Gesture based IoT light control for smart clothing

In this paper, a smart wireless wristband is proposed. The potential of innovative gesture based interactivity with connected lighting solutions is reviewed. The solution is intended to offer numerous benefits, in terms of ease of use, and enhanced dynamic interactive functionality. A comparative analysis will be carried out between this work and existing solutions. The evolution of lighting and gesture controls will be discussed and an overview of alternative applications will be provided, as part of the critical analysis.

Towards a smart semi-active prosthetic leg: preliminary assessment and testing

This paper presents a development of a semi-active prosthetic knee, which can work in both active and passive modes based on the energy required during the gait cycle of various activities of daily livings (ADLs). The prosthetic limb is equipped with various sensors to measure the kinematic and kinetic parameters of both prosthetic limbs. This prosthetic knee is designed to be back-drivable in passive mode to provide a potential use in energy regeneration when there negative energy across the knee joint. Preliminary test has been performed on transfemoral amputee in passive mode to provide some insight to the amputee/prosthesis interaction and performance with the designed prosthetic knee.

Fully smart cities: Analysis of the city to Smart City transformation process

Ever since the birth of the Smart City paradigm, a wide variety of initiatives have sprung up involving this phenomenon: best practices, projects, pilot projects, transformation plans, models, standards, indicators, measuring systems, etc. The question to ask, applicable to any government official, city planner or researcher, is whether this effect is being felt in how cities are transforming, or whether, in contrast, it is not very realistic to speak of cities imbued with this level of intelligence. Many cities are eager to define themselves as smart, but the variety, complexity and scope of the projects needed for this transformation indicate that the change process is longer than it seems. If our goal is to carry out a comparative analysis of this progress among cities by using the number of projects executed and their scope as a reference for the transformation, we could find such a task inconsequential due to the huge differences and characteristics that define a city. We believe that the subject needs simplification (simpler, more practical models) and a new approach. This paper presents a detailed analysis of the smart city transformation process in Spain and provides a support model that helps us understand the changes and the speed at which they are being implemented. To this end we define a set of elements of change called "transformation factors" that group a city's smartness into one of three levels (Low/Medium/Fully) and more homogeneously identify the level of advancement of this process. © 2016 IEEE.

Smart specialisering inom kunskapsområdet energieffektivt samhällsbyggande

Syftet med rapporten är att utgöra underlag för Dalarnas strategi för smart specialisering inom energiområdet, vilken görs enligt den europeiska modellen framarbetad av Sevilla-plattformen; Regional Forsknings- och Innovationsstrategi (RIS3). Rapporten motsvarar enligt denna modell steg 5 i processen. Rapporten ger svar på om kunskapsområdet Energieffektivt samhällsbyggande kan kvalificera sig för att vara ett prioriterat område för smart specialisering i Dalarna och lämnar förslag på hur en öppen innovationsarena inom kunskapsområdet kan organiseras. Förslag lämnas på roller och funktioner för respektive organisation inom innovationssystemet, däribland Högskolan.  EUs strategi för tillväxt och jobb ”EU 2020 – Smart och hållbar tillväxt för alla” kopplar samman tillväxt och lösningen av samhällsutmaningar. I strategin ingår att styra alla befintliga verktyg i strategins riktning, vilket innebär skärpta krav på att jobba enligt strategin om man vill komma åt stöd från olika finansiella program. EUs flaggskepp ”Innovationsunionen” framhåller att konkurrenskraft och tillväxt är beroende av innovation inom produkter, tjänster, handel och samhällsmässiga processer och modeller. För att lyckas med detta behöver varje europeisk region analysera och fokusera på sina starkaste områden. EUs program för forskning och innovation Horizon 2020 ställer krav på nyttiggörande av forskning och samverkan med omgivande samhälle, varför ökad företagssamverkan behövs. Dalarnas satsning på smart specialisering inom området Energieffektivt samhällsbyggande stöds av såväl nationella som regionala innovationsstrategin, Dalarnas regionala utvecklingsstrategi, Norra Mellansveriges strukturfondsprogram, m fl programskrivningar. Kunskapsområdet energieffektivt samhällsbyggande spänner över ett brett område där allt från energiproduktion och energiöverföring till energins användning ingår. Ordet samhälle i namnet för kunskapsområdet markerar att det omfattar mer än byggande av hus. Det är energieffektiviteten som är den samlande faktorn. En vision för kunskapsområdet finns redan beslutad i Dalarnas energi- och klimatstrategi.  Analysen av spetskompetens visar att det finns förutsättningar att hävda eller utveckla excellens och nå tillväxt inom flera områden inom energieffektivt samhällsbyggande, däribland elöverföring, smarta elnät, energisystem, solenergi, energieffektivt byggande och IT-transportlösningar. Dock saknas i flera fall dokumentation av hur olika verksamheter och spetskompetenser befinner sig i jämförelse med andra. Baserat på analysen konstateras att Energieffektivt samhällsbyggande kvalificerar sig för att vara ett prioriterat område för smart specialisering i Dalarna. I rapporten kartläggs och beskrivs alla aktörer inom kunskapsområdet. Tillsammans täcker de in de flesta delar av energiomställningen och innovationssystemet, uppbackat av ett starkt regionalt ledarskap och Dalarna som Pilotlän för grön utveckling. En ingående funktionsanalys av innovationssystemet inom kunskapsområdet identifierar några brister som föreslås lösas.  Förslag lämnas på alla berörda aktörers roller och funktioner i innovationssystemet, där klustren förväntas ta en nyckelroll i att generera idéflöden och implementera innovationer. Högskolan Dalarna ges en central roll i specialiseringen inom energiområdet och föreslås inneha både ett energikompetenscentrum och ett innovationscenter. En öppen innovationsarena kan skapas av de tre FoI-miljöerna byggande, smarta elnät och IT i transportsektorn. Rapporten föreslår innovationsarenans arbetssätt och verksamhet.

