Computer Graphics: Processing Digital Camera Images

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Processing Digital Camera Images (WS 12/13)

0433 L 360
Instructor:	Prof. Dr. Marc Alexa
Contact	Ronald Richter [1]
Course structure:	Seminar - 2 SWS
Room:	E-N 719
Date:	Tuesday 4pm - 6pm Start: 16 October 2012 End: 13 Frebruary 2013
Description:	Images taken with a digital camera can be processed and manipulated to create novel imagery unachievable with a single shot. In this course we will computationally create novel imagery by combining a large number of existing images, coming either from multiple shots of the same scene taken with varying camera parameters or from existing large image databases (e.g. Flickr).
Requirements:	Interest in visual arts/photography as well as programming skills (Matlab/C++). It is strongly recommended that students have already taken introductory Computer Graphics or Computer Vision courses.
Details:	The course gives a brief overview of the basic ideas and several recent developments in the field of Computational Photography as well as Data-Driven Vision and Graphics. Students will work in small teams on a chosen topic and present the basics of their topic in an intermediate talk. Finally, each team will implement a recent research paper and present their topic, application and results in a concluding talk. Both efficiency of the underlying algorithms as well as visual quality of the resulting imagery are important aspects in this course. Grading will be based on all aspects of performance.
Registration:	Please register for the course until October 16th by sending an eMail mentioning the course title (PDCI), course of studies (e.g. Informatik), your name and your student id (Matrikelnummer) to Ronald Richter [2].

Schedule
Date	Topic
16 Oct	Overview
23 Oct	Topics, forming teams

Sample projects from previous courses

: Automatic colorization of a greyscale image (left) using statistics learned from a large image database. The colorized result is shown on the right.; [3]; © Patrick Busse

: Interactive Digital Photomontage: automatically combining a set of macro photographs yields an image that is sharp everywhere.; [4]; © CG TUB

Samples of what students implemented in previous classes:

SS 12:

Shadow Draw [5] (Tiare Feuchtner, Richard Klemm)
Photo Tourism [6] (Cihan Avci, Christian Unger, Muhammadzohir Rustamov)
Frankencamera [7] (Artjom Butyrtschik, Johann Saudhof, Jonas Geistert, Song Yuhang)

WS 11/12:

Efficient Gradient Domain Imaging [8] (Stefan Chmiela, Andreas Langenhagen)
PatchMatch [9] (Kristian Kohl, Damien Thome Lutz)

Scene Completion [10] (Christian Thurow, Christopher Leiste)
Infinite Panorama [11] (Michael Winkelmann)

SS 11:

HDR [12] (Gert Geidel, Michal Cegielski)
Frankencamera [13] (Tommy Shi Zheng, Weidong Wang)
Gradient Domain Imaging [14] (Mohammed Izaan)
PhotoTourism [15] (Xiaofeng Xu, Wang Xi)
Dark Flash Photography [16] (Hannes Rammer)
PatchMatch [17] (Benjamin Welle, Steffen Bingel)
Grey2Color [18] (Erik Stürmer)

WS 10/11:

Dark Flash Photography [19]
Frankencamera [20]
Scene Completion [21]
Art2Real [22]
Gradient domain imaging [23]
High dynamic range imaging [24]
Lensless Microscopy [25]
PhotoTourism [26]

WS 09/10:
[27]

D [28]ark Flash Photography [29] (Lukas N.P. Egger, Martin Zuber)
Artificial Infinite Panoramas [30] (Florian Thiemer, Christopher Koenig)
Coloring Grayscale Images from Large Image Databases [31] (Patrick Busse)
High Dynamic Range Imaging and Tonemapping [32] (Sebastian Negraszus, Daniel Pirch)

WS 08/09:

Scene Completion from Millions of Photographs [33] (Carlo Fürst, Ruben Gerlach, Moritz Schneeweiss)
Image Flight [34] (Matthias Hausburg, Ronald Richter, Ingo Breßler)
Tone Mapping [35] (Roman Zimmer, Philipp Herholz, Volker Parsiegla)
Image Mosaics [36] (Mario Bodemann, Sebastian Koch, Dmitry Nedospasov, Helen Perkunder)
HDR image creation [37] (Marcel Poppe, Christian Corona)

WS 07/08:

Best Focus Distance [38]
Flash/No Flash Photography [39]
Environment Matting [40]
Advanced Synthetic Lighting [41]
HDR capture and tone mapping [42]

[43]List of previous related courses:

Processing Digital Camera Images WS11/12 [44]
Processing Digital Camera Images SS11 [45]
Processing Digital Camera Images WS10/11 [46]
Processing Digital Camera Images WS09/10 [47]
Computational Photography (with UdK) SS09 [48]
Processing Digital Camera Images WS08/09 [49]
Computational Photography WS07/08 [50]
Computational Photography WS06/07 [51]

------ Links: ------

[1] https://www.tu-berlin.de/allgemeine_seiten/contact/
parameter/en/id/124315/?no_cache=1&ask_mail=XeqsCAA
KmeCTVT8LUHhR2L%2BdcC19yAjWPduohgC%2FgKQ%3D&ask_nam
e=R%20RICHTER

