Progettazione di antenne in polarizzazione circolare per lettori portatili RFID in banda UHF

Argomento principale di questa tesi è la progettazione e la realizzazione di un’antenna che deve poter essere integrata all’interno di dispositivi portatili RFID per l’identificazione manuale di oggetti o persone (ad esempio identificazione dei pazienti, delle cartelle cliniche, di strumentazione od apparati etc.)

Anticipating the Identification of Contradictions in Eco-design Problems☆

Eco-improvement tools aim at identifying the most critical areas of a product life cycle, thanks to eco-assessment techniques like LCA. The designer is then encouraged to intervene by modifying the product or the manufacturing process characteristics. However, even a slight change of the product life cycle can seriously affect other parts of the cycle itself. Usually, this influences are hard to predict. Only an expert of LCA could effectively anticipate the major repercussions of a life cycle alteration. However, with the introduction of abridged aLCA, life cycle analysis has become a tool for the common designer, which usually doesn't have the expertise to identify the great number of interdependences involved. In these cases, the designer's efforts in reducing product environmental impacts can be ineffective or even counterproductive. This paper proposes a method and tool, called contradiction prompter, which integrates TRIZ in Life Cycle Assessment. Once environmental criticalities are defined by LCA, a set of guidelines are suggested to intervene on the product. The contradiction prompter collects a set of predefined typical contradictions that can arise when adopting a specific guideline. This can limit the typical trial and error approach and reduce the risk of ineffective redesigns. The framework has been clarified through an exemplary case study, dealing with the redesign of a moped wheel

When Two Choices Are not Enough: Balancing at Scale in Distributed Stream Processing

Carefully balancing load in distributed stream processing systems has a fundamental impact on execution latency and throughput. Load balancing is challenging because real-world workloads are skewed: some tuples in the stream are associated to keys which are significantly more frequent than others. Skew is remarkably more problematic in large deployments: more workers implies fewer keys per worker, so it becomes harder to "average out" the cost of hot keys with cold keys. We propose a novel load balancing technique that uses a heaving hitter algorithm to efficiently identify the hottest keys in the stream. These hot keys are assigned to $d \geq 2$ choices to ensure a balanced load, where $d$ is tuned automatically to minimize the memory and computation cost of operator replication. The technique works online and does not require the use of routing tables. Our extensive evaluation shows that our technique can balance real-world workloads on large deployments, and improve throughput and latency by $\mathbf{150\%}$ and $\mathbf{60\%}$ respectively over the previous state-of-the-art when deployed on Apache Storm.Comment: 12 pages, 14 Figures, this paper is accepted and will be published at ICDE 201

New developments in the synthesis of emicoron

This paper reports on the modification of two synthetic steps in the usual protocol used for obtaining EMICORON. EMICORON is a benzo[ghi]perylen-diimide, which was synthesized for the first time in our laboratory in 2012, and has shown to have in vivo antitumor activities that interferes with the tumor growth and development using a multi-target mechanism of action. The provided modifications, which involved the reaction times, the reaction conditions, and the work-up procedures, allowed the global yield of the process to be increased from 28% to about 40%. Thus, this new procedure may be more suitable for recovering higher amounts of EMICORON to be used in further preclinical studies

Digital Enablers for New Decision Journeys: Creating and Adopting Digital Touch Points – Sorgenia

The case study highlights the effort of a utility company to rethink its marketing approach reorganizing activities along the Customer Decision Journey. Main management challenges were: (A) Identifying digital enablers for CDJs while adapting the business to digital innovation; (B) Highlighting Sorgenia’s positioning as the first non-incumbent Italian energy company in an overcrowded market formerly characterized by a semi-monopolistic regime, subsequent to the market liberalization foreseen for July 2020; (C) Creating and adopting digital touchpoints to personalize the energy offers, to increase simplicity and to reinforce environmental sustainability in the long term; (D) Underlying Sorgenia’s distinctiveness as Digital Energy Company

Quantum cooling and squeezing of a levitating nanosphere via time-continuous measurements

With the purpose of controlling the steady state of a dielectric nanosphere levitated within an optical cavity, we study its conditional dynamics under simultaneous sideband cooling and additional time-continuous measurement of either the output cavity mode or the nanosphere's position. We find that the average phonon number, purity and quantum squeezing of the steady-states can all be made more non-classical through the addition of time-continuous measurement. We predict that the continuous monitoring of the system, together with Markovian feedback, allows one to stabilize the dynamics for any value of the laser frequency driving the cavity. By considering state-of-the-art values of the experimental parameters, we prove that one can in principle obtain a non-classical (squeezed) steady-state with an average phonon number $n_{\sf ph}\approx 0.5$.Comment: 10 pages, 9 figures; v2: close to published versio