REGINNA 4.0 First Summer School: Deep Tech training with impact on entrepreneurship and innovation

Europe/Ljubljana
MIC, Medpodjetniški izobraževalni center Cankarjeva ul. 8a, 5000 Nova Gorica
Description

BadgeThe REGINNA 4.0 consortium partners cordially invite you to join the first Summer School that will focus on the training of talents in the technological areas of Nanotechnology and Industry 4.0. This event will connect students with academics, businesses, public bodies and non-governmental organisations to explore innovations, business development and transfer of ideas from laboratory to the market. The curriculum will include the following topics:

Nanotechnology

  • Novel materials
  • Intersection with Quantum Technology
  • Deep Learning and Nanotechnology Applications

Industry 4.0

  • Introduction to Industry 4.0
  • AI in quality control and product development
  • Lean Manufacturing & Cybersecurity
  • Data analytics and AI in Tourism 4.0

Innovation and Entrepreneurship

  • Entrepreneurship fundamentals
  • Innovation and product development
  • Lean startup methodology
  • Intellectual property and commercialization

To maximise the impacts the Summer School will have a hybrid format. The Summer School is organized within the European Institute of Innovation & Technology (EIT) framework. Upon successfully completed examination, the participants will receive an EIT-Labelled certificate equivalent to 3 ECTS points. Conference registration and attendance are free of charge.

Participants can participate online or in-person. 

Registration deadline:

  • 19.6.2023 in-person participation
  • 30.6.2023 online participation

 

The venue of the conference is at MIC, Medpodjetniški izobraževalni center

Participating Universities:

  • University of Nova Gorica
  • University of Udine
  • University of Leon
  • Vasyl Stefanyk Precarpathian National University

