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DRIMI COURSES – 2020
Technical writing
Alberto Borboni DIMI December- May hrs: 24 Language: Italian
(December) English (May)
This course is designed for both student and professional
engineers. It will teach you the technical report writing skills
you need to tackle everything from a two-page document to a PhD
thesis. As such, it will be applicable for the entirety of your
engineering degree or career.
- Explain what a good technical engineering report is and what
they are used for.
- Evaluate what a good report looks like. - Use a technical
report to communicate information - Apply knowledge of what goes
into the key sections of a report to produce
your own report. https://forms.gle/ZQEG4YhpNRxFUDBh6
Perfecting your "Elevator Pitch" Mariasole Bannò DIMI from
November to May hrs: Language: Italian/English
Purpose of Doctorate is not only to provide technical knowledge,
but to transfer a method to solve new and different problems.
Numerous studies have raised serious concerns about widening the
gap between graduate skills and the needs of the job market in an
increasingly globalized society. Same concern is found in the
European 2020 Strategy. Arts-based methods aim to teach through
mechanisms in which the use of art reach hidden knowledge that are
difficult to achieve through logic and simple rational thought. Art
helps to broaden the vision of real problem and this implies the
acquisition of many different non-technical skills. When using
Theatre Teaches the major skills concern the cognitive ones. there
is a significant potential to improve students’ communicative
competencies through theatre creativity. The final output of the
course is to perfect students’ elevator pitch. Elevator pitch is a
slang term used to describe a brief speech that outlines an idea
for a product, service or project. The name comes from the notion
that the speech should be delivered in the short time period of an
elevator ride, usually 60 seconds.
https://forms.gle/Th1dttngGN4xN1c57
Labview Core 1
Matteo Lancini DIMI November hrs: Language: Italian
The first step in any NI LabVIEW learning path, LabVIEW Core 1
gives you the chance to explore the LabVIEW environment, dataflow
programming, and common LabVIEW development techniques in a
hands-on format. Learn to develop data acquisition, instrument
control, data-logging, and measurement analysis applications. At
the end of the course you will be able to create applications using
the state machine design pattern to acquire, process, display, and
store real-world data.
http://www.ni.com/product-documentation/14437/en/
https://forms.gle/ohAr33SRKcUAuF4U9
Multiscale physics in energy Davide Picchi DIMI 28, 30 January
4, 6 February 14:00-17:00 Language: English
Energy sustainability and decarbonization are the main
challenges that our society has to face in the coming 30 years. As
engineers, we must develop new solutions to reduce the
environmental impacts of the recovery of natural resources and to
support the transition to renewables. Among these new challenges,
the design of carbon sequestration, geothermal, and thermal energy
storage technologies require a fundamental understanding of the
physics behind fluid flow, reactive transport, and heat transfer in
porous media.
In this course, we will delineate the fundamental multi-scale
dynamics of flow in porous materials with a focus on applications.
First, (i) we will examine the governing equations at the
pore-scale and, then, (ii) we will derive multi-scale models that
we will apply to different scenarios. We will see some practical
examples (e.g., the stimulation of geothermal energy) and how these
results can be generalized in different contexts, including
new-generation chemical reactions, batteries, and filtration
technologies. https://forms.gle/M37u8JR4RGBNFLFu8
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Plant Wide Control and Regulatory PID Control Ramon Vilanova i
Arbos Dept. de Telecomunicació i Enginyeria de Sistemes Escola
d'Enginyeria, UAB February hrs:12 Language: English
Plant Wide Control: The problem and Historical perspective
Process contro: Plantwide Control, Plant Operation, Optimal Plant
Operation Approaches to Plantwide Control, Heuristic Methods,
Mathematical Methods, Optimization Methods: Mixed Methods, Control
Structure methods Self-Optimizing Control Optimal Plant Operation,
Implementation of the Optimal Operation, Self-Optimizing Control,
Selection of optimal CVs Controlled Variable Selection. Brute force
approach and motivation for Local methods Local Analysis: Local
approximation of the Process model, Local approximation of the cost
function, Optimal Input as a Function of d, Local approximation of
