Subject |
Name |
Extent of teaching |
Language of teaching |
Completion
|
Semester
|
Credits
|
Guarantors |
Teachers |
BE4M33PAL |
Advanced Algorithms |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Průša D. |
|
B4M33PAL |
Advanced algorithms |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Průša D. |
|
BE3M33PKR |
Advanced robot kinematics |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Pajdla T. |
|
B3M33PKR |
Advanced robot kinematics |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Pajdla T. |
|
B3B33ALP |
Algorithms and programming |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Kybic J., Vonásek V. |
|
BE5B33ALG |
Algorithms |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Genyk-Berezovskyj M. |
|
B4B33ALG |
Algorithms |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Genyk-Berezovskyj M. |
|
BE3M33ARO1 |
Autonomous Robotics |
2P+2L |
EN |
Z,ZK |
L |
6 |
Zimmermann K. |
|
B3M33ARO1 |
Autonomous Robotics |
2P+2L |
CS |
Z,ZK |
L |
6 |
Zimmermann K. |
|
A6M33BIO |
Biometrie |
2P+2C |
CS |
KZ |
Z |
4 |
Novák D. |
|
B0B01MVM |
Calculus with Maple |
1P+1C+1D |
CS |
Z |
L |
2 |
Němeček A. |
|
A6M33KSY |
Cognitive Systems |
2P+1C |
CS |
KZ |
Z |
4 |
Štěpánová K., Vavrečka M. |
|
BE4M33MPV |
Computer Vision Methods |
2P+2C |
EN |
Z,ZK |
L |
6 |
Matas J. |
|
B4M33MPV |
Computer Vision Methods |
2P+2C |
CS |
Z,ZK |
L |
6 |
Matas J. |
|
XP33VTP |
Computer Vision – Theory and Practice |
2S |
EN |
ZK |
L |
4 |
Chum O. |
|
BE5B33KUI |
Cybernetics and Artificial Intelligence |
2P+2C |
EN |
Z,ZK |
L |
6 |
Svoboda T. |
|
B3B33KUI |
Cybernetics and Artificial Intelligence |
2P+2C |
CS |
Z,ZK |
L |
6 |
Svoboda T. |
|
BEV033DLE |
Deep Learning |
2P+2C |
EN |
Z,ZK |
L |
6 |
Flach B. |
|
BE4M33DZO |
Digital Image |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Sýkora D. |
|
B4M33DZO |
Digital image |
2P+2C |
CS |
Z,ZK |
Z,L |
6 |
Sýkora D. |
|
A7B33DIF |
Digital Photography |
2P+2L |
CS |
Z,ZK |
L |
5 |
Hlaváč V. |
|
XP33DID |
Distributed Artificial Intelligence |
2P+1S |
CS |
ZK |
Z |
4 |
Lhotská L. |
|
A0M33EOA |
Evolutionary Optimization Algorithms |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Pošík P. |
|
A6M33ZPP |
First Aid Training Course |
2S |
CS |
Z |
Z |
1 |
Macků D. |
|
XEP33FLO |
Fuzzy Logic |
2P+0S |
EN |
ZK |
L |
4 |
Navara M. |
|
BE4M33GVG |
Geometry of Computer Vision and Graphics |
2P+2C |
EN |
Z,ZK |
L |
6 |
Pajdla T. |
|
B4M33GVG |
Geometry of Computer Vision and Graphics |
2P+2C |
CS |
Z,ZK |
L |
6 |
Pajdla T. |
|
XEP33GMM |
Graphical Markov Models |
2P+1S |
EN |
ZK |
Z |
4 |
Flach B. |
|
BE3M33HRO |
Humanoid robots |
2P+2C |
EN |
Z,ZK |
L |
6 |
Hoffmann M. |
|
B3M33HRO |