Consortium logos

Participants
  • Abdalhadi Emara
  • ABHISHEK PANDEY
  • Adriana Pochtar
  • Aitor Del Río Ferreras
  • Albina Rozmaryna
  • Aleksa Papić
  • Alenka Trpin
  • Alessio Corrado
  • Alessio Vecchiet
  • Alicia Martínez Mendoza
  • Aljaž Gluhar
  • Alona Semotiuk
  • Altin Bokshi
  • Ambra Bertolissi
  • Ambra Civaschi
  • Ana Blaž
  • Ana Isabel Fernández Abia
  • Ana Stergulc
  • Anastasiia Mikriukova
  • Anastasiia Plaviuk
  • Anastasiia Polyvoda
  • Anatolii Khomyn
  • ANDREA BOEN
  • Anej Simcic
  • Anita Vovk
  • Anja Bandelj
  • Anja Siher
  • Anna Baranova
  • Anna Baranova
  • Anna Boryshchak
  • Anna Boryshchak
  • Anna Schkrumyak
  • Anna-Mariia Protas
  • Anne-Bernard Bedouet
  • Anže Pirc
  • Arcangelo Costanzo
  • Arsen Andreichuk
  • Arsen Halushka
  • Arsen Halushka
  • Arsen Kozhukhar
  • Arun Ravindran
  • Aurorë Smirqaku
  • Barbara Beltran Torres
  • Bianca Frassanito
  • Blerim Morina
  • Bogdan Rachiy
  • Bogdan Suslyk
  • Bohdan Moroz
  • Bohdana Pankovych
  • Bohdana Pankovych
  • Bohdana Slavinska
  • Bostjan Mikuz
  • Brankica Apostolova
  • Christina Boychuk
  • Christina Tokaruk
  • Damian Florin Dragos
  • Daniela Palladino
  • Danyliuk Lilija
  • Danylo Bagriy
  • Dariia Khoma
  • David Garcia Povedano
  • David Guerra Vega
  • Deisy Chaves
  • Dejan Jarc
  • Demianiyk Iryna
  • Diana Mykhailiuk
  • Diana Shelenko
  • Diana Tryntsolyn
  • Diego García
  • Dmytro Burlaka
  • Dmytro Pyrih
  • Dmytro Shkvarok
  • Edin Živalj
  • Eduardo Garcia Aragon
  • Egon Pavlica
  • Elena Marín Martín
  • Elham Babaei
  • Ema Mokorel
  • Enrico Bonassi
  • Enrico Ursella
  • Enrique Alegre
  • Erika Tomsič
  • Ewgen Fedoriv
  • Filip Vukotic
  • Gabriel Medina Martinez
  • Gaja Černe
  • Giancarlo Lauto
  • Gresa Vuçetaj
  • Halyna Apelt
  • Halyna Boichuk
  • Hamis Juma
  • Herman Karpenko
  • Hugo Jiménez Alonso
  • Ignacio Alonso Perteguer
  • Igor Shumyn
  • Ilona Ivanuk
  • Ilona Mishchuk
  • Inna Irtishcheva
  • Inna Kos
  • Irene Tieppo
  • Iria Aldrey Dono
  • Irina Katinska
  • Irina Krupitsa
  • Iryna Demianiyk
  • Iryna Uhorchuk
  • Isabel Clissmann
  • Iva Milkovič
  • Ivan Dadiak
  • Ivan Yanishevskyi
  • Ivana Sulaver
  • Ivanna Liuta
  • Ivanna Popovych
  • Ivanna Vakaliuk
  • Ivanna Vintoniuk
  • Ivanna Vintonovych
  • Jan Mokorel
  • Jan Rojc
  • Jana Čelebičić
  • Janko Harej
  • Javier Velasco
  • Jernej Kalin
  • joaquin Lopez
  • Joaquín Barreiro García
  • Jose Carlos Carrasco Jimenez
  • Julia Gwóźdź
  • Julia Kliuba
  • Julia Pishak
  • Jure Lovec
  • Jurij Urbančič
  • Kamila Pokhilchenko
  • Karolina Socha
  • Katarzyna Dżaman
  • Kateryna Demianchuk
  • Kateryna Palanytsia
  • Katja Ilijaš
  • Katya Kotlyarevska
  • Ketsman Ruslana
  • Kevin Poredoš
  • Khrystyna Baranovych
  • Khrystyna Bodnar
  • Kostyshyn Nazariy Ihorovych
  • Kozodoi Oleksandra
  • Kramarenko Iryna
  • Kristina Koret
  • Kristina Novak
  • Krystyna Petrunyshyn
  • Ksenija Acimovic
  • Lakshmi Rajan
  • Lana Fornazarič
  • Laura Mitrea
  • Lea Gelo
  • Lesia Pron
  • Liubov Babinchuk
  • Liudmyla Sas
  • Lucía Alaiz
  • Luka Novinec
  • Luka Vodopivec
  • Luka Černe
  • Maksym Popovych
  • Manuel Castejón Limas
  • Margareth Eloisa Violetta Bottiglione
  • MARIA ANGELES CASTRO SASTRE
  • Maria Fitsak
  • Mariana Pavlyk
  • Mariia Danylyshyn
  • Mariia Khemii
  • Mariia Skrypnyk
  • Marija Nešović
  • Marija Tomović
  • Mario Aguilar
  • Marjeta Urbancic
  • Marko Kofol
  • Marta Glinka
  • Martin Agostini Pregelj
  • Martin Bizjak
  • Martina Siderini
  • Maryana Ilnytska
  • Maryna Blyshchuk
  • Maryna Ivaniv
  • María Fernández Raga
  • Matej Rubelli Furman
  • Mateusz Bronikowski
  • Mateusz Szydłowski
  • Matic Čečko
