Animacija fotorealističnog interijera kuće te utjecaj osvjetljenja na različite materijale

Santini, Marino (2018) Animacija fotorealističnog interijera kuće te utjecaj osvjetljenja na različite materijale. Master's thesis - Graduate Programme. Grafički fakultet. [Mentor: Bjelovučić Kopilović, Sanja].

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Abstract

Rad je podijeljen u tri dijela. U prvom dijelu obrađuje se izrada modela i scene. Drugi dio se bavi animacijom kamere u prostoru dok se u trećem dijelu obrađuje osvjetljenje različitih vrsta modela različitim materijalima. U radu su opisani postupci izrade brojnih modela koji se nalaze u sceni, u 3D programu Blender. Neke modele čine mreže poligona dok su drugi modeli izrađeni pomoću simulacija sustavima čestica. U radu su prikazani i izrađeni 2D prikazi nacrta kuće. Nakon postupka izrade modela slijedi njihovo postavljanje na scenu. Slijedi postupak osvjetljenja i testiranje izgleda modela u sceni te njihovo fotografiranje pomoću kamere u programu. Pomicanjem kamere po putanji i fotografiranjem u ključnim trenutcima program kao rezultat daje niz slika koje su obrađene video obradom. Završnu fazu rada čine slike različitih modela osvijetljenih svim izvorima svjetlosti koje program nudi. Temeljem tih slika provodi se anketa koja sadržava nekoliko parametara po kojima se provodi testiranje modela na fotorealističnost, tako da se uspoređuju slike modela snimljene u 3D Blenderu različitim osvjetljenjem. Cilj rada je istražiti kako u programu Blender dobiti fotorealistične slike i animacije interijera te koje je najbolje osvjetljenje za prikaz fotorealističnog modela. Pretpostavljena hipoteza je da će rezultati istraživanja pokazati kako je Blender dovoljno jak i napredan za korištenje pri izradi fotorealističnih interijera i modela.

Item Type: Master's thesis - Graduate Programme
Mentor name: Bjelovučić Kopilović, Sanja
Thesis Committee: Stanić Loknar, Nikolina and Bjelovučić Kopilović, Sanja and Rudolf, Maja
Defence date: 27 September 2018
Abstract in english: The work is divided into 3 phases. The first phase involves the creation of models and scenes. The second deals with camera animation in space, while the third phase deals with the illumination of different types of models with different materials. This work describes the procedures for creating many models in the scene, in the 3D program "Blender". Some models make polygon networks, while other models are made by simulation of particle systems. This work also shows designed 2D technical drawings of a house.After the modeling process is followed, their installation on the scene. After that, the procedure of illuminating and testing the appearance of the model in the scene and their photography using the camera in the program. By rotating the camera on the path and photographing in key moments, the program as a result gives a number of images that are processed by Blender's video processing. The final phase of the work consists of images of different models illuminated by all the light sources that the program offers. Based on these images, an survey is conducted, which includes several parameters for model testing - photorealistic, by comparing the images of the model taken in 3D Blender with different lighting. The aim of this work is to investigate Blender's photorealistic images and interior animation as well as the best light for the photorealistic model. Study and examine which materials and textures are best used for this purpose, also rendering options, as well as computer configurations. The hypothesized hypothesis is that the survey results show that Blender is strong enough to be able to use it for creating photorealistic interiors and models. Of course, the goal is to prove or kill the hypothesis.
Uncontrolled Keywords: animacija kamere, modeliranje, renderiranje, 3D-Blender, fotorealističnost
Keywords in english: Camera animation, modeling, rendering, 3D mixer, photorealistic
Subjects: TECHNICAL SCIENCES > Graphic Technology
Institution: Grafički fakultet
City: Zagreb
Number of Pages: 89
Callnumber: BJE 2018 SAN
Inventory number: DB785
Depositing User: Nina Jelača
Status: Unpublished
Date Deposited: 22 Jan 2019 09:11
Last Modified: 22 Jan 2019 09:11
URI: http://eprints.grf.unizg.hr/id/eprint/2994

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