Master BIM-M: entro il 20/02 le preiscrizioni

Sono aperte le preiscrizioni per l’a.a. 2019/2020 alla prima edizione del Master Universitario di II livello in “Gestione Informativa Delle Grandi Opere Civili – Building Information Modelling And Management (Bim-m), offerto nell’ambito del panorama formativo dell’Università degli Studi di Roma “Tor Vergata”.

Il Master è finalizzato alla formazione di professionisti in grado di lavorare, nel settore delle grandi opere civili, secondo le innovative metodologie di Building Information Modelling and Management (BIM-M).

É anche previsto uno specifico ambito di formazione concernente gli strumenti informatici di supporto alla implementazione del processo, inquadrati e applicati principalmente sotto il profilo dei metodi della progettazione collaborativa. Le cognizioni teoriche e tecniche aquisite saranno poi sperimentate all’interno di due specifici ambiti progettuali concernenti le infrastrutture a rete, che rappresentano la frontiera di applicazione della metodologia BIM.

Il Master si svolge mediante lezioni in aula per un monte ore totale di 415 ore articolate in 4 moduli didattici:

  1. Il ciclo delle opere civili, che oltre a fornire fornisce le cognizioni teoriche fondamentali approfondisce le tematiche connesse al Project Management, alla gara d’appalto ed alla gestione dei Big Data.
  2. Metodologie, che introduce i concetti e le metodologie della progettazione parametrica e collaborativa con la finalità di ricondurre tutte le fasi di progettazione tradizionale all’interno di un unico processo informativo, focalizzandosi sull’approccio al BIM e sull’integrazione e condivisione dei flussi di lavoro e di comunicazione.
  3. Dalla proposta all’esecuzione dell’opera, che comprende lezioni applicative relative agli strumenti software impiegati sia a livello tradizionale che in ottica di approccio collaborativo, con particolare focus sui BIM USE.
  4. Approfondimenti tematici su specifici campi di applicazione ed in particolare nell’ambito delle infrastrutture a rete

È previsto lo svolgimento di un project work o di attività di stage presso aziende private ed enti pubblici di riferimento nel settore, finalizzati all’inserimento nel mondo lavorativo. A conclusione del Master gli iscritti che abbiano superato le prove di verifica del profitto e la prova finale conseguiranno il titolo di Master Universitario di II livello in “Gestione informativa delle grandi opere civili – Building Information Modelling and Management (BIM-M)”.

Sono disponibili agevolazioni, premi e borse di studio a copertura dei costi di iscrizione.

Il termine di presentazione della domanda di ammissione è fissato per il 20 febbraio 2020.

 

Per qualsiasi informazione è possibile contattare la Segreteria Didattica del Master:  

info@bim-m.uniroma2.it

Tel: 06.7259.7296 ‐ Fax: 06.7259.7480

o consultare le nostre pagine:

https://bim-m.uniroma2.it/ 

 https://www.facebook.com/masterbimM   

https://www.linkedin.com/school/master-bim-m 

 

 

31/01 – 7/02 Seminari per il corso Affidabilità di Sistemi Digitali

Nell’ambito del corso di Affidabilità di Sistemi Digitali, erogato per il corso di laurea magistrale in Ingegneria Elettronica, il prof. Marco Ottavi (ottavi@ing.uniroma2.it) organizza un ciclo di seminari di cui viene di seguito fornita l’agenda e gli abstract

 

mercoledì  29 gennaio, ore 11:00 Sala Riunioni R2
Logica Programmabile in Sistemi Safety Critical – Progettazione, Sviluppo e Test
Relatore: Ing. Massimo Fiorelli – Neat S.r.l (seminario annullato)

venerdì 31 gennaio ore 11:00 Sala Riunioni R2
Reliability of Computing Systems in the Era of Autonomous Vehicles and Supercomputers
Relatore:  Prof. Paolo Rech –  Federal University of Rio Grande do Sul, Porto Alegre, RS, Brazil

venerdì 31 gennaio ore 14:00 Sala Riunioni R2
Fault Tolerant and Secure Embedded Systems
Relatore:  Dr. Luca Cassano –  Politecnico di Milano