I-Smart Date Entry User Guide, May 2015

I-SMART is an Internet-based client management system that allows the State of Iowa and its licensed substance abuse treatment providers to administer, manage and provide cost efficient and quality substance abuse assessment and treatment services. Implementation of the I-SMART System is a key product in meeting the federal government requirements for National Outcome Monitoring System (NOMS).

Classi cation of new electricity customers based on surveys and smart metering data

This paper proposes a process for the classifi cation of new residential electricity customers. The current state of the art is extended by using a combination of smart metering and survey data and by using model-based feature selection for the classifi cation task. Firstly, the normalized representative consumption profi les of the population are derived through the clustering of data from households. Secondly, new customers are classifi ed using survey data and a limited amount of smart metering data. Thirdly, regression analysis and model-based feature selection results explain the importance of the variables and which are the drivers of diff erent consumption profi les, enabling the extraction of appropriate models. The results of a case study show that the use of survey data signi ficantly increases accuracy of the classifi cation task (up to 20%). Considering four consumption groups, more than half of the customers are correctly classifi ed with only one week of metering data, with more weeks the accuracy is signifi cantly improved. The use of model-based feature selection resulted in the use of a signifi cantly lower number of features allowing an easy interpretation of the derived models.

Smart mail – a smart platform for mail management

Email is a key communication format in a digital world, both for professional and/or personal usage. Exchanged messages (both human and automatically generated) have reached such a volume that processing them can be a great challenge for human users that try to do it on a daily basis and in an efficient manner. In fact, a significant amount of their time is spent searching and getting context information (normally historic information) in order to prepare a reply message or to take a decision/action, when compared to the actual time required for writing a reply. Therefore, it is of utmost importance for this process to use both automatic and semi-automatic mechanisms that allow to put email messages into context. Since context information is given, not only by historical email messages but also inferred from the relationship between contacts and/or organizations present in the messages, the existence of navigation mechanisms (and even exploration ones) between contacts and entities associated to email messages, is of fundamental importance. This is the main purpose of the SMART Mail prototype, which architecture, data visualization and exploration components and AI algorithms, are presented throughout this paper.

Enabling Human Centric Smart Campuses via Edge Computing and Connected Objects

Early definitions of Smart Building focused almost entirely on the technology aspect and did not suggest user interaction at all. Indeed, today we would attribute it more to the concept of the automated building. In this sense, control of comfort conditions inside buildings is a problem that is being well investigated, since it has a direct effect on users’ productivity and an indirect effect on energy saving. Therefore, from the users’ perspective, a typical environment can be considered comfortable, if it’s capable of providing adequate thermal comfort, visual comfort and indoor air quality conditions and acoustic comfort. In the last years, the scientific community has dealt with many challenges, especially from a technological point of view. For instance, smart sensing devices, the internet, and communication technologies have enabled a new paradigm called Edge computing that brings computation and data storage closer to the location where it is needed, to improve response times and save bandwidth. This has allowed us to improve services, sustainability and decision making. Many solutions have been implemented such as smart classrooms, controlling the thermal condition of the building, monitoring HVAC data for energy-efficient of the campus and so forth. Though these projects provide to the realization of smart campus, a framework for smart campus is yet to be determined. These new technologies have also introduced new research challenges: within this thesis work, some of the principal open challenges will be faced, proposing a new conceptual framework, technologies and tools to move forward the actual implementation of smart campuses. Keeping in mind, several problems known in the literature have been investigated: the occupancy detection, noise monitoring for acoustic comfort, context awareness inside the building, wayfinding indoor, strategic deployment for air quality and books preserving.