Humanoid robots |
2P+2C |
CS |
Z,ZK |
L |
6 |
Hoffmann M. |
|
XP33CHM |
Chapters in higher mathematics |
2P |
EN |
ZK |
|
4 |
Pták P. |
|
A5M33IZS |
Information and Knowledge-Based Systems |
2P+1C |
CS |
Z,ZK |
L |
4 |
|
|
B3B33LAR |
Laboratory of robotics |
0P+4L |
CS |
KZ |
L |
4 |
Krsek P. |
|
BAM33ZMO |
Medical Image Processing |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Kybic J. |
|
BEAM33ZMO |
Medical Image Processing |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Kybic J. |
|
BAM33ZSL |
Medical Imaging Systems |
2P+2C |
CS |
Z,ZK |
L |
6 |
Kybic J. |
|
BEAM33ZSL |
Medical Imaging Systems |
2P+2C |
EN |
Z,ZK |
L |
6 |
Kybic J. |
|
BE3M33MRS |
Multi-robot aerial systems |
2P+2L |
EN |
Z,ZK |
Z |
6 |
Saska M. |
|
B3M33MRS |
Multi-robot aerial systems |
2P+2L |
CS |
Z,ZK |
Z |
6 |
Saska M. |
|
BAM33NIN |
Neuroinformatics |
2P+2C |
CS |
Z,ZK |
L |
6 |
Novák D. |
|
BEAM33NIN |
Neuroinformatics |
2P+2C |
EN |
Z,ZK |
L |
6 |
Novák D. |
|
B0B33OPT |
Optimization |
4P+2C |
CS |
Z,ZK |
Z,L |
7 |
Werner T. |
|
BE5B33RPZ |
Pattern Recognition and Machine Learning |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Matas J. |
|
A0M33PAR |
Practical Robotics |
1P+3L |
CS |
KZ |
Z |
4 |
Přeučil L. |
|
BE5B33PRG |
Programming Essentials |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Svoboda T. |
|
BE5B33PGE |
Programming for Engineers |
2P+2C |
EN |
Z,ZK |
L |
6 |
Genyk-Berezovskyj M. |
|
XP33RCV |
Reading group in Pattern Recognition and Computer Vision |
2P+2S |
EN |
ZK |
Z,L |
4 |
Tolias G. |
|
XP33RG2 |
Reading Group |
2P+2S |
EN |
ZK |
Z,L |
4 |
Zimmermann K. |
|
B4B33RPZ |
Recognition and machine learning |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Matas J. |
|
B3B33UROB |
Robot Learning |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Zimmermann K. |
|
B3B33VIR |
Robot Learning |
2P+2L |
CS |
Z,ZK |
Z |
4 |
|
|
B3B33ROB1 |
Robotics |
2P+2L |
CS |
Z,ZK |
Z |
6 |
Petrík V. |
|
B3B33ROB |
Robotics |
2P+2L |
CS |
Z,ZK |
Z |
5 |
|
|
XP33RSK |
Robust Statistics for Cybernetics |
2P+0S |
CS |
ZK |
L |
4 |
Nosková J. |
|
B4B33RPH |
Solving Problems and other Games |
2P+3C |
CS |
KZ |
Z |
6 |
Svoboda T. |
|
BE4M33SSU |
Statistical Machine Learning |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Flach B. |
|
B4M33SSU |
Statistical Machine Learning |
2P+2C |
CS |
Z,ZK |
Z |
6 |
|
|
XEP33SML |
Structured Model Learning |
2P+1S |
EN |
ZK |
L |
4 |
Flach B. |
|
BEV033SSR |
Summer School on Multi-Robot Systems |
|
EN |
Z |
L |
2 |
Saska M. |
|
BE4M33TDV |
Three-dimensional Computer Vision |
2P+2C |
EN |
Z,ZK |
Z |
6 |
Šára R. |
|
B4M33TDV |
Three-dimensional Computer Vision |
2P+2C |
CS |
Z,ZK |
Z |
6 |
Šára R. |
|