martedì 4 febbraio ore 11:00 Sala Riunioni R2
Rad-hard standard cells for space applications
Relatore:  Dr. Cristiano Calligaro –  RedCat Devices Srl, Milano, Italy

venerdì 7 febbraio ore 14:30 Sala Riunioni R2
High-Performance Embedded Computing in Space
Relatore: Dr. Gianluca Furano – European Space Agency


mercoledì 29 gennaio, ore 11:00 Sala Riunioni R2

Logica Programmabile in Sistemi Safety Critical – Progettazione, Sviluppo e Test

Relatore: Ing. Massimo Fiorelli Head of firmware engineering Neat S.r.l

I sistemi safety critical sono in grado di gestire funzioni sempre più complesse e diventano sempre più importanti nella vita di tutti i giorni.
Trasporti (auto, treni, aerei), apparecchi medicali, Impianti industriali, centrali nucleari sono solo alcuni esempi di settori in cui un malfunzionamento di un sistema può avere conseguenze catastrofiche.

Le architetture di questi sistemi hanno caratteristiche comuni e prevedono normalmente più unità di elaborazione che cooperano per realizzare la funzione di sicurezza.
Ciascuna unità di elaborazione, e quindi i suoi sottosistemi HW ed il suo SW, deve rispettare una serie di vincoli e adottare una serie di tecniche standardizzate per garantire l’adeguato livello di integrità della sicurezza del sistema (SIL).

Molto frequente ormai è l’utilizzo di dispositivi programmabili (FPGA) per l’ implementazione di funzioni critiche che necessitano di tempi di risposta veloci o per il controllo di numerosi GPIO.
Per questo motivo le nuove normative pongono molta attenzione sul processo di sviluppo basati su linguaggi di descrizione dell’hardware (VHDL, Verilog). Questo seminario presenterà il ciclo di vita di sistemi safety critical che utilizzano device FPGA: definizione dei requisiti, progettazione, implementazione, test e validazione.

 

Note sul relatore
L’Ing. Massimo Fiorelli è a capo dell’ ingegneria del firmware di Neat. Fiorelli è esperto di architetture di sistemi embedded e real time basati su microprocessori e logiche programmabili.
Neat S.r.l. è specializzata nella progettazione di prodotti HW e SW per applicazioni critiche in ambito avionico/aerospazio, ferrotramviario e industriale.


Venerdì 31 Gennaio ore 14:00 Sala Riunioni R2 Fault Tolerant and Secure Embedded Systems

Speaker: Dr. Luca Cassano Politecnico di Milano

The ubiquitous employment of embedded systems in safety-/mission-critical systems but also in consumer products and the growing interest in autonomous systems, e.g., autonomous cars and drones, impose designers to meet specific reliability-related requirements. Moreover, the distributed supply-chain which is commonly adopted to reduce design costs and time-to- market exposes digital systems to a number of security-related threats.

This talk will introduce the research activities carried out at Politecnico di Milano to design innovative solutions in the area of fault tolerance and security of digital circuits and systems. The first half of the talk will present an adaptive Convolutional Neural Network-based fault management scheme for image processing applications. The second half of the talk will focus on solutions to detect the presence and the activation of Hardware Trojans into CPU-based systems.

Speaker’s short bio

Since September 2017, Dr. Luca Cassano is an assistant professor at the Department of Electronics, Informatics and Bioengineering of the Politecnico di Milano. He received his BSc, MSc and PhD from the University of Pisa. Before his current position, Luca visited the Dipartimento di Automatica e Informatica of the Politecnico di Torino and the Cognitive Interaction Technology – Center of Excellence (CITEC) of the University of Bielefeld, both in 2012. Then, he worked as a post-doctoral researcher at the Istituto di Scienza e Tecnologie dell’Informazione “A. Faedo”, National Research Council in Pisa, and the Department of Electronics, Informatics and Bioengineering, Politecnico di Milano, and then as an Associate Member of the Technical Staff at Maxim Integrated.

