c[Notice] You should attend all the practices and average mark should be lager than 4! => as a X'mas present more than average 3.8 is given "ok." When you have two OK, visit me for signature in you zachotka on 21 December from 16:20 to 17:40. you may ask some one to make it. =================================================================================================================== [A] II-8 No.1 Sep Oct Nov Dec total average Thursday 13:20-16:10 04 18 02 16 30 13 27 11 20 points points result ------------------------------------------------------------------------------------------------------------------- Sergeev Roman 4 5 5 3.5 3.5 5 2.9 4 32.9/8=4.11 => OK Skovoroda Artyr 3.5 4.9 2.5 3.5 4.9 5 2.9 4 3.4 34.6/8=4.32 => OK Syhover Artiom 5 5 5 3.5 3.5 2.5 2.9 4 31.4/8=3.92 => ok Fomina Natalia 5 5 3.5 3.5 3.5 5 4.6 4 34.1/8=4.26 => OK Tsaruk Alexandr 5.1 5.1 5.1 3.5 3.5 2.5 4.5 4 33.3/8=4.16 => OK Yuhnevich Artiom 5 5 *4.5 3.5 3.5 2.5 2.9 4 30.9/8=3.86 => ok Yamaev Alexei 3.5 5 2.5 3.5 #3 4 2.9 4 3 31.4/8=3.92 => ok Yaroshevich Sergei 4.5 5 5 3.5 3.5 2.5 2.8 4 2.9 33.7/8=4.21 => OK ------------------------------------------------------------------------------------------------------------------- 1) All-one problem: 100 chromosomes each has 1000 binary genes 2) Minimization of y=x1^2+x2^2+...+x20^2 & y=x1^2-x2^2+x3^2-...-x20^2 & 3) 2-D function optimization 4) 2-D