Digital animation work flow

Animacije v svetu multimedijskih komunikacij igrajo veliko vlogo. Pregovor pravi, da je ena slika vredna tisoč besed. Eno animacijo pa sestavlja na tisoče slik. Ustvarjamo jih z različnimi nameni, cilj pa je skupni, radi bi nekaj sporočili širšemu občinstvu, pa naj gre za reklamo, zgodbo ali za umetnost. Poznamo več vrst animacij, od gibljivih slik v formatu GIF do kompleksnih 3D-risank. V svojem diplomskem delu se osredotočam na dvodimenzionalno animacijo, kjer opisujem proces animiranja v programih Adobe After Effects CS6 in Adobe Illustrator CS6.Animations play a huge part in the world of multimedia communications. A saying goes: "A picture is worth a thousand words". Well, one animation is made out of thousands of pictures, so you do the math. We create them with different motives, but our goal is the same, we want to deliver a message to a wider audience. Let it be for advertisement, for a story, or for the sake of art. We know different types of animations: from motion graphics in GIF format to complex 3D cartoons. In my thesis, I am focusing on the type of two dimensional animation. Therefore, I am guiding you through the process of animating inside the Adobe After Effects CS6 and Adobe Illustrator CS6 softwares

The impact of events in the Slovene high – voltage network on the power quality in the distribution networks

This work analyses the impact of different events in Slovene high-voltage network on power quality in the 20 kV and 0.4 kV distribution networks. In order to perform the analysis a simplified dynamic model of the Slovene power system was build in the program package Matlab/Simulink, using toolbox PowerSys. The obtained model is appropriate for simulation of electromagnetic transients in duration up to a few seconds. It contains simplified dynamic models of all main generators and power transformers installed in the Slovene power system, detailed models of 400 kV, 220 kV and 110 kV networks, simplified models of the neighboring power systems and models of important consumers. The 20 kV and 0.4 kV distribution networks are modeled in the details only in the area of interests. Everywhere else, they are represented as constant loads connected to the 110 kV network. The aforementioned dynamic model was applied to analyze the impact of different events in the Slovene power system on power quality in the 0.4 kV distribution network during transients and in steady states. The power quality in distribution network was analyzed on 0.4 kV busbars in five substations (Cerkno, Škofja Loka, Vevče, Šentjur, Rače) for the following set of events: a switch-off of a 300 MVA (400 kV/110 kV) power transformer in the substation Okroglo; a three-phase short circuit on 110 kV busbars in the substation Kleče; a three-phase short circuit on 20 kV busbars in the substation Rogaška Slatina and a switch-on in a pumping regime of pump-turbine plants Avče and Kozjak which are currently at the design stage. The results obtained show that aforementioned events in some points of Slovene distribution network can cause power quality distortion over that allowed by the power quality standards