The research activity carried out by Dr. Luca Cassano focuses on the design of dependable and secure embedded systems with particular emphasis on: i) tools for Fault Simulation, Automatic Test Pattern Generation, Testability Analysis and Fault Diagnosis, ii) techniques for fault detection, tolerance and management, and iii) Hardware Security, mainly focusing on Hardware Trojans.


martedì 4 febbraio ore 11:00 Sala Riunioni R2

Rad-hard standard cells for space applications

Speaker: Dr. Cristiano Calligaro RedCat Devices Srl, Milano, Italy

Semiconductor components to be used in space applications have as a major constraint the need to be resilient against radiations.
Total Ionizing Dose (TID) and Single Event Effects (SEE) come from energetic particles interacting with silicon devices and produce both hard errors (Latch-up, degradation of oxides) and soft errors (bit flip of memory elements and transient propagation).

To mitigate such effects very tailored design techniques are adopted (Radiation Hardening by Design or simply RHBD) making leverage on standard and well consolidated silicon process (mainly CMOS).
In this tutorial the major effects on the interaction between charged prticles and silicon devices will be presented together with the most common techniques to make a mitigation according to the expected mission (low orbits, high orbits, deep space). Design techniques at circuit level (smart schematics) and at layout level (robust layouts) will be mentioned with a specific focus on digital building blocks (standard cells, embedded SRAMs) used for larger mixed signal ASICs (microcontrollers, core processors, imagers, DSPs).

In the last part of the tutorial some “real world” examples will be shown together with a list of the major Free Open Source (FOS) CAD tools available.

Speaker’s short bio
Cristiano Calligaro received the laurea degree in Electronic Engineering and the Ph.D. degree in Electronics and Information Engineering from the University of Pavia (Italy) in 1992 and 1997 respectively. After obtaining the Ph.D. degree he moved to MAPP Technology. In 2006 he established RedCat Devices srl as a start-up. During his career he has been involved in memory design (volatile and non-volatile) both for consumer application (multilevel flash memories) and space applications (rad-hard memories) and software design for SEE evaluation using free CAD tools (Open Circuit Design). His current research interest is focused on rad-hard libraries for mixed signal ASICs, stand-alone memories (SRAMs and NVMs) and testing methodologies for rad-hard components. He holds 20 patents mainly in the field of multilevel NVMs and is co- author of more than 50 papers and one book (Rad-hard Semiconductor Memories, River Publishers). He has been coordinator of RAMSES and ATENA projects inside the Italy-Israel Cooperation Programme, SkyFlash project in the European FP7 Programme and EuroSRAM4Space project in the Eureka Eurostars2 Programme. He is IEEE Senior Member and Eureka Euripides reviewer.


venerdì 7 febbraio ore 11:00 Sala Riunioni R2    Anticipato a venerdì 31 gennaio

Reliability of Computing Systems in the Era of Autonomous Vehicles and Supercomputers

Speaker: Prof. Paolo Rech
Federal University of Rio Grande do Sul, Porto Alegre, RS, Brazil

Reliability is one of the major concerns for both safety-critical and High-Performance Computing applications. A neutron impact can generate faults in computing devices, leading to application crashes, wrong results, and system hangs. Several evidences showed that neutron-induced faults have corrupted large-server operations, have caused unexpected behaviors in airplanes, lead to car accidents … and have even influenced politics results.

In the talk we will briefly cover the effects of neutron impact on computing systems and applications. Particular emphasis will be given to self-driven cars, which is the newest trend in the automotive industry. We will present the results of several experiments on object- detection frameworks for automotive applications and show that neutrons can effectively change the way a vehicle senses objects, potentially leading to accidents.

Lately, novel architectural solutions, such as heterogeneous computing and mixed-precision architectures, have been introduced to increase devices computational efficiency. We will discuss if and how we can take advantage of these novel architectural solutions to improve applications reliability without unnecessary overhead. Particular attention will be given to the reliability of Xilinx Field-Programmable Gate-Arrays (FPGA), Intel Xeon Phis, NVIDIA Graphics Processing Units (GPUs), ARM embedded devices, and AMD heterogeneous devices.

