Progettazione e Implementazione di un modulo di Power Management per Smart Environments

Progettazione ed implementazione di un modulo che gestisca il consumo di energia in uno Smart Environment, contestualizzato nell'ambito di un progetto europeo, SOFIA (Smart Object For Intelligent Applications), che ambisce ad accelerare l'integrazione di oggetti intelligenti nella vita quotidiana. Il consumo energetico da gestire e' quello di una rete di sensori; e' stato dimostrato che, riducendo le trasmissioni di dati tra sensori ed il resto della rete, le batterie durano quasi il doppio del tempo e, di conseguenza, la vita della rete e' raddoppiata, con vantaggi evidenti per l'ambiente.

Prototipazione FPGA di sottosistemi integrati per power management basati su ISA RISC-V

Fino a 15 anni fa, era possibile aumentare il numero di transistor su un singolo chip e contemporaneamente la sua frequenza di clock mantenendo la densità di potenza costante. Tuttavia dal 2004 non è più possibile mantenere invariata la potenza dissipata per unità d’area a causa di limitazioni fisiche. Al fine di aumentare le performance dei processori e di impedire una diminuzione delle frequenze di clock, i processori moderni integrano on-die dei Power Controller Subsystems (PCS) come risorsa hardware dedicata che implementa complesse strategie di gestione di temperatura e potenza. In questo progetto di tesi viene progettata l'architettura dell'interfaccia di comunicazione di ControlPULP, un PCS basato su ISA RISC-V, per la connessione verso un processore HPC. Tale interfaccia di comunicaione integra il supporto hardware per lo scambio di messaggi secondo la specifica SCMI. L'interfaccia sviluppata viene successivamente validata attraverso simulazione ed emulazione su supporto hardware FPGA. Tale supporto hardware viene inoltre utilizzato per la caratterizzazione dell'utilizzo di risorse dell'architettura progettata. Oltre allo sviluppo dell'interfaccia hardware viene sviluppato e caratterizzato un firmware per la decodifica dei messaggi SCMI conforme ai requisiti di esecuzione su un sistema real-time.

Fleet Management System for Search and Rescue Operations

Over one million people lost their lives in the last twenty years from natural disasters like wildfires, earthquakes and man-made disasters. In such scenarios the usage of a fleet of robots aims at the parallelization of the workload and thus increasing speed and capabilities to complete time sensitive missions. This work focuses on the development of a dynamic fleet management system, which consists in the management of multiple agents cooperating in order to accomplish tasks. We presented a Mixed Integer Programming problem for the management and planning of mission’s tasks. The problem was solved using both an exact and a heuristic approach. The latter is based on the idea of solving iteratively smaller instances of the complete problem. Alongside, a fast and efficient algorithm for estimation of travel times between tasks is proposed. Experimental results demonstrate that the proposed heuristic approach is able to generate quality solutions, within specific time limits, compared to the exact one.

ALMASat-1, ALMASat-EO and beyond: evolution of structural concepts and technologies towards multifunctional structures for microsatellites

Multifunctional Structures (MFS) represent one of the most promising disruptive technologies in the space industry. The possibility to merge spacecraft primary and secondary structures as well as attitude control, power management and onboard computing functions is expected to allow for mass, volume and integration effort savings. Additionally, this will bring the modular construction of spacecraft to a whole new level, by making the development and integration of spacecraft modules, or building blocks, leaner, reducing lead times from commissioning to launch from the current 3-6 years down to the order of 10 months, as foreseen by the latest Operationally Responsive Space (ORS) initiatives. Several basic functionalities have been integrated and tested in specimens of various natures over the last two decades. However, a more integrated, system-level approach was yet to be developed. The activity reported in this thesis was focused on the system-level approach to multifunctional structures for spacecraft, namely in the context of nano- and micro-satellites. This thesis documents the work undertaken in the context of the MFS program promoted by the European Space Agency under the Technology Readiness Program (TRP): a feasibility study, including specimens manufacturing and testing. The work sequence covered a state of the art review, with particular attention to traditional modular architectures implemented in ALMASat-1 and ALMASat-EO satellites, and requirements definition, followed by the development of a modular multi-purpose nano-spacecraft concept, and finally by the design, integration and testing of integrated MFS specimens. The approach for the integration of several critical functionalities into nano-spacecraft modules was validated and the overall performance of the system was verified through relevant functional and environmental testing at University of Bologna and University of Southampton laboratories.