Loss function Minimum singular value (MSV) Optimal Measurement
Combination: Null method: Explicit Solution Branch and Bound
Methods: Case Study Throughput Manipulator and Inventory Control
Inventory Control Thorughput Manipulator Maximum Throughtput
Operation Back-Off: Back-Off Estimation, Back-Off and Controller
Tuning, TPM location and Back off benefit Regulation control and
PID Tuning Motivation for PID The Game and the Players Unified
problem statement and generic solution Specific Tuning Rules
Robustness and Performance evaluation PID Tuning guidelines for
Balanced Operation https://forms.gle/QtckaHY4SXZQ6SwB6
Minimum singular value (MSV) Optimal Measurement Combination
Null method Explicit Solution Branch and Bound Methods Case Study
Throughput Manipulator and Inventory Control Inventory Control
Thorughput Manipulator Maximum Throughtput Operation Back-Off
Back-Off Estimation Back-Off and Controller Tuning TPM location and
Back off benefit Regulation control and PID Tuning Motivation for
PID The Game and the Players Unified problem statement and generic
solution Specific Tuning Rules Robustness and Performance
evaluation PID Tuning guidelines for Balanced Operation
Posters and Oral Presentation
Stefania Federici, Annalisa Zacco DIMI February hrs:8 Language:
English
This PhD course aims to prepare students to successful
participation in conferences in general.
- Oral versus Poster Presentation - Preparing to Create a Poster
- Preparing to Present a Poster - Tips for an Effective Oral
Presentation - Giving good talks
https://forms.gle/kd4gWDz4rFvGnocy7
Discrete-event Simulation in industrial systems
Ivan Ferretti DIMI Feb-Apr hrs:16 Language: Italian English
The course introduces the discrete-event simulation (DES) and
teaches computational and mathematical techniques for modeling,
simulating and analyzing the performance of industrial systems.
Following the main content of the course: • The basic structure of
a discrete-event model and simulation: entities, object models,
process (or flow) models, event lists. • How discrete-event
simulations help its users understand infra-systems, notably to
explore logistical problems, system sensitivity and optimization. •
Fundamental concepts for simulating with specific discrete-event
simulation software. https://forms.gle/SUb7sPt6oW55xgYw5
Production systems energy management from cradle-to- grave:
The course introduces the potential of energy management and
energy efficiency measures in reducing the economic, environmental
and social impacts of industries. Following the main content of the
course:
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a supply chain perspective
Beatrice Marchi DIMI Feb-Apr hrs: 9 Language:
Italian/English
• The conceptual background of the energy market • Energy
management systems and the energy auditing • Overlook on the main
energy efficiency measures with an investigation of the
main drivers and barriers through a life cycle approach •
Non-energy benefits and behavioral aspects of energy efficiency •
The new energy market paradigm for smart communities based on
blockchain
technologies with related use cases and definition of the main
weaknesses and challenges
https://forms.gle/KA7Go7uprrXhdqku5
Reliability design of mechanical components. Luigi Solazzi DIMI
Feb-Mar hrs:15 Language Italian/English
The object of this course is to introduce the students to the
design methodology based on the components reliability, with a
focus on the standards (Eurocodes) used for design some specific
mechanical components. The main topics are:
1) Define the reliability (loads and materials analysis, failure
mechanisms, ecc.).
2) Define the safety factor concept.
3) Introduction to the standards.
4) Application to design and verification to different
components: the main arms of the telescopic crane (analytical and
numerical analyses); hydraulic cylinder; chassis of industrial
vehicles, ecc.
https://forms.gle/cCBX5CjnYRgFYZLm6
Principles of Economy
Mariasole Bannò DIMI June-July hrs:12 Language: English
The aim of the module is to provide students with the basis for
understanding the main concept of management and economics. To
achieve this goal, in addition to arguments such as balance sheets
analysis, accounting and capital budgeting, the module will also
cover the importance of industrial and economics of innovation, as
well as the analysis of exemplary case studies. At the end of this
course, students should be able to:
- Understand and evaluate private firms by analyzing financial
public documents. - Acquire experience on management control
system. - Employ the correct instruments in order to evaluate
industrial and R&D
investment. - Acquire basic information on industrial economics,
as prerequisite for
economics of innovations.