Speaker’s short bio
Paolo Rech received his master and Ph.D. degrees from Padova University, Padova, Italy, in 2006 and 2009, respectively. He was then a Post Doc at LIRMM in Montpellier, France. Since 2012 Paolo is an associate professor at UFRGS in Brazil. He is the 2019 Rosen Scholar Fellow at the Los Alamos National Laboratory and he is actively collaborating with major research centers as Jet Propulsion Laboratory and Rutherford Appleton Laboratory as well as silicon industries as NVIDIA, AMD, and ARM. His main research interests include the evaluation and mitigation of radiation-induced effects in large-scale HPC centers and in autonomous vehicles for automotive applications and space explorations.


venerdì 7 febbraio ore 14:30 Sala Riunioni R2 High-Performance Embedded Computing in Space

Speaker: Dr. Gianluca Furano European Space Agency

Future missions, such as active debris removal for cleaning up the low Earth orbit environment, will rely on novel high-performance avionics to support advanced image processing algorithms with substantial workloads. However, when designing new avionics architectures, constraints relating to the use of electronics in space present great challenges, further exacerbated by the need for significantly faster processing compared to conventional space-grade central processing units. With the long-term goal of designing high performance embedded computers for space, in this seminar, an extended study and tradeoff analysis of a diverse set of computing platforms and architectures (i.e., central processing units, multicore digital signal processors, graphics processing units, and field-programmable gate arrays, AI accelerators) will be presented.

Speaker’s short bio
Gianluca Furano, works in European Space Agency’s in Data System Division in March 2003. He is in charge for research and development activities and for supporting ESA projects and missions in the field of spacecraft data systems and the related architectures.
Among’s Gianluca interest are in ESA are on-board computers and their major components, such as microprocessors and support components, meeting very stringent requirements in terms of radiation tolerance, reliability, availability, and safety; key avionics building blocks such as platform mass memories, remote terminal units, on-board buses and data networks; on-board and space to ground data communication protocols including protocol security aspects.
Gianluca also provides support to European standardisation (CCSDS, ECSS) in areas such as telemetry, telecommand and on-board data, wireless and monitoring & control interfaces.

29/01 – 28/02: Seminari per la Ph.D. School in Electronic Engineering

Prende il via il 29 gennaio una serie di seminari organizzati dal prof. Gaspare Galati del dipartimento di Ingegneria Elettronica, per la Ph.D. School in Electronic Engineering.

Qui di seguito il calendario, l’abstract degli argomenti e le bio dei relatori

29/01 – Learning in the 5G Edge Cloud
4/02 – Animal Monitoring by Wireless Sensor Network with Experiments in Galapagos (Ecuador)
28/02 – The Redefinition of the International System of Units

 

Mercoledì 29/01 dalle ore 15:00 alle ore 17:00 presso l’Università degli Studi di Roma TOR VERGATA Facoltà di Ingegneria – Via del Politecnico, 1 – Aula B15 – Nuovo Edificio Didattico

Il Prof. Sergio Barbarossa di Sapienza università di Roma terrà un seminario organizzato dal Prof. Gaspare Galati per la Ph.D. School in Electronic Engineering – DIE – Tor Vergata University su:

Learning in the 5G Edge Cloud

Abstract: In this talk, we will start reviewing the basic motivations and enabling technologies underlying 5G networks. Then we will focus on the mobile edge cloud architecture and motivate the need for a holistic view of communication, computation and caching to meet stringent service delay constraints. We will present adaptive computation and communication scheduling mechanisms based on stochastic optimization, running in an environment affected by various sources of uncertainty. Finally, we will present various learning techniques, with a specific attention to methods based on topological representations able to capture multiway relations among the data.