[2] https://www.tu-berlin.de/allgemeine_seiten/contact/
parameter/en/id/124315/?no_cache=1&ask_mail=XeqsCAA
K%2F%2F0ATcCrYNKsZt9XS25zLwv0QK6N%2FFwuZSc%3D&ask_n
ame=R%20RICHTER

[3] http://www.eecs.tu-berlin.de/fileadmin/fg144/Course
s/09ws/pdci/header.jpg

[4] http://www.eecs.tu-berlin.de/fileadmin/fg144/Course
s/08WS/ProcImages/best_focus.jpg

[5] http://cybertron.cg.tu-berlin.de/pdci12ss/shadowdra
w/index.html

[6] http://cybertron.cg.tu-berlin.de/pdci12ss/phototour
ism/index.html

[7] http://cybertron.cg.tu-berlin.de/pdci12ss/fcam/

[8] http://cybertron.cg.tu-berlin.de/pdci11ws/gdi/index
.html

[9] http://cybertron.cg.tu-berlin.de/pdci11ws/patchmatc
h/index.html

[10] http://cybertron.cg.tu-berlin.de/pdci11ws/scene_co
mpletion/index.html

[11] http://cybertron.cg.tu-berlin.de/pdci11ws/infinite
_panorama/index.html

[12] http://cybertron.cg.tu-berlin.de/pdci11/HDR/index.
html

[13] http://cybertron.cg.tu-berlin.de/pdci11/Frankencam
era/index.html

[14] http://cybertron.cg.tu-berlin.de/pdci11/GradientDo
mainImaging/index.html

[15] http://cybertron.cg.tu-berlin.de/pdci11/PhotoTouri
sm/index.html

[16] http://cybertron.cg.tu-berlin.de/pdci11/DarkFlash/
index.html

[17] http://cybertron.cg.tu-berlin.de/pdci11/PatchMatch
/index.html

[18] http://cybertron.cg.tu-berlin.de/pdci11/Grey2Color
/index.html

[19] http://cybertron.cg.tu-berlin.de/pdci10/dark_flash
/

[20] http://cybertron.cg.tu-berlin.de/pdci10/frankencam
/

[21] http://cybertron.cg.tu-berlin.de/pdci10/scene_comp
letion/

[22] http://cybertron.cg.tu-berlin.de/pdci10/art2real/A
rt2Real/

[23] http://cybertron.cg.tu-berlin.de/pdci10/gradient_d
omain/

[24] http://cybertron.cg.tu-berlin.de/pdci10/hdr_tonema
pping/

[25] http://cybertron.cg.tu-berlin.de/pdci10/lensless_m
icroscopy/

[26] http://cybertron.cg.tu-berlin.de/pdci10/photo_tour
ism/

[27] http://cybertron.cg.tu-berlin.de/pdci09/infinite_p
anorama

[28] http://cybertron.cg.tu-berlin.de/pdci09/dark_flash
/

[29] http://cybertron.cg.tu-berlin.de/pdci09/dark_flash
/

[30] http://cybertron.cg.tu-berlin.de/pdci09/infinite_p
anorama

[31] http://cybertron.cg.tu-berlin.de/pdci09/gray2color

[32] http://cybertron.cg.tu-berlin.de/pdci09/hdr_tonema
pping

[33] http://cybertron.cg.tu-berlin.de/pdci08/scenecompl
etion

[34] http://cybertron.cg.tu-berlin.de/pdci08/imagefligh
t/

[35] http://cybertron.cg.tu-berlin.de/pdci08/tonemappin
g/

[36] http://cybertron.cg.tu-berlin.de/pdci08/mosaic/

[37] http://cybertron.cg.tu-berlin.de/pdci08/hdr/

[38] http://user.cs.tu-berlin.de/%7Ebbolle/focus/

[39] http://user.cs.tu-berlin.de/%7Epatrick/crs_cp.html

[40] http://www.math.tu-berlin.de/%7Ewotzlaw/cgweb/

[41] http://user.cs.tu-berlin.de/%7Ebert/asl/

[42] http://user.cs.tu-berlin.de/%7Ebhaus/CompPhot/HDRI
/

[43] http://user.cs.tu-berlin.de/%7Ebhaus/CompPhot/HDRI
/

[44] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ws201112/processing_digital_camera_images/

[45] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ss2011/processing_digital_camera_images/

[46] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ws201011/processing_digital_camera_images/

[47] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ws200910/processing_digital_camera_images/

[48] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ss2009/computational_photography/

[49] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ws200809/processing_digital_camera_images/

[50] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ws200708/computational_photography_ws2007/

[51] https://www.eecs.tu-berlin.de/institut_fuer_techni
sche_informatik_und_mikroelektronik/cg_archiv/menue/tea
ching/ws200607/computational_photography_ws2007/

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Processing Digital Camera Images (WS 12/13)

Sample projects from previous courses

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Processing Digital Camera Images (WS 12/13)

Sample projects from previous courses

Zusatzinformationen / Extras

Quick Access:

Auxiliary Functions