Implications of Blockchain-Based Smart Contracts on Contract Law

Smart contracts are the most advanced blockchain applications. They can also be used in the contractual domain for the encoding and automatic execution of contract terms. Smart contracts already existed before the blockchain, but they take advantage of the characteristics of that technology. Namely, the decentralised and immutable characters of the blockchain determine that no single contracting party can control, modify, or interrupt the execution of smart contracts. As every new phenomenon, blockchain-based smart contracts have attracted the attention of institutions. For example, in its Resolution of 3 October 2018 on distributed ledger technologies and blockchain, the European Parliament has stressed the need to undertake an in-depth assessment of the legal implications,starting from the analysis of existing legal frameworks. Indeed, the present research thesis aims to verify how blockchain-based smart contracts fit into contract law. To this end, the analysis starts from the most discussed and relevant aspects and develops further considerations. Before that, it provides a detailed description and clarifications about the characteristics, the functioning, and the development of the technology, which is an essential starting point for a high-level quality legal analysis. It takes into considerations already existing rules concerning the use of technology in the life cycle of contracts, from vending machines to computable contracts, and verifies its applicability to blockchain-based smart contracts. The work does not limit to consider the mere technology, but some concrete scenarios of adoption of blockchain-based smart contracts in the contractual domain. Starting from the latter, it focuses on the implications of blockchain-based smart contracts on contract formation, contract performance, and applicable law and jurisdiction.

Colocated multiple-input multiple-output radars for smart mobility

In recent years, radars have been used in many applications such as precision agriculture and advanced driver assistant systems. Optimal techniques for the estimation of the number of targets and of their coordinates require solving multidimensional optimization problems entailing huge computational efforts. This has motivated the development of sub-optimal estimation techniques able to achieve good accuracy at a manageable computational cost. Another technical issue in advanced driver assistant systems is the tracking of multiple targets. Even if various filtering techniques have been developed, new efficient and robust algorithms for target tracking can be devised exploiting a probabilistic approach, based on the use of the factor graph and the sum-product algorithm. The two contributions provided by this dissertation are the investigation of the filtering and smoothing problems from a factor graph perspective and the development of efficient algorithms for two and three-dimensional radar imaging. Concerning the first contribution, a new factor graph for filtering is derived and the sum-product rule is applied to this graphical model; this allows to interpret known algorithms and to develop new filtering techniques. Then, a general method, based on graphical modelling, is proposed to derive filtering algorithms that involve a network of interconnected Bayesian filters. Finally, the proposed graphical approach is exploited to devise a new smoothing algorithm. Numerical results for dynamic systems evidence that our algorithms can achieve a better complexity-accuracy tradeoff and tracking capability than other techniques in the literature. Regarding radar imaging, various algorithms are developed for frequency modulated continuous wave radars; these algorithms rely on novel and efficient methods for the detection and estimation of multiple superimposed tones in noise. The accuracy achieved in the presence of multiple closely spaced targets is assessed on the basis of both synthetically generated data and of the measurements acquired through two commercial multiple-input multiple-output radars.

Measurement and simulation of conducted disturbances on DC power grids of a HVDC system with an active DC/DC converter

With the increasing of the distributed generation, DC microgrids have become more and more common in the electrical network. To connect devices in a microgrid, converter are necessary, but they are also source of disturbances due to their functioning. In this thesis, measurement and simulation of conducted emissions, within the frequency range 2-150kHz, of a DC/DC buck converter are studied.