  • Matic Štrancar
  • Matteo Cancian
  • Mattia Marchi
  • Mauricio Alberto Ledesma Villegas
  • Max Sablatnik
  • Mayra Alejandra Sanchez Salinas
  • Michail Lashchenko
  • Michele Tormen
  • Miguel Ángel González-Santamarta
  • Miha Kogoj
  • Miha Živec
  • Mirjana Đundić
  • Mykola Yakymiv
  • Mykola Zinkov
  • Nadia Protskiv
  • Nadiia Babinets
  • Nadiia Savchuk
  • Naeem Zamindar
  • Nataliia Yakubiv
  • Nataliya Mazur
  • Nejc El Habashy
  • Nelli Sazonova
  • Oksana Bakalenko
  • Oksana Dzhus
  • Oksana Harpul
  • Oksana Holovata
  • Oksana Kinashevska
  • Oksana Kushnir
  • Oleg Kotsiubynskyi
  • Oleg Kotsiubynskyi
  • Oleksii Kravchuk
  • Olena Pavlenko
  • Olena Venher
  • Olesia Holovina
  • Olexandra Yovdiy
  • Olga Lukach
  • Olha Boichuk
  • Olha Lozynska
  • Omar Abudan
  • Oumama Ettouizi
  • Pablo Rodríguez González
  • Pablo Rodríguez Mateos
  • Paola Bozzetto
  • Petro Hoi
  • Presiyana Dimitrova
  • Rajan Gupta
  • Raul Baides Cuerdo
  • Rene Bažato
  • Robert Piršl
  • Roberto Andrés Carofilis Vasco
  • Rocio Alaiz-Rodriguez
  • Rokaya Osama
  • Roman Halitsiian
  • Roman Varoda
  • Romina Dusic
  • Rubén Junior Dos Reis Do Rosario
  • Rudraksha Rishi Mitra
  • Samuel Gil Lopez
  • Sandeep Chakravartty
  • Sangan Vital Cédric YAO
  • Sanja Dumenčić
  • Sara Giganto
  • Sarah Mbiada Tchuate
  • Sašo Udovič
  • Serafyma Chevska
  • Sergio Alvarez Garcia
  • Shima Ujjani Shivashankara
  • Silvester Brdar
  • Silvia Matellán Fernández
  • Snezhana Krytska
  • Sofia Hertsiak
  • Sofiia Hertsiak
  • Sofiia Kokhanska
  • Sofiia Nasadyk
  • Sofiya Yaremiy
  • Sofía Peláez
  • Solomia Vatamaniuk
  • Solomiia Losobyk
  • Solomiia Savchyn
  • Stanislav Andriyovych Spolishchuk
  • Stanislav Polishchuk
  • Stefano Bosoppi
  • Taj Jankovic
  • Tamara Rijavec
  • Tetiana Havrylchuk
  • Tetiana Havrylchuk
  • Tetiana Matviias
  • Tetiana Potiatynnyk
  • Tetiana Turyk
  • Tina Bole
  • Tjaž Valentinčič
  • Tobija Ličen
  • Tomaž Hrovatin
  • Tomaž Rojc
  • Tomi Bandelj
  • Tomislav Šubić
  • Tsvetelina Stefanova
  • Umesh Upadhyaya
  • Uroš Luin
  • Urška Fric
  • Urška Premrn
  • Valeria Petrenko
  • Vasyl Prytula
  • Veronika Khalak
  • Veronika Khrabatyn
  • Veronika Onysko
  • Vesna Jevšček
  • Victor Martinez Vega
  • Viktoria Dobromirska
  • Viktoriia Abram
  • Viktoriia Yakivchuk
  • Virginia Riego del Castillo
  • Vita Dmytrivna Humeniuk
  • Vita Hrynyshak
  • Vitalii Bilinskyi
  • Vitalii Olinkevych
  • Vitalii Zvirych
  • Vitaliia Shelenko
  • Vito Vergolin
  • Vladislav Tkachuk
  • Vladyslav Hoi
  • Vladyslav Mamrokha
  • Vladyslav Oheruk
  • Volodymyr Balan
  • Volodymyr Kubarych
  • Volodymyr Poltorak
  • Volodymyr Rodin
  • Vovchuk Vladyslav
  • Walter Osigai Etepesit
  • Yaruna Zubiuk
  • Yevhen Shparii
  • Yevhenii Kulak
  • Yulia Garandzhuk
  • Yuliia Bilous
  • Yuliia Petrenko
  • Yuliia Tarasiuk
  • Yuliia Vytvytska
  • Yuliya Bogoyavlenska
  • Yuliya Bogoyavlenska
  • Yuriy Semeniv
  • Zarja Pregelj
  • Zoja Rokavec
  • Zoriana Matviishyn
  • Zoriana Matviyishyn
  • Любов Тимків
  • Марія Кулик
    • 08:00 15:30
      Industry 4.0
      • 08:00
        Registration 1h MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica
      • 09:00
        Introduction to the programme 15m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica
      • 09:15
        Digital Transformation Journey 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        The course allows to understand the meaning of a digital transformation. How to identify the needs of the enterprise? how to design a digital project? In the second part of the lecture there will be provided examples of digital transformation that has been realized.