https://forms.gle/tUcTBdBYYSZ9yiyUA
Principles of Statistics
Davide Pagano DIMI June hrs:15 Language: English
TOPICS: - probability and random variables - elements of
descriptive and inferential statistics - preliminary concepts of
statistical learning - simple and multiple linear regression -
linear model selection and regularization The theory lessons will
be accompanied by practical applications using R.
https://forms.gle/p3esyHra9VnuMsNq5
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Metodi numerici per la simulazione cinematica di meccanismi
Danilo Cambiaghi DIMI hrs: Language: Italiano
Uso non convenzionale del foglio elettronico Excel per la
simulazione di meccanismi articolati. Verranno date nozioni di
programmazione col linguaggio Visual Basic in ambiente Excel. Si
svilupperanno esempi di simulazione cinematica di meccanismi
articolati. I partecipanti dovranno disporre di un portatile con
installato Excel, versione non giurassica. Il lavoro sarà molto
interattivo e l’estensione del programma dipenderà dalla rapidità
(o meno) degli allievi nell’assimilare le tecniche proposte.
Verranno comunque sviluppate applicazioni per simulare meccanismi
anche complessi (ad esempio una pressa per imbutitura ad
avanzamento costante e ritorno rapido, completamente meccanica).
Potrebbero essere presi in considerazione anche meccanismi proposti
dagli allievi. https://forms.gle/T2cEXWoEq7sAfrL56
Fenomenologia delle Vibrazioni Parte prima: Introduzione Danilo
Cambiaghi DIMI hrs: Language: Italiano
Il corso si propone di rivisitare le nozioni fondamentali della
dinamica delle vibrazioni, col proposito di darne il senso fisico
prescindendo dalla formalizzazione matematica. Il docente si
impegna a non scrivere formule (o quasi). Il corso verrà svolto
essenzialmente attraverso la presentazione di una serie di casi
concreti affrontati dal docente nel corso della sua esperienza e
documentati attraverso disegni e fotografie originali. Verranno
analizzati i problemi incontrati, le soluzioni trovate e gli errori
commessi.
https://forms.gle/FxqLAMZhaaAut2Xs9
Fenomenologia delle Vibrazioni. Parte seconda: Metodi numerici
per la simulazione di fenomeni vibratori Danilo Cambiaghi DIMI hrs:
Language: Italiano
- Uso non convenzionale del foglio elettronico Excel per la
simulazione di vibrazioni meccaniche.
- Verranno date nozioni di programmazione col linguaggio Visual
Basic in ambiente Excel. Si svilupperanno esempi di simulazione
dinamica di fenomeni vibratori.
- I partecipanti dovranno disporre di un portatile con
installato Excel, versione non giurassica.
- Il lavoro sarà molto interattivo e l’estensione del programma
dipenderà dalla rapidità (o meno) degli allievi nell’assimilare le
tecniche proposte. Verranno comunque sviluppate applicazioni per
simulare fenomeni anche complessi (ad esempio una base antisismica
supportata su isolatori non lineari). Potrebbero essere presi in
considerazione anche casi proposti dagli allievi.
https://forms.gle/91WEtL968vBBw3Bn8
Lino Codara DIMI May hrs:18 Language: Italiano
1 modulo (10 ore) settimane 4-9 maggio e 11 -16 maggio - Dalla
Lean production all’Open production - Tecnologie della quarta
rivoluzione industriale - Produzione personalizzata su grandi
volumi - Tecnologie e lavoro Lezioni frontali, analisi di caso
https://forms.gle/jRDwe6QnuuvrEPHF7
2 modulo (15 ore) settimane 18-23 maggio; 25-30 maggio; 1-5
giugno - Dal comandare e controllare al negoziare - Il manager come
negoziatore - Contrattare e negoziare - Azioni strategiche ed
azioni argomentative - Le fasi del processo negoziale
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- Suggerimenti per un buon accordo Lezioni frontali,
esercitazioni, simulazioni, proiezioni di brevi filmati
https://forms.gle/Fr264iMWu61mX5FK8
Gender in science Mariasole Bannò DIMI March, 9 Language:
English
In this course, we’ll be exploring the ways that gender and
technology have defined and redefined each other socially and
culturally. We will consider a wide range of questions including:
What role have women played in the development of technology, and
how has technological change affected the roles of women and ideas
of gender? How does technology offer possibilities for new social
relations and how should we evaluate these possibilities? The
course will involve multidisciplinary faculty from University of
Brescia (i.e. Law, Economics, Engineering). The aim of the course
is to provide the student with basic knowledge about the research
area of gender, science and technology. Upon completion of the
course, the student shall
- demonstrate knowledge about gender relations in the
organisation and practice of natural sciences and engineering.