Sergio Barbarossa:

Sergio Barbarossa is a Full Professor at Sapienza University of Rome and a Senior Research Fellow of the Sapienza School for Advanced Studies. After graduating at Sapienza Univ. of Rome, he worked with Selenia SpA from 1984 to 1986. He has held several visiting positions at the Environmental Research Institute of Michigan (’88), Univ. of Virginia (’95, ‘97), Univ. of Minnesota (’99). He is an IEEE Fellow, a EURASIP Fellow and he served as an IEEE Distinguished Lecturer. He received the 2010 Technical Achievements Award from the EURASIP society for his contributions on radar, communication and networks. He won the IEEE Best Paper Awards from the IEEE Signal Processing Society for the years 2000 and 2014. He has been the scientific coordinator of several European projects on wireless sensor networks, small cell networks, and distributed mobile cloud computing. He is currently one of the PI’s of the H2020 EU/Taiwan Project 5G-Conni, targeting the development of 5G private networks for Industry 4.0. His research interests include topological signal processing, graph-based machine learning algorithms, stochastic optimization, 5G networks and mobile edge computing.


il Dr. Pierpaolo Loreti, il Dr. Lorenzo Bracciale, il Dr. Gabriele Gentile

dell’Università degli Studi di Roma TOR VERGATA terranno un seminario organizzato dal Prof. Gaspare Galati per la Ph.D. School in Electronic Engineering – DIE – Tor Vergata University il giorno martedì 4/02 dalle ore 14:00 alle ore 16:00 presso l’Università degli Studi di Roma TOR VERGATA Facoltà di Ingegneria – Via del Politecnico, 1 – Aula B15 – Nuovo Edificio Didattico su:

Animal Monitoring by Wireless Sensor Network with Experiments in Galapagos (Ecuador)

Abstract: The design of wireless sensor nodes for animal tracking is a multidisciplinary activity that presents several research challenges from both technical and biological point of views. A monitoring device has to be designed accounting for all system requirements including the specific characteristics of animals and environment. In this talk we present some aspects of the design of the wireless sensor node to track and monitor the pink iguana: a recently discovered species living in remote locations at the Galapagos Islands. The few individuals of this species live in a relatively small area that lacks of any available communication infrastructure. We present and discuss the energy harvesting architecture and the related energy management logic. We also discuss the impact of packaging on the sensor performance and the consequences of the limited available energy on the GPS tracking. We also present the new results coming from 20 devices installed on wild pink and yellow Iguanas in September 2019 and whose operation is planned for one year.

Pierpaolo Loreti:

Pierpaolo Loreti is Researcher in Telecommunications at the University of Roma Tor Vergata. Since 2006 he has been a Researcher of the Dep. of Electronic Engineering and an Adjunct Professor at the Internet Engineering Course at the University of Rome Tor Vergata. Since 1998 he has worked on several European and national projects performing research and coordination activities. His research activity spans different topics in the areas of wireless and mobile networks, IoT systems and platforms, framework design, analytic modelling, performance evaluation through simulation and test-bedding.

Lorenzo Bracciale:

Lorenzo Bracciale, Ph.D. is a Researcher at the University of Tor Vergata since June 2013 in the Department of Electronic Engineering where he currently teaches “Computer Science Fundamentals”. He published his works on more than 22 international peer-reviewed conferences, 6 journals, and wrote three book chapters. He served as a reviewer on many conferences and journals, among which “Transactions on wireless communications” and “Transaction on Networking”. His current research interests are in the field of IoT systems and data privacy.

Gabriele Gentile:

Gabriele Gentile received his Ph.D. degree “with distinction” in evolutionary biology in 1994. From 1998 to 2003, he was at the Osborn Memorial Laboratory of Yale University, New Haven, CT, USA. Since 2003, he is based at the Department of Biology, University Tor Vergata, Rome, Italy. He is Member of IUCN, Iguana Specialist Group, and a Council Member of the Italian Society for Evolutionary Biology. He is interested in molecular phylogeny and phylogeography, molecular evolution, population genetics, conservation genetics, ecology and evolution of underground communities, and island biogeography. Since 2003, he has been the head of an international and multidisciplinary project for the study of the evolution and conservation of land iguanas in Galapagos Islands (Ecuador) in partnership with the Galápagos National Park and in collaboration with several Italian and foreign institutions.