Progetto PCB di un circuito per la gestione di micropotenze per nodi sensori energeticamente autonomi

L’obiettivo di questa tesi consiste nel progetto e nella realizzazione di un PCB (Printed Circuit Board) per la gestione di micropotenze per nodi sensori energeticamente autonomi, implementato con software di progettazione CAD. In primo luogo è affrontato il tema dell’ Energy Harvesting, sono descritte le tipologie di fonti energetiche principali previste e le prospettive future di questa nuova tecnologia. In secondo luogo sono descritti i processi e i meccanismi per la conversione dell’energia, con un particolare sguardo ai circuiti integrati per la conversione e gestione della potenza (PMIC). Successivamente vengono illustrate le fasi del progetto, basato su un PMIC commerciale: la progettazione dello schema elettrico, la scelta dei componenti (BOM - Bill of Materials) e la progettazione del layout del circuito stampato. Infine sono mostrati il processo di montaggio della scheda e i test realizzati mediante oscilloscopio insieme ad alcune stime di potenza.

Connectivity management and dynamic context grouping in mobile heterogenous systems

In the last 10 years the number of mobile devices has grown rapidly. Each person usually brings at least two personal devices and researchers says that in a near future this number could raise up to ten devices per person. Moreover, all the devices are becoming more integrated to our life than in the past, therefore the amount of data exchanged increases accordingly to the improvement of people's lifestyle. This is what researchers call Internet of Things. Thus, in the future there will be more than 60 billions of nodes and the current infrastructure is not ready to keep track of all the exchanges of data between them. Therefore, infrastructure improvements have been proposed in the last years, like MobileIP and HIP in order to facilitate the exchange of packets in mobility, however none of them have been optimized for the purpose. In the last years, researchers from Mid Sweden University created The MediaSense Framework. Initially, this framework was based on the Chord protocol in order to route packets in a big network, but the most important change has been the introduction of PGrids in order to create the Overlay and the persistence. Thanks to this technology, a lookup in the trie takes up to 0.5*log(N), where N is the total number of nodes in the network. This result could be improved by further optimizations on the management of the nodes, for example by the dynamic creation of groups of nodes. Moreover, since the nodes move, an underlaying support for connectivity management is needed. SCTP has been selected as one of the most promising upcoming standards for simultaneous multiple connection's management.

Space charge and dielectric response measurements to assess insulation aging of low-voltage cables used in nuclear power plants

The current design life of nuclear power plant (NPP) could potentially be extended to 80 years. During this extended plant life, all safety and operationally relevant Instrumentation & Control (I&C) systems are required to meet their designed performance requirements to ensure safe and reliable operation of the NPP, both during normal operation and subsequent to design base events. This in turn requires an adequate and documented qualification and aging management program. It is known that electrical insulation of I&C cables used in safety related circuits can degrade during their life, due to the aging effect of environmental stresses, such as temperature, radiation, vibration, etc., particularly if located in the containment area of the NPP. Thus several condition monitoring techniques are required to assess the state of the insulation. Such techniques can be used to establish a residual lifetime, based on the relationship between condition indicators and ageing stresses, hence, to support a preventive and effective maintenance program. The object of this thesis is to investigate potential electrical aging indicators (diagnostic markers) testing various I&C cable insulations subjected to an accelerated multi-stress (thermal and radiation) aging.