        • Introduction to industry 4.0
        • How to guide a Digital Transformation Project
        • Current examples of Digital Transformation Projects

        objectives:

        1 Comprehensive overview about digital transformation.
        2.Knowledge acquisition about enabling technologies and digital use cases
        3.Basic knowledge and methods about how to support a successful digital transformation inside the organizations

        outcomes:

        1. To know the basic knowledge about digital transformation
        2. To know about digital assessments
        3. To know enabling technologies
        4. To build a classification about tools and methods to guide digital transformation.
        Speaker: Andrea Fornasier (POLO)
      • 10:45
        Break 15m
      • 11:00
        Data Modeling: From Relational Databases to Big Data - part 1 1h 15m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        Database management systems are a fundamental tool to store and analyze data in countless domains, empowering business intelligence as well as descriptive, predictive, and prescriptive analytics tasks. Choosing the right database technology is not trivial since, due to the intrinsic heterogeneous nature of information, different approaches must be followed to handle structured, semi-structured, and unstructured data, and the so called Big Data. This gives rise to complex information systems, in which data regarding a specific object may be fragmented and possibly replicated into several repositories, both relational as well as NoSQL in their nature. Data warehousing allows to bring order into such an information jungle, by means of employing a single, enterprise-wide storage, which should be continuously fed by data streams, engineered to perform ETL (Extract, Transform, Load) tasks. The goal of the lecture is that of covering, from a general and intuitive point of view, all the main aspects pertaining to the previously described issues.

        Speaker: Andrea Brunello (University of Udine)
      • 12:15
        Lunch 1h
      • 13:15
        Data Modeling: From Relational Databases to Big Data - part 2 2h MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        Database management systems are a fundamental tool to store and analyze data in countless domains, empowering business intelligence as well as descriptive, predictive, and prescriptive analytics tasks. Choosing the right database technology is not trivial since, due to the intrinsic heterogeneous nature of information, different approaches must be followed to handle structured, semi-structured, and unstructured data, and the so called Big Data. This gives rise to complex information systems, in which data regarding a specific object may be fragmented and possibly replicated into several repositories, both relational as well as NoSQL in their nature. Data warehousing allows to bring order into such an information jungle, by means of employing a single, enterprise-wide storage, which should be continuously fed by data streams, engineered to perform ETL (Extract, Transform, Load) tasks. The goal of the lecture is that of covering, from a general and intuitive point of view, all the main aspects pertaining to the previously described issues.

        Speaker: Andrea Brunello
    • 09:00 16:00
      Industry 4.0
      • 09:00
        Introduction to Machine Learning 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        In this course we will cover the basic concepts about machine learning with a theoretical and practical approach. Specifically, we will learn the concept of Machine Learning and Supervised Learning, a couple of classifiers (kNN and SVM) and how to evaluate them. Finally, we will learn how to create them in Python.

        Objectives

        1. Comprehensive overview about machine learning basic concepts.
        2. Basic knowledge about how to evaluate classifiers’ performance and how to interpret its results
        3. Learn to build a simple classification experiment

        Outcomes

        1. To know the basic knowledge about machine learning and supervised learning
        2. To know about two basic supervised learning classifiers: kNN and SVM
        3. To evaluate and interpret classification models’ results.
        4. To know the Google colab environment for computation in the cloud
        5. To build a simple classification experiment and assess its results.
        Speakers: Eduardo Fidalgo Fernández, Victor González-Castro (University of León)
      • 10:30
        Break 15m
      • 10:45
        Computer Vision and Machine Learning in Industry 4.0: Use case 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        In this course we will cover the basic concepts of Neural Networks and Convolutional Neural Networks with an application to the classification of inserts of a milling machine according to their wear level.

        Objectives

        1. Know the concept of convolution and its applications in image processing.
        2. Identify the building blocks of a Neural Network and a Convolutional Neural Network.
        3. Learn to use pretrained CNNs to get descriptors to classify the level of wear of milling inserts
          3.1. Get started with non-handcrafted descriptors
          3.2. Application to Industry 4.0 problem

        Outcomes

        1. To know the basics about image convolution
        2. To learn what a -neural Network is and its main concepts (neuron, layer, etc.).
        3. To define the working of a Convolutional Neural Network and its basic building blocks
        4. To classify inserts as having high or low wear using features extracted using pre-trained CNNs
        Speakers: Fidalgo Fernández (University of Leon), Laura Fernández Robles (Universidad de León)
      • 12:15
        Lunch 1h
      • 13:15
        Introduction to Industrial Cybersecurity 1h 55m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        The aim of the lecture is to raise awareness about the relevance of cybersecurity in the context of Industry 4.0 and to get a glimpse of the most common threats and vulnerabilities in industrial control systems as well as the countermeasures available to mitigate risks.

