tendine, permettendo il movimento. Essendo una struttura di interfaccia che funge da raccordo tra due tipi di tessuti molto differenti, tende a risentire di una forte concentrazione di tensione, questo la rende fortemente suscettibile a rottura. Le tecniche ad oggi utilizzare per riparare lesioni alla MTJ risultano inadatte ad una completa ed ottimale ripresa meccanica. Al fine di trovare una soluzione a questo problema, l’ingegneria tissutale sta lavorando alla fabbricazione di strutture tridimensionali che siano in grado di imitare al meglio la struttura nativa della MTJ. Le tecniche utilizzate per la produzione di tali strutture sono, principalmente, stampa 3D ed elettrofilatura. Il vantaggio di queste tecniche è la loro elevata risoluzione, che permette di controllare finemente l’architettura di tali strutture artificiali. Nella seguente tesi verrà presentato lo stato dell’arte sulle tecniche utilizzate per la fabbricazione di scaffolds per la rigenerazione della MTJ, soffermandosi in particolare sui metodi di fabbricazione e sulle prestazioni morfologiche, meccaniche e cellulari effettuando un confronto tra i diversi studi che se ne sono occupati, individuandone punti di forza, debolezze e possibili studi futuri che potranno essere effettuati su tali scaffolds. In questo modo, sarà possibile rendersi conto di quale di queste tecniche risulti essere più promettente per il futuro.

Development of Software Tools for the Test of Ultra Wide Band Receivers

In the last years, the importance of locating people and objects and communicating with them in real time has become a common occurrence in every day life. Nowadays, the state of the art of location systems for indoor environments has not a dominant technology as instead occurs in location systems for outdoor environments, where GPS is the dominant technology. In fact, each location technology for indoor environments presents a set of features that do not allow their use in the overall application scenarios, but due its characteristics, it can well coexist with other similar technologies, without being dominant and more adopted than the others indoor location systems. In this context, the European project SELECT studies the opportunity of collecting all these different features in an innovative system which can be used in a large number of application scenarios. The goal of this project is to realize a wireless system, where a network of fixed readers able to query one or more tags attached to objects to be located. The SELECT consortium is composed of European institutions and companies, including Datalogic S.p.A. and CNIT, which deal with software and firmware development of the baseband receiving section of the readers, whose function is to acquire and process the information received from generic tagged objects. Since the SELECT project has an highly innovative content, one of the key stages of the system design is represented by the debug phase. This work aims to study and develop tools and techniques that allow to perform the debug phase of the firmware of the baseband receiving section of the readers.

Philosophy of quantum field theory: an introduction with interviews and comments

In this thesis, I address quantum theories and specifically quantum field theories in their interpretive aspects, with the aim of capturing some of the most controversial and challenging issues, also in relation to possible future developments of physics. To do so, I rely on and review some of the discussions carried on in philosophy of physics, highlighting methodologies and goals. This makes the thesis an introduction to these discussions. Based on these arguments, I built and conducted 7 face-to-face interviews with physics professors and an online survey (which received 88 responses from master's and PhD students and postdoctoral researchers in physics), with the aim of understanding how physicists make sense of concepts related to quantum theories and to find out what they can add to the discussion. Of the data collected, I report a qualitative analysis through three constructed themes.

Robotic grasping: State of the art and modular real-world implementation

Robotic Grasping is an important research topic in robotics since for robots to attain more general-purpose utility, grasping is a necessary skill, but very challenging to master. In general the robots may use their perception abilities like an image from a camera to identify grasps for a given object usually unknown. A grasp describes how a robotic end-effector need to be positioned to securely grab an object and successfully lift it without lost it, at the moment state of the arts solutions are still far behind humans. In the last 5–10 years, deep learning methods take the scene to overcome classical problem like the arduous and time-consuming approach to form a task-specific algorithm analytically. In this thesis are present the progress and the approaches in the robotic grasping field and the potential of the deep learning methods in robotic grasping. Based on that, an implementation of a Convolutional Neural Network (CNN) as a starting point for generation of a grasp pose from camera view has been implemented inside a ROS environment. The developed technologies have been integrated into a pick-and-place application for a Panda robot from Franka Emika. The application includes various features related to object detection and selection. Additionally, the features have been kept as generic as possible to allow for easy replacement or removal if needed, without losing time for improvement or new testing.