- demonstrate familiarity with central theories and concepts
within gender studies of science and technology
- be able to independently and critically reflect upon gender
relations in the areas of science and technology
https://forms.gle/Thf8coKesYSBkxsJ6
Design of Experiment Elisabetta Ceretti Antonio Fiorentino DIMI
June-July hrs:12 Language: English
The course teaches the methodologies for experiment design and
analysis for optimizing the quality of the results within the
number of experiments.
To transfer to the student the conceptual basis for the design,
conduction and statistical analysis of experiments (DOE). In
particular, to understand the methodologies for testing hypotheses
and for screening, modeling and optimizing the significant
parameters in phenomena and processes. Moreover, the student will
acquire the fundamental concepts for collaborating with
statisticians.
https://forms.gle/qSLxe9JkCexXmtdh9
System Modeling and Control
Claudio Carnevale DIMI hrs:20 Language: English
The course will provide an introduction to the basic principles
of system modeling, simulation, and control
- Representing phenomena: from reality to model - System
analysis: what about equilibrium? - Controlling a system: problem
and possible solutions - Matlab&Simulink for system simulation
https://forms.gle/FG3ov1oBJCDdYmei7
Method for Materials Selection in Mechanical Design
Stefano Pandini DIMI June 29 - July 3 hrs:18 Language:
This course covers the fundamentals of material selection
according to prof. Ashby approach, as developed through the CES
Edupack and Granta Selecto softwares. Lectures (6hrs) will provide
basic information on material selection strategies and the employ
of the CES Edupack software, which will be the main focus of the
laboratory experiences (12 hrs) 1. Materials properties:
representation in graphs their role in design strategies 2. Bubble
plots and their use in designing for stiffness, for strength and
for toughness 3. Material selection in designing with multiple
constraint and objectives https://forms.gle/LghxZb1dzrqfhs7i7
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Italian English Mechanical and thermal testing of polymeric
materials
Stefano Pandini DIMI July 6 - July 10hrs:12 Language: Italian
English
This course covers the fundamentals of mechanical and
thermal/thermo-mechanical testing of polymers. Lectures(4hrs) are
accompanied by laboratory experiences (8hrs) 1. Short-time
mechanical testing of polymers: quasi-static tests; impact tests 2.
Long-time mechanical testing of polymers: creep tests; stress-
relaxation tests; fatigue tests 3. Thermal and thermo-mechanical
analysis of polymers: Differential Scanning Calorimetry;
Thermogravimetric Analysis; Dynamic- Mechanical Thermal Analysis
https://forms.gle/1EnAgjiQ7zdzjhxAA