        Objectives

        1. Awareness of cybersecurity risks in industrial control systems and critical infrastructures
        2. Overview of the features of industrial control systems in contrast to traditional information systems
        3. Overview of threats, vulnerabilities and countermeasures in industrial control systems

        Outcomes

        1. Understand the relevance of cybersecurity in industrial control systems and critical infrastructures
        2. Understand the main threats and vulnerabilities in industrial control systems in contrast to traditional information systems
        3. Acquire a high-level view of the procedures and measures available to mitigate cybersecurity risks.
        Speaker: Miguel A. Prada (University of Leon)
    • 09:00 15:00
      Industry 4.0
      • 09:00
        Introduction to data in tourism 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        • What are the sources and types of data in tourism?
        • How can data be analysed and visualized for tourism purposes?
        • What are the benefits and challenges of using data in tourism?
        • What are some examples of data applications in tourism

        Speaker: Vesna Kobal (Arctur)
      • 10:30
        Break 15m
      • 10:45
        Digital interpretation of cultural heritage 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        • Digital interpretation of cultural heritage and its potentials
        • How a 3D model is made
        • Making a simple 3D model with a mobile phone
        • New media for 3D digital interpretation – from AR, to VR, immersive technologies and metaverse.
        • Narrating a heritage story with digital technologies

        Speaker: Matevž Stravs (Arctur)
      • 12:15
        Lunch 1h
      • 13:15
        A case study of the application of Tourism 4.0 technology in Odesa, Ukraine 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        • Overview of Odesa City as a tourist destination
        • Organisation of tourism in Odesa
        • Problems of tourism development in Odesa
        • Application of Tourism 4.0 models to address these problems
        • Results and discussion of the findings

        Speaker: Paul Goriup (NGO Agricola)
    • 09:00 15:00
      Nanotechnology
      • 09:00
        Nanomaterials - Introduction 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        Nanotechnology and nanomaterials.
        Classifications of nanomaterials, their properties.
        Historical overview of nanomaterials.
        Reasons for special properties of nanoscale materials.
        Classical and quantum size effects.
        Basic concepts of quantum physics.
        The energy of an electron in an atom.
        Harmonic oscillator: transition from classical to quantum.
        Wave-particle duality. Uncertainty principle.
        Condensed matter physics. Electrons in crystals.
        Quantum dots and their applications.
        Quantum tunneling.
        Application of nanomaterials.

        Objectives:

        Overview of nanomaterials (history and properties).
        Modern applications of nanomaterials.
        Basic concepts of quantum physics.

        Outcomes:

        Participants will gain general knowledge about nanomaterials and their properties.
        Participants will be able to identify different types of nanomaterials.
        Participants will distinguish between classical and quantum size effects.
        Participants will understand the basic concept of quantum mechanics.

        Speaker: Liliia Turovska (Vasyl Stefanyk Precarpathian National University)
      • 10:30
        Break 15m
      • 10:45
        Graphene - Magic of Carbon 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        Carbon. Allotropes.
        Electronic structure of carbon.
        Diamond. Properties.
        Graphite. Properties.
        Graphene. Unique properties. Crystal structure. Production.
        Obtaining graphene oxide.
        Carbon nanotubes. Properties. Synthesis.
        Fullerenes. Properties. Application. Synthesis.

        Objectives

        Review of the main properties of allotropic modifications of carbon.
        Graphene: unique properties and applications.
        Methods for obtaining graphene oxide and reduced graphene oxide.
        Overview of methods for experimental study of graphene materials.

        Outcomes

        Participants will gain general knowledge about carbon materials.
        Participants will distinguish between different allotropic modifications of carbon.
        Participants will understand the various approaches to obtaining GO and rGO.
        Participants will be able to distinguish the results of an experimental study of graphene materials.

        Speaker: Volodymyra Boichuk (Vasyl Stefanyk Precarpathian National University)
      • 12:15
        Lunch 1h
      • 13:15
        Semiconductor nanomaterials in renewable energy applications 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        • Development of thermoelectricity and photovoltaics. Transition to nanoscale elements.
        • Methods of obtaining semiconductor nano-size materials.
        • Peculiarities of the structure and properties of semiconductor nanomaterials.
        • Practical application of nanomaterials.
        • Characterization of nanomaterials.

        Speaker: Bohdana Naidych (Vasyl Stefanyk Precarpathian National University)
    • 09:00 15:00
      Nanotechnology
      • 09:00
        Graphene based nanoelectronic - a practical approach 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        The field of nanoelectronics has experienced a significant shift with the emergence of graphene, a two-dimensional material with remarkable electronic properties. This practical demonstration will serve to present a fabrication process of a graphene-based transistor. The transistor will be prepared during the lecture in the clean room of the Laboratory of Organic Matter Physics of the University of Nova Gorica. We will delve into the fabrication techniques, with a hand-on lecture on the technique of micromechanical exfoliation, the recognition of few layer graphene by the optical microscope and fabrication of a graphene-based transistor by means of laser lithography.

