Student Type: Aikuisopiskelija
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
P2P systems and blockchain technologies
This course is concentrated on peer-to-peer and blockchain technologies, their technical details and use-cases appearing on the market. The core contents include the following: Basic building blocks of P2P systems Blockchain technologies Course material Lectures recordings as well as other materials like lecture notes, example problems, etc. available on the Tampere University Moodle pages and
Network analysis and dimensioning
This course provided comprehensive introduction to the methods of network analysis and dimensioning. This includes e.g. All course activities except the exam can be completed remotely. Self-studying option is also available. Lectures and homework recordings as well as other materials like lecture notes, example problems, etc. available on the Tampere University Moodle pages and will
Wireless communications I
Max amount of FITech students: 30 Persons without a valid study right to a Finnish university have preference to this course. This course introduces the basic concepts of wireless communication. Course contents Radio channel models Digital modulation and detection methods Carrier and symbol synchronisation Performance of digital modulation in AWGN and fading channel Diversity techniques
Radio channels
Max amount of FITech students: 30 Persons without a valid study right to a Finnish university have preference to this course. Course contents Learning outcomes After completing the course, the student Course material Lecture notes and additional reading: Completion methods Changes possible. The course can be completed largely online by studying independently. More information on
Internet of things
Max amount of FITech students: 30 Persons without a valid study right to a Finnish university have preference to this course. Course contents Exercises will include hands-on programming and sensing data analytics tasks. Learning outcomes Upon completion of the course, the student Completion methods More information on the University of Oulu course page. You can
Communications networks I
Max amount of FITech students: 30 Persons without a valid study right to a Finnish university have preference to this course. Course contents Learning outcomes After completing the course, student Upon completing the required coursework, students understand the basic functionalities in TCP/IP protocol stack. Course material Lecture notes & additional reading: In addition, selected supportive
Laboratory course in wireless communication systems and networks
The course introduces the basics of system level simulation of wireless communication systems using ns3, with special focus on LTE (4G). Course contents Learning outcome After the course, the student will be able to Completion methods Assignments and final work. No fixed schedule. More information in the LUT University study guide. You can get a digital
Langattomat teknologiat
Maksimimäärä FITech-opiskelijoita: 10 Kurssi antaa yleiskuvan nykyisistä langattomista teknologioista. Kurssilla annetaan perustiedot langattomaan tiedonsiirtoon sekä nykyisiin langattomiin tietoliikenneteknologioihin. Tarkemmin tutustutaan lähiverkkojen, sensoriverkkojen sekä LPWAN verkkojen teknologioihin. Lisäksi tutustutaan Matkapuhelinverkkojen kehitykseen sekä nykyisiin, että tuleviin teknologioihin. Opintojakson suoritettuaan Luentojen aihesisältönä on mm. radiotekniikkaan liittyviä käsitteitä, signaalin eteneminen, modulaatiot, antennit, kanavan varaus, katsaus lyhyen kantaman radioteknologioihin kuten
Wireless systems
Max amount of FITech students: 15 adult learners This introductory course on wireless systems provides a comprehensive understanding of radio communications in general, starting from an overview of regulations and standardisation activities, and including details of the wireless channel modeling, link-level connectivity aspects, as well as the key features that differentiate cellular systems (e.g., 4G/5G)