Study university: University of Turku
Security engineering
This course addresses security topics in practical systems. The course covers multiple topics causing security vulnerabilities in practical systems. Topics cover a wide range of potential issues from physical protection to security evaluation. Course contents After the completion of the course the student is able to Course material Completion method Weekly schedule for lectures and
Protocol processing and security
This is a course with a flexible start. Please note that after submitting the application it will take approximately two weeks to access this course and start studying. Please wait for instructions from the University of Turku. The course covers protocol engineering and design, protocol processing system design and implementation for a given application, interdomain
Communication technologies and security in IoT
Max amount of FITech students: 20 The course covers Learning outcomes On completion of this course, students have a good understanding of low-power wireless communication technologies, IoT system architecture, security requirements of IoT applications and its solutions. Students get the necessary knowledge on the building blocks of the IoT system architecture with more focus on
Artificial intelligence & cybersecurity
In this MOOC, you will be introduced with basic concepts of cybersecurity and AI. Course contents You will learn what Artificial Intelligence (AI) and Cybersecurity are, how these two are related and in what way these two complement each other. You will also understand cybersecurity threat landscape, AI’s applications and how these applications are transforming
Olio-ohjelmoinnin perusteiden harjoitustyö
Tälle kurssille haetaan avoimen yliopiston kautta. Tämä harjoitustyökurssi liittyy Olio-ohjelmoinnin perusteet -kurssiin. Lisätietoja Turun yliopiston opinto-oppaassa. Jos sinulla on kysyttävää opinnoista, olethan suoraan yhteydessä avoimeen yliopiston opintoneuvontaan.
Digital art master class
The course is designed to give a wide perspective of terms and practices in digital art and visual culture regarding concepts of game aesthetics and visual narrative. It presents multidisciplinary and cross-media framework of the study engaged by various cases from game development practices. Course contents Learning outcomes By the end of the course the
Interactive storytelling
The course focuses on the four partakers of interactive storytelling: the platform, the designer, the interactor, and the storyworld. When constructing a platform, the problem is to select an appropriate approach from tightly controlled to emergent storytelling. On this platform, the designer is then responsible for creating the content (e.g. characters, props, scenes and events)
Deep learning in computer vision and sensor fusion
Course contents The course consists of two main parts. Learning outcomes Attendees of this course will leave with a good sense of how deep learning can be used for a range of computer vision tasks and sensor fusion technology. In addition to the theoretical content, students get familiar with various functionalities of DL tools to
Web and mobile programming
The web and mobile programming course introduces modern programming techniques in web and mobile environments. In web environment, the course discusses developing modern single-page applications. The course concentrates on full stack development; the student will gain basic skills in both client-side and server-side programming. The discussed topics and technologies include e.g. HTML5, CSS3, JavaScript programming,
Tietoverkkotekniikat
Kurssin sisältö Kurssilla käsitellään verkkojen tekniikkaa ja toteutuksia, verkkojen mahdollisuuksia ja rajoituksia sovellusten ja palvelujen toteuttamisessa, protokollapinon kerroksia ominaisuuksineen sekä kunkin kerroksen keskeisimmät protokollat käyttökohteineen ja -tapoineen. Keskeisimmät käsiteltävät protokollat: kaapeloidun lähiverkon (Ethernet) 802.3, langattoman lähiverkon (WLAN) 802.11, Internet-käytössä yleiset IP, IPv6, TCP ja HTTP. Osaamistavoitteet Opintojakson suoritettuaan opiskelija ymmärtää piirikytkentäisen sekä pakettikytkentäisen tiedonsiirron sekä