        Objectives

        • Review of state-of-the-art in graphene-based electronics.
        • Mechanical exfoliation of graphene flakes using a scotch-tape method
        • Optical microscopy of mechanically exfoliated graphene flakes
        • Presentation of laser lithography process to prepare graphene-based transistor
        • Electrical characterization of graphene-based transistor

        Outcomes

        • Participants learn about mechanical exfoliation of two-dimensional materials
        • Participants can identify graphene flakes under the microscope.
        • Participants learn and observe laser lithography process to prepare graphene-based transistor.
        • Participants understand the role of different layers of graphene-based transistor.
        • Participants understand electrical characteristics of graphene-based transistor

        Speakers: Erika Tomsic (University of Nova Gorica), Egon Pavlica (UNG)
      • 10:30
        Break 15m
      • 10:45
        Introduction to Quantum Computing 45m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        Participants will learn about quantum phenomena, which govern nature. These quantum phenomena will be explained through photon's interference, which will be introduced by double-slit and double-beam splitter experiments. Next, classical computation will be compared to quantum computation. Quantum bit will be introduced. Participants will learn through an example of the quantum algorithm, presented in real quantum computer and in a quantum computer simulator.

        objectives:

        1. Learn about quantum nature of photons and possibility of application in quantum computing
        2. Learn about the definition of quantum bit (qubit)
        3. See a tutorial on quantum programming in quantum computer or quantum computer simulator

        outcomes:

        1. Understand the difference between classical and quantum computing
        2. Understanding what is qubit
        3. Obtain an idea of quantum computing algorithm
        Speaker: Egon Pavlica (University of Nova Gorica)
      • 11:30
        Using electron spins for implementing qubits 45m

        In the last 25 years there has been an intense investigation on spin qubits defined in semiconductor nanostructures. In this seminar, we will illustrate the physical requirements for these implementations, and outline the recent progress in the field and the remaining challenges. The seminar will be concluded by a brief overview on the alternative quantum computing platforms.

        Speaker: Filippo Troiani
      • 12:15
        Lunch 1h
      • 13:15
        Introduction to Deep Learning and Nanotechnology Applications 1h 30m MIC, Medpodjetniški izobraževalni center

        MIC, Medpodjetniški izobraževalni center

        Cankarjeva ul. 8a, 5000 Nova Gorica

        • Paradigm of AI (Current Advancements)
        • How to think about neural networks (Slides)
        • Images = Matrices (+ what is Convolution?)
        • Building your first neural network
        • Can your network identify simple images?
        • Complex Network == Complex Tasks

        Speaker: Saptashwa Bhattacharyya (University of Nova Gorica)
    • 08:30 16:00
      Industry 4.0
      • 08:30
        Bus transport: Nova Gorica - Ljubljana 1h 30m
      • 10:00
        Visit QIector - Future Factory Software developer 4h

        Field trip to QLECTOR company. QLECTOR is developing artificial intelligence based solutions for manufacturing, logistics and other industries powered by QLECTOR LEAP AI Platform. Participants will see real business solutions on the use of AI in manufacturing, logistics and other industries.

      • 14:00
        Bus transport: Ljubljana - Nova Gorica 1h 30m
    • 09:00 15:00
      Entrepreneurship and Innovation
      • 09:00
        Entrepreneurship and start-up management 2h 15m Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica

        • What is an entrepreneur?
        • Approaches to the start-up phase
        • The lean start-up approach in action

        objectives:

        1. A comprehensive overview of the features of entrepreneurial activities
        2. An in-depth discussion of various approaches that individuals may adopt when they start a new venture
        3. An application of the lean start-up approach to a business case

        outcomes:

        1. Knowing the economic function of entrepreneurship
        2. Knowing the strengths and weaknesses of different patterns to the start-up
        3. Being able to apply the principles of the “lean start-up” methodology to an entrepreneurial idea
        Speaker: Giancarlo Lauto (University of Udine)
      • 11:15
        Break 15m
      • 11:30
        Innovation as a management challenge, part 1 45m Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica

        The lecture aims to present innovation as a major driver of competitiveness. It aims to describe different types of innovation.