Courses of PhD program in Information Engineering (DRII)
http://drii.unibs.it/?page_id=1014
DICACIM - Corsi e Seminari
https://www.unibs.it/didattica/dottorato-di-ricerca/dottorato-ingegneria-civile-ambientale-della-cooperazione-internazionale-e-di-matematica/corsi-e-seminari
Business and Law - Istituzioni e impresa: valore, regole e
responsabilità sociale (B&L)
https://www.unibs.it/didattica/dottorato-di-ricerca/business-and-law-istituzioni-e-impresa-valore-regole-e-responsabilit%C3%A0-sociale-bl/seminari-e-corsi-phd-bl
Courses of the PhD program in Analytics for Economics and
Management (AEM) - UniBs
https://sites.google.com/a/unibs.it/aem/courses-xxxv-cycle
UniBs Courses for PhD students
https://www.unibs.it/didattica/dottorato-di-ricerca/competenze-trasversali-e-altre-opportunit%C3%A0-formative-i-dottorandi
OTHER COURSES of UniBS
CORSO link settore disciplinare
CFU
sem
ADVANCED GEOMATICS https://www.unibs.it/ugov/degreecourse/139113
ICAR/06 9 2 ENG ANTENNAS
https://www.unibs.it/ugov/degreecourse/139151 ING-
INF/02 6 2 ENG
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BIOFLUID MECHANICS https://www.unibs.it/ugov/degreecourse/131924
ING-IND/10
3 2 ENG
BIOMATERIALS https://www.unibs.it/ugov/degreecourse/131902
ING-IND/22
3 2 ENG
BIOMECHANICS https://www.unibs.it/ugov/degreecourse/131925
ING-IND/13
6 2 ENG
BIONANOTECNOLOGY https://www.unibs.it/ugov/degreecourse/131900
CHIM/07 3 2 ENG BUSINESS ENGLISH
https://www.unibs.it/ugov/degreecourse/140987 L-LIN/12 6 2 ENG
BUSINESS HISTORY https://www.unibs.it/ugov/degreecourse/140981
SECS-
P/12 9 2 ENG
CONTROL SYSTEMS TECHNOLOGIES
https://www.unibs.it/ugov/degreecourse/131841 ING-INF/04
9 2 ENG
CONTROL SYSTEMS TECHNOLOGIES
https://www.unibs.it/ugov/degreecourse/141139 ING-INF/04
9 2 ENG
ENVIRONMENTAL ECONOMICS
https://www.unibs.it/ugov/degreecourse/140980 SECS-P/01
9 3 ENG
HEALTH INFORMATION SYSTEMS
https://www.unibs.it/ugov/degreecourse/139141 ING-INF/05
6 2 ENG
LEADERSHIP AND COMPLEX ORGANIZATIONS
https://www.unibs.it/ugov/degreecourse/140995 SPS/09 6 2 ENG
MECHANOBIOLOGY https://www.unibs.it/ugov/degreecourse/142711
ICAR/08 3 2 ENG METALLIC BIOMATERIALS AND COATINGS
https://www.unibs.it/ugov/degreecourse/131903 ING-IND/21
3 2 ENG
METHODS AND MODELS FOR ENVIRONMENTAL SUSTAINABILITY
https://www.unibs.it/ugov/degreecourse/140753 SECS-S/06
9 2 ENG
MICROPROCESSOR BASED INSTRUMENTATION
https://www.unibs.it/ugov/degreecourse/131835 ING-INF/07
9 2 ENG
MICROWAVE ENGINEERING
https://www.unibs.it/ugov/degreecourse/141147 ING-INF/02
6 2 ENG
MOBILE PROGRAMMING https://www.unibs.it/ugov/degreecourse/141140
ING-INF/05
6 2 ENG
NANOPHOTONICS https://www.unibs.it/ugov/degreecourse/141136
ING-INF/02
3 2 ENG
NANOTECHNOLOGIES https://www.unibs.it/ugov/degreecourse/142385
FIS/03 6 1 ENG OPTICAL COMMUNICATION COMPONENTS