Venerdì 28/02 dalle ore 10:00 alle ore 12:30 presso l’Università degli Studi di Roma TOR VERGATA Facoltà di Ingegneria – Via del Politecnico, 1 – Aula B15 – Nuovo Edificio Didattico

Il Dr. Luca Callegaro

dell’ Istituto Nazionale di Ricerca Metrologica (INRIM) terrà un seminario organizzato dal Prof. Gaspare Galati per la Ph.D. School in Electronic Engineering – DIE – Tor Vergata University su:

The Redefinition of the International System of Units

Abstract: The International System of units (SI) is the basis of modern day measurements. In the SI currently in force, base units are defined in very different ways; the kilogram is defined as the mass of a single object, the international prototype – a cylinder of platinum-iridium alloy manufactured in 1889. The prototype is unique, at risk of damaging, nearly inaccessible (only about every 40 years) and there is some evidence of a change in its mass. On 16 November 2018 the General Conference of Weights and Measures has approved a major redefinition of the SI. All the seven base units are defined in terms of a fundamental constant of nature, which will have an exact value. It will be possible to realize the units everywhere and every time, by probing with experiments these fundamental constants. Electrical units are defined in terms of the elementary charge e and the Planck constant h; it will be possible to realize the volt, ohm and ampere by quantum experiments in solid-state devices. The kilogram, redefined in terms of the Planck constant h, is realized by counting atoms in a silicon sphere, or linking it to the quantum realization of the electrical power unit, the watt. The redefinition entered into force on May 20th, 2019.

Luca Callegaro:

Luca Callegaro holds a degree in Electronic Engineering (1992) and a Ph. D. in Physics (1996), both from Politecnico di Milano. He joined the Istituto Nazionale di Ricerca Metrologica, INRIM in Torino in 1996. His research interests are focused on electrical impedance; he is responsible of the Italian National standards of electrical impedance. He is chairman of the Technical Committee for Electricity and Magnetism (TC-EM) of EURAMET, the European Association of National Metrology Institutes. He is author of over 90 papers on international reviews and of the book “Electrical impedance: principles, measurement and applications”.

Master MIS in convenzione col Conservatorio Santa Cecilia. Prorogati al 24/01 i termini per l’iscrizione

C’è tempo fino a venerdì 24 gennaio per iscriversi al Master di Ingegneria  del Suono e dello Spettacolo : la procedura di pre-iscrizione è necessaria ma non vincolante all’immatricolazione finale. QUI è possibile trovare la modulistica necessaria per l’iscrizione. Da quest’anno poi l’offerta formativa risulta fortemente arricchita grazie alla convenzione tra il Conservatorio Santa Cecilia di Roma e l’ateneo, siglata recentemente, al fine di estendere le collaborazioni già attive.

Il master in Ingegneria del Suono e dello Spettacolo e il corrispondente Corso di Formazione in Tecniche della Ingegneria del Suono e dello Spettacolo sono un’intensa esperienza di carattere tecnico-scientifico-operativo per imparare tecniche di fonia, recording, sound design, mixing, restauro sonoro, mastering, tecnologie della composizione di musica per videogiochi (nuovo; solo Master), sintesi sonora, post produzione audiovisiva, doppiaggio e altro ancora.

 
Lo staff del Master, coordinato dal prof. Marco Re del dipartimento di Ingegneria Elettronica, si propone di formare profili di personale avanzato in grado di dare soluzione ai problemi che nascono nell’ambito dell’ingegneria del suono e del mondo dello spettacolo sia da un punto di vista tecnico scientifico che artistico.

 

Vi porteremo per mano in un intenso programma tecnico scientifico riguardante le tecnologie per il suono e lo spettacolo, guidati da docenti che sono riconosciuti esperti del settore provenienti dal Dipartimento di Ingegneria Elettronica  della Università Tor Vergata, dal Conservatorio di Santa Cecilia, e da prestigiosi studi di registrazione, quali i Forward Studios di Grottaferrata sede delle attività pratiche.

 
Precedute da pre-corsi di ripasso, le lezioni hanno a inizio febbraio 2020.

Prorogata al 16/12 la possibilità di iscriversi al Master Geo-GST

 

Prorogato al 16/12 il temine per le iscrizioni al master Geo-GST, il Master Universitario di II livello in “ Geospatial Science & Technology – GEO- G.S.T.”

Per tutte le informazioni sull’offerta didattica del master giunto alla sua decima edizione, è possibile leggere QUI.