        Objectives

        To present innovation as a source of competitive advantage

        Outcomes

        Basic knowledge about different types of innovation

        Speaker: Raffaella Tabacco (University of Udine)
      • 12:15
        Lunch 1h
      • 13:15
        Innovation as a management challenge, part 2 1h 30m Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica

        The lecture aims to present some of the main activities a company should manage in order to create a successful innovation.

        Objectives

        To know different phases of a typical innovation process

        Outcomes

        Basic knowledge about how to manage an innovation process.

        Speaker: Raffaella Tabacco
    • 09:00 15:00
      Entrepreneurship and Innovation
      • 09:00
        Business Model Canvas an value proposition for university startups 1h 30m Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica

        Business model is a conceptual description of the method of value creation, — economic (revenue, profit), social (image), etc. It is a description of how the company will make money. It shows what needs are to be done to grow a business, the resources it needs, and how to put it into a single mechanism.

        • What is a business model, why is it needed
        • Types of business models
        • Overview of Lean Canvas components (+ Business model canvas)
        • Consideration of an example. Elomia startup
        • Building your own Business model canvas
        • Value proposition canvas (+Canvas)
        • Building your own value proposition canvas

        objectives:

        • What is a business model, why is it needed
        • Types of business models
        • Overview of Lean Canvas components (+ Business model canvas)
        • Consideration of an example. Elomia startup
        • Building your own Business model canvas
        • Value proposition canvas (+Canvas)
        • Building your own value proposition canvas

        outcomes:

        1. Teach students how to use the Canvas business model
        2. Consider examples of business models of well-known startups
        3. Record problem segments and solutions
        4. Students can fill in the value proposition canvas
        Speaker: Antonina Tomashevska (Vasyl Stefanyk Precarpathian National University)
      • 10:30
        Break 15m
      • 10:45
        Digital technologies for the development of entrepreneurship and startups 1h 30m Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica

        While studying this lecture, students will learn about digital technologies for the development of entrepreneurship and startups and search resources for data analysis. Listeners will learn how to use Google Public Data Explorer, Google Trends, Google Market Finder, Google Sites, Google Analytics, Platforms and services for running projects (startups).
        Project management software can help businesses of all sizes run smoothly. Whether you're an individual or small business looking to keep track of a few projects, a massive corporation with a project portfolio to match, or anything in between, you can find cloud-based project management tools designed with you in mind.
        A common tool for project management is Trello. Based around the kanban card-based man-agement system, Trello's simple interface and generous free tier makes it the ideal place for individuals and small teams to get started with basic project management.

        objectives:

        A comprehensive overview of Digital technologies for the development of entrepreneurship and startups (Google Tools). Learn to work with search resources for data analysis; Master Google Public Data Explorer tools in the process of managing startups; Learn to work with Google Trends tools; Learn how to work with Google Market Finder; Learn to work with Google Sites; Introduce students to Google Analytics; Familiarize with platforms and services for running projects (startups)

        outcomes:

        Familiarity with digital technologies, which are built on the basis of artificial intelligence, help to develop entrepreneurship and startups. Students will learn to use the tools of digital-ization of entrepreneurship and startups, such as Google Public Data Explorer, Google Trends, Google Market Finder, Google Sites, Google Analytics, Trallo.

        Speaker: Iryina Piatnychuk (Vasyl Stefanyk Precarpathian National University)
      • 12:15
        Lunch 1h
      • 13:15
        Innovation on the field - real cases 1h 30m Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica
        1. Art & Design Thinking - introduction
        2. Innovation management on DeepTech in SMEs and social enterprises
        3. Deep tech innovation cases in Slovenia.
        4. Deep Tech innovation cases in big companies.
        5. Building your own first DeepTech innovation case.

        Objectives:

        1. A comprehensive overview of Art & Design Thinking
        2. Hands on sessions for getting started with DeepTech innovation

        Outcomes:

        1. Roadmap from idea to realization of innovation
        2. Students will be able to build a simple innovation from new technologies
        Speaker: Simon Mokorel
    • 09:00 15:10
      Entrepreneurship and Innovation
      • 09:00
        Business strategies in high-innovation potential areas (Nanotechnology, Industry 4.0, Artificial intelligence) 3h Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica

        This course aims to equip students with knowledge and skills in business strategy development and management process of its implementation in high-innovation potential areas (Nanotechnology, Industry 4.0, Artificial intelligence). This course focuses on strategic analysis, strategic planning, developing and implementing strategies.