Caratterizzazione dei consumi idropotabili da tecnologia smart meter - Analisi delle utenze turistiche di Rapallo

La risorsa idrica, nel nostro territorio, è sottoposta a diversi fattori avversi che inficiano fortemente la sua disponibilità. Le cause di maggiore impatto hanno natura climatica o antropica. Tra queste il consumo idropotabile collegato al turismo in particolari contesti può comportare un eccessivo sfruttamento delle fonti idriche e un sovraccarico sulla rete di distribuzione. Lo studio pone l'attenzione sul Comune di Rapallo, ne analizza la domanda idropotabile di alcune strutture ricettive e ne determina caratteristiche comuni su cui basare future valutazioni sulla pianificazione delle infrastrutture e la realizzazione di modelli idraulici. A fondamenta dello studio, è stata effettuata un'analisi climatica dell'area, al fine di determinare la tipologia e la mole di turismo che caratterizza la zona; gli strumenti che lo hanno permesso sono principalmente le stazioni pluviometriche site a Rapallo e nelle aree limitrofe. Successivamente, sono stati ricavati i consumi idropotabili dei grandi utenti, delle strutture recettive e degli stabilimenti balneari dell'area di studio per il biennio 2016-2017. Questi dati sono stati poi correlati ai vari servizi offerti dagli alberghi. Lo studio si è soffermato su una utenza sportivo ricreativa, valutandone il consumo e il suo impatto sul triennio 2018-2020. Inoltre, l’installazione da parte di IREN S.p.A., di smart meter presso 11 strutture alberghiere ha reso disponibili informazioni sul consumo idropotabile ad intervalli inferiori all’ora ed è stato quindi possibile effettuare un'analisi di dettaglio sulla variabilità temporale del consumo negli alberghi. Sono emerse alcune analogie tra strutture simili per servizi offerti e differenze giornaliere nei periodi analizzati, riconducibili anche alla stagionalità che caratterizza le utenze turistiche.

Wireless Power Link Design for Both High-Power Inductive Coupling and Smart Metasurfaces Exploitation

As future technologies are going to be autonomous under the umbrella of the Internet of things (IoT) we can expect WPT to be the solution for intelligent devices. WPT has many industrial and medical applications both in the near-field and far-field domains. Considering the impact of WPT, this thesis is an attempt to design and realize both near-field and far-field WPT solutions for different application scenarios. A 27 MHz high frequency inductive wireless power link has been designed together with the Class-E switching inverter to compensate for the efficiency loss because of the varying weak coupling between transmitter and receiver because of their mutual misalignment. Then a system of three coils was introduced for SWIPT. The outer coil for WPT and the inner two coils were designed to fulfil the purpose of communication and testing, operating at frequencies different from the WPT coil. In addition to that, a trapping filter technique has also been adopted to ensure the EM isolation of the coils. Moreover, a split ring resonator-based dual polarization converter has been designed with good efficiency over a wide frequency range. The gap or cuts have been introduced in the adjacent sides of the square ring to make it a dual-polarization converter. The converter is also stable over a wide range of incident angles. Furthermore, a meta-element based intelligent surface has been designed to work in the reflection mode at 5 GHz. In this research activity, interdigital capacitors (IDCs) instead of ICs are introduced and a thin layer of the HfZrO between substrate and meta elements is placed whose response can be tuned and controlled with the applied voltage to achieve IRS.

Smart Textile Sensors for Healthcare Monitoring

Wearable electronic textiles are an emerging research field playing a pivotal role among several different technological areas such as sensing, communication, clothing, health monitoring, information technology, and microsystems. The possibility to realise a fully-textile platform, endowed with various sensors directly realised with textile fibres and fabric, represents a new challenge for the entire research community. Among several high-performing materials, the intrinsically conductive poly(3,4-ethylenedioxythiophene) (PEDOT), doped with poly(styrenesulfonic acid) (PSS), or PEDOT:PSS, is one of the most representative and utilised, having an excellent chemical and thermal stability, as well as reversible doping state and high conductivity. This work relies on PEDOT:PSS combined with sensible materials to design, realise, and develop textile chemical and physical sensors. In particular, chloride concentration and pH level sensors in human sweat for continuous monitoring of the wearer's hydration status and stress level are reported. Additionally, a prototype smart bandage detecting the moisture level and pH value of a bed wound to allow the remote monitoring of the healing process of severe and chronic wounds is described. Physical sensors used to monitor the pressure distribution for rehabilitation, workplace safety, or sport tracking are also presented together with a novel fully-textile device able to measure the incident X-ray dose for medical or security applications where thin, comfortable, and flexible features are essential. Finally, a proof-of-concept for an organic-inorganic textile thermoelectric generator that harvests energy directly from body heat has been proposed. Though further efforts must be dedicated to overcome issues such as durability, washability, power consumption, and large-scale production, the novel, versatile, and widely encompassing area of electronic textiles is a promising protagonist in the upcoming technological revolution.