https://www.unibs.it/ugov/degreecourse/141148 ING-INF/02
6 2 ENG
OPTIMIZATION ALGORITHMS
https://www.unibs.it/ugov/degreecourse/131861 MAT/09 6 1 ENG
POWDERS FOR METAL ADDITIVE MANUFACTURING
https://www.unibs.it/ugov/degreecourse/142566 ING-IND/21
3 2 ENG
PRACTICAL CHEMISTRY FOR NANOTECHNOLOGY
https://www.unibs.it/ugov/degreecourse/141135 CHIM/07 3 2
ENG
PRODUCTION TECHNOLOGIES FOR BIOMANUFACTURING
https://www.unibs.it/ugov/degreecourse/131922 ING-IND/17
3 2 ENG
RESOURCE AND ENERGY ECONOMICS
https://www.unibs.it/ugov/degreecourse/140754 6 1 ENG
SENSORS FOR BIOSIGNALS
https://www.unibs.it/ugov/degreecourse/131901 ING-INF/07
6 2 ENG
SERVO SYSTEMS AND ROBOTICS
https://www.unibs.it/ugov/degreecourse/131842 ING-IND/13
9 2 ENG
WIRELESS SYSTEMS LABORATORY
https://www.unibs.it/ugov/degreecourse/139147 ING-INF/02
3 2 ENG
ACUSTICA APPLICATA https://www.unibs.it/ugov/degreecourse/132052
ING-IND/11
6 2 ITA
ANALISI E CONTROLLO DI PROCESSI COMPLESSI
https://www.unibs.it/ugov/degreecourse/141541 ING-INF/04
6 2 ITA
APPLICAZIONI BIOMEDICHE PER LA SALUTE E IL BENESSERE
https://www.unibs.it/ugov/degreecourse/141134 ING-INF/06
6 1 ITA
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AZIONAMENTI ELETTRICI, OLEODINAMICI E PNEUMATICI
https://www.unibs.it/ugov/degreecourse/132076 ING-IND/13
6 2 ITA
BIOCHIMICA https://www.unibs.it/ugov/degreecourse/141113 BIO/10
1 2 ITA BIOCHIMICA CLINICA E BIOLOGIA MOLECOLARE CLINICA
https://www.unibs.it/ugov/degreecourse/141116 BIO/12 1 2 ITA
BIOCHIMICA CLINICA SPECIALISTICA
https://www.unibs.it/ugov/degreecourse/131264 BIO/12 6 2 ITA
BIOLOGIA GENERALE E CELLULARE
https://www.unibs.it/ugov/degreecourse/141111 BIO/13 1 2 ITA
CALCOLO NUMERICO CON LABORATORIO
https://www.unibs.it/ugov/degreecourse/131838 MAT/08 6 1 ITA
COMPLEMENTI DI TERMOFLUIDODINAMICA
https://www.unibs.it/ugov/degreecourse/131917 ING-IND/11
6 2 ITA
COMPONENTI DI IMPIANTI DI CONVERSIONE DELL'ENERGIA
https://www.unibs.it/ugov/degreecourse/131930 ING-IND/09
6 2 ITA
CONTROLLI AUTOMATICI
https://www.unibs.it/ugov/degreecourse/132075 ING-INF/04
6 2 ITA
DISEGNO E MODELLISTICA DELL'AUTOVEICOLO
https://www.unibs.it/ugov/degreecourse/132089 ING-IND/15
6 1 ITA
ECONOMIA APPLICATA ALL'INGEGNERIA
https://www.unibs.it/ugov/degreecourse/131920 ING-IND/35
6 1 ITA
ECONOMIA DELL'INNOVAZIONE
https://www.unibs.it/ugov/degreecourse/131873 SECS-P/06
3 2 ITA
ECONOMIA INDUSTRIALE
https://www.unibs.it/ugov/degreecourse/131872 SECS-P/06
6 2 ITA
ELEMENTI DI PROGETTAZIONE SOFTWARE
https://www.unibs.it/ugov/degreecourse/141141 ING-INF/05
6 2 ITA
ERGONOMIA E SICUREZZA
https://www.unibs.it/ugov/degreecourse/131882 ING-IND/17
6 2 ITA
FISICA APPLICATA https://www.unibs.it/ugov/degreecourse/131268
FIS/07 3 1 ITA FISIOLOGIA
https://www.unibs.it/ugov/degreecourse/141114 BIO/09 1 2 ITA
FLUIDODINAMICA DELLE TURBOMACCHINE