        objectives:

        1. A comprehensive overview of business strategies in high-innovation potential areas (Nanotechnology, Industry 4.0, Artificial intelligence)
        2. A comprehensive overview of key methods in business strategic analysis in high-innovation potential areas
        3. Practical skills for business strategic analysis in high-innovation potential areas
        4. Practical skills for formulating the vision, mission, objectives and road map in startups in high-innovation potential areas
        5. Practical skills for building a business model canvas for startups in high-innovation potential areas

        outcomes:

        1. Understanding the importance of business planning in the process of creating startups
        2. Students will be able to perform the business strategic analysis in high-innovation potential areas.
        3. Students will be able to formulate the vision, mission, objectives and road map in startups in high-innovation potential areas
        4. Students will be able to build a business model canvas for startups in high-innovation potential areas.
        5. Mini-Internship to get started with business strategic planning in startups in Nanotechnology, Industry 4.0, Artificial intelligence
        Speaker: Valentina Yakubiv
      • 12:00
        Lunch 1h
      • 13:00
        Business strategies in high-innovation potential areas - Team Work 2h Huture Center (Arctur)

        Huture Center

        Arctur

        Industrijska cesta 1 a, 5000 Nova Gorica

        This is second part of the course, which starts at 9:00

        Speaker: Simon Mokorel (RRA-SP)
    • 09:00 15:00
      Independent study
      • 09:00
        Networking and independent study 1h University of Nova Gorica

        University of Nova Gorica

        Vipavska cesta 13, 5000 Nova Gorica
      • 10:00
        Presentation of RIS Internship Programme 1h University of Nova Gorica

        University of Nova Gorica

        Vipavska cesta 13, 5000 Nova Gorica

        RIS Internship programme

        The RIS (Regional Innovation Scheme) Internship project is based on the successful ADRIA Internship1 programme, run by the Regional Centre ADRIA for three years for the benefit of the West Balkan countries. Regional challenges to internship implementation were identified as the lack of structured support for students, host organisations and Public Higher Education Institutions (HEI) and uncertain funding opportunities, which resulted in the lack of cooperation between businesses and academia and professional opportunities for students. This project will address the mentioned challenges by introducing structured internship mobilities for the benefit of the raw materials students and the organisations of the ESEE region. Establishing professional collaboration between educational institutions and the industry will help build more market-compliant educational programmes in the future. Besides encouraging international mobility, this project will also facilitate the employment of RM graduates in the local industry and thus reduce the impact of the “brain drain” in the ESEE region.
        The RIS Internship programme runs as an approved EIT RM KAVA project from the 1st of January 2022 until the end of 2024.

        Presentation topics:

        RIS Internship Programme presentation
        An online matchmaking platform for internship implementation
        RIS Internship Benchmarking results
        Current programme achievements

        Objectives

        The lecture`s objective is to familiarize the students with existing internship opportunities in the RIS region, eligibility criteria, funding opportunities, the number, and type of hosting organisations/open positions for internship implementation, as well as the very process of internship implementation. The call for students is open until 10th November 2023, and in the next year, the call will be opened again from 1st February to 31st October 2024.

        Outcomes

        Students will get introduced to the overall sustainable and structured RIS Internship Programme for East European RIS and EIT labelled raw materials students, as well as the EIT Raw Materials Strategic Agenda (2021-2027) – main objectives.

        Students will gain additional knowledge on how to increase their business/entrepreneurship skills in the scope of programmes` „Train-the-trainer“ and „Train-the-trainee“ activities

        Speakers: Kristina Koret, Sibila Borojević Šoštarić
      • 11:00
        Networking and independent study 1h 15m University of Nova Gorica

        University of Nova Gorica

        Vipavska cesta 13, 5000 Nova Gorica
      • 12:15
        Lunch 1h
      • 13:15
        Networking and independent study 1h 45m University of Nova Gorica

        University of Nova Gorica

        Vipavska cesta 13, 5000 Nova Gorica
    • 09:00 15:00
      Independent study
      • 09:00
        Networking and independent study 3h 15m University of Nova Gorica

        University of Nova Gorica

        Vipavska cesta 13, 5000 Nova Gorica
      • 12:15
        Lunch 1h
      • 13:15
        Networking and independent study + Conclusion 1h 45m University of Nova Gorica

        University of Nova Gorica

        Vipavska cesta 13, 5000 Nova Gorica