Study university: Aalto-yliopisto
Heat transfer
Max amount of FITech students: 10 Basic heat transfer phenomena will be covered on this course. In addition to understanding the basic physical phenomena, the student will learn to solve theoretical heat transfer problems as well as numerical heat transfer problems using the Matlab software. Course contents Learning outcomes After the course the student Course…
Value network design for internet services
Max amount of FITech students: 10 Course contents Learning outcomes The objective is to improve the student’s understanding about theory and design processes of value networks in Internet and to apply this understanding in design cases on the field. The emphasis of the course is in the field exercises implemented as team work and in…
Thermal energy storage systems theory
Max amount of FITech students: 30 Persons without a valid study right at a Finnish university or university of applied sciences have preference to this course. To decarbonise heating sector, we also need thermal storage options and this course provides the basic concepts of different Thermal Energy Storage options. This course is aimed at a…
Electrical energy storage systems theory
Max amount of FITech students: 30 Persons without a valid study right at a Finnish university or university of applied sciences have preference to this course. During this course, we take a broader look at the interphases of electrical networks and electrical energy storages. Course contents This course presents an overview of energy storage and…
Statistical natural language processing
Max amount of FITech students: 10 Persons without a valid study right at a Finnish university or university of applied sciences have preference to this course. Many core applications in modern information society such as search engines, social media, machine translation, speech processing and text mining for business intelligence apply statistical and adaptive methods. This…
Tietoliikenteen siirtomenetelmät
Maksimimäärä FITech-opiskelijoita: 20 Tämä kurssi käsittelee digitaalisen tiedonsiirtojärjestelmän fyysisen kerroksen perustoiminnot ja signaalin siirtoon vaikuttavat asiat. Kurssin suorittamisen edellytyksenä on todennäköisyys- ja tilastotieteen perusteiden hallinta sekä perustiedot signaalien käsittelystä. Kurssin sisältö Osaamistavoitteet Suoritettuaan tämän kurssin opiskelija Kurssimateriaali Luentokalvot (online) B. P. Lathi & Z. Ding: Modern Digital and Analog Communication Systems, International 4th ed. Opetuksen…
SDN fundamentals & techniques
Course contents This course covers the principles of legacy routing and Software-Defined Networking (SDN), an important cornerstone of the 5G and beyond network systems. The course envelops theoretical and practical aspects of SDN, showcasing the different existing SDN protocols and controllers, with focus on ONOS and OpenFlow as SDN controller and SDN protocol, respectively. The…
Performance analysis
This course teaches performance analysis of modern computer and communication systems. Course contents Learning outcomes After the course, the student Course material Lecture slides (online). Teaching schedule Completion methods Examination (100 %), exercises. More information in the Aalto University study guide. You can get a digital badge after completing this course.
Microservice architectures and serverless computing
Max amount of FITech students: 35 The introduction of cloud computing and the explosive growth of mobile computing and new online services have brought new ways of structuring computing systems: microservice architectures and serverless computing. This course is about microservice and serverless system design, not implementation. This course will not teach how to program or…
Machine type communications for internet of things
Course contents The course discusses IoT connectivity requirements such as accuracy of the time synchronicity, link reliability, maximum latency, amount of data, duty cycle, number of connecting devices, coverage as well as the technologies available to meet the requirement. Also practical device side implementation and software development aspects will be covered. Learning outcomes After the…