https://www.unibs.it/ugov/degreecourse/132048 ING-IND/08
9 1 ITA
FONDAMENTI CHIMICI DELLE TECNOLOGIE
https://www.unibs.it/ugov/degreecourse/131278 CHIM/07 3 1
ITA
FONDAMENTI DI INTELLIGENZA ARTIFICIALE
https://www.unibs.it/ugov/degreecourse/139121 ING-INF/05
6 1 ITA
FONDAMENTI DI TERMOFLUIDODINAMICA
https://www.unibs.it/ugov/degreecourse/131877 ING-IND/10
6 1 ITA
FONDAMENTI DI TERMOFLUIDODINAMICA
https://www.unibs.it/ugov/degreecourse/131932 ING-IND/10
6 1 ITA
FONDAMENTI DI TERMOFLUIDODINAMICA
https://www.unibs.it/ugov/degreecourse/131933 ING-IND/11
6 1 (2021)
ITA
GESTIONE DEGLI IMPIANTI E DEL LAVORO INDUSTRIALE
https://www.unibs.it/ugov/degreecourse/132040 ING-IND/17
9 1 ITA
GESTIONE DEI SISTEMI LOGISTICI INTEGRATI
https://www.unibs.it/ugov/degreecourse/131850 ING-IND/17
6 2 ITA
GESTIONE DELLA MANUTENZIONE E DELL'ENERGIA
https://www.unibs.it/ugov/degreecourse/132037 ING-IND/17
6 2 ITA
GESTIONE DELLA PRODUZIONE
https://www.unibs.it/ugov/degreecourse/131929 ING-IND/17
6 1 ITA
GESTIONE INDUSTRIALE DELLA QUALITA'
https://www.unibs.it/ugov/degreecourse/131931 ING-IND/16
6 1 ITA
IMPIANTI INDUSTRIALI
https://www.unibs.it/ugov/degreecourse/131880 ING-IND/17
9 1 ITA
INGEGNERIA PROTEICA
https://www.unibs.it/ugov/degreecourse/131265 BIO/10 3 1 ITA
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LABORATORIO DI GESTIONE DEGLI IMPIANTI
https://www.unibs.it/ugov/degreecourse/132084 ING-IND/17
3 2 ITA
LABORATORIO DI GESTIONE INDUSTRIALE DELLA QUALITA'
https://www.unibs.it/ugov/degreecourse/131926 ING-IND/16
3 2 ITA
LABORATORIO DI MECCANICA E TESTING DEL VEICOLO
https://www.unibs.it/ugov/degreecourse/132073 ING-IND/13
6 2 (2021)
ITA
LABORATORIO DI MISURE DELLE VIBRAZIONI
https://www.unibs.it/ugov/degreecourse/131918 ING-IND/12
3 2 ITA
LABORATORIO DI MISURE INDUSTRIALI
https://www.unibs.it/ugov/degreecourse/131875 ING-IND/12
6 1 ITA
LABORATORIO DI MODELLAZIONE E RAPPRESENTAZIONE DEI PRODOTTI
https://www.unibs.it/ugov/degreecourse/131689 ING-IND/15
6 2 ITA
LABORATORIO DI TERMOFLUIDODINAMICA
https://www.unibs.it/ugov/degreecourse/131914 ING-IND/10
3 2 ITA
LOGISTICA INDUSTRIALE
https://www.unibs.it/ugov/degreecourse/131909 ING-IND/17
6 2 ITA
MACCHINE A FLUIDO IDRAULICHE E TERMICHE
https://www.unibs.it/ugov/degreecourse/131884 ING-IND/08
9 1 ITA
MACCHINE UTENSILI https://www.unibs.it/ugov/degreecourse/132039
ING-IND/16
6 2 ITA
MACHINE LEARNING E DATA MINING
https://www.unibs.it/ugov/degreecourse/139138 ING-INF/05
6 2 ITA
MECCANICA DELLE VIBRAZIONI
https://www.unibs.it/ugov/degreecourse/131919 ING-IND/13
9 2 ITA
METODI DI MISURA DI DATI BIOMEDICI PER APPLICAZIONI
HEALTH&WEALTH
https://www.unibs.it/ugov/degreecourse/141131 ING-INF/06
6 2 ITA
METODI DI SELEZIONE DEL MATERIALE
https://www.unibs.it/ugov/degreecourse/131693 ING-IND/22
6 2 ITA
MODELLAZIONE DELLE LAVORAZIONI DELLA LAMIERA
https://www.unibs.it/ugov/degreecourse/132085 ING-IND/16
6 2 ITA
MODELLAZIONE DELLE LAVORAZIONI MASSIVE
https://www.unibs.it/ugov/degreecourse/132077 ING-IND/16
6 2 ITA
MODELLI DI DIFFUSIONE
https://www.unibs.it/ugov/degreecourse/141109 MAT/05 3 1 ITA
MODELLI DI SUPPORTO ALLE DECISIONI
https://www.unibs.it/ugov/degreecourse/141548 ING-INF/04
6 1 ITA
MOTORI A COMBUSTIONE INTERNA E FLUIDODINAMICA NUMERICA
https://www.unibs.it/ugov/degreecourse/131890 ING-IND/08
9 1 ITA
ONDE DI SHOCK https://www.unibs.it/ugov/degreecourse/141107
MAT/05 3 1 ITA PATOLOGIA
https://www.unibs.it/ugov/degreecourse/141115 MED/04 1 2 ITA
PRODUCTION SYSTEMS ORGANISATION AND REGULATIONS FOR MEDICAL DEVICE
MANUFACTURING
https://www.unibs.it/ugov/degreecourse/132057 ING-IND/17
6 2 ITA
PROGETTAZIONE ASSISTITA DI STRUTTURE MECCANICHE
https://www.unibs.it/ugov/degreecourse/132081 ING-IND/14
6 2 ITA
PROGETTAZIONE CON LE MATERIE PLASTICHE
https://www.unibs.it/ugov/degreecourse/131876 ING-IND/22
6 2 ITA
PROGETTAZIONE DI SISTEMI DI CONVERSIONE DELL'ENERGIA
https://www.unibs.it/ugov/degreecourse/131915 ING-IND/08
6 2 ITA
-
PROPRIETA' MECCANICHE E FUNZIONALI DEI POLIMERI E DEI
COMPOSITI
https://www.unibs.it/ugov/degreecourse/131695 ING-IND/22
6 1 ITA
ROBOT INDUSTRIALI E DI SERVIZIO
https://www.unibs.it/ugov/degreecourse/141143 ING-INF/05
6 2 ITA
SIDERURGIA TRADIZIONALE E INNOVATIVA
https://www.unibs.it/ugov/degreecourse/132043 ING-IND/21
6 2 ITA
SISTEMI ELETTRICI PER L'AUTOMAZIONE
https://www.unibs.it/ugov/degreecourse/141110 ING-IND/31
6 1 ITA
SISTEMI MECCATRONICI INTERAGENTI CON L'UOMO
https://www.unibs.it/ugov/degreecourse/131843 ING-IND/13
6 1 ITA
SISTEMI MECCATRONICI INTERAGENTI CON L'UOMO
https://www.unibs.it/ugov/degreecourse/131883 ING-IND/13
6 1 ITA
STORIA DELL'IMPRESA
https://www.unibs.it/ugov/degreecourse/140762 SECS-P/12
9 1 ITA
STORIA DELLA GLOBALIZZAZIONE
https://www.unibs.it/ugov/degreecourse/140978 SECS-P/12
9 1 ITA
STRUTTURA E FUNZIONE DELLE PROTEINE
https://www.unibs.it/ugov/degreecourse/131266 BIO/10 3 1 ITA
SUPERFICI E INTERFACCE BIOLOGICHE
https://www.unibs.it/ugov/degreecourse/141117 CHIM/07 1 2
ITA
TECNOLOGIE ADDITIVE E REVERSE ENGINEERING
https://www.unibs.it/ugov/degreecourse/131921 ING-IND/16
6 2 ITA
TECNOLOGIE AVANZATE DI ASPORTAZIONE
https://www.unibs.it/ugov/degreecourse/132044 ING-IND/16
6 2 ITA
TECNOLOGIE DELLE ENERGIE RINNOVABILI
https://www.unibs.it/ugov/degreecourse/132051 ING-IND/09
6 1 ITA
TECNOLOGIE METALLURGICHE
https://www.unibs.it/ugov/degreecourse/132036 ING-IND/22
6 2 ITA
TECNOLOGIE PER LA MOBILITA' SOSTENIBILE
https://www.unibs.it/ugov/degreecourse/131888 ING-IND/09
9 2 ITA
TERMODINAMICA APPLICATA ED ENERGETICA
https://www.unibs.it/ugov/degreecourse/132047 ING-IND/10
6 2 ITA
ARCHITETTURA TECNICA
https://www.unibs.it/ugov/degreecourse/89282 ICAR/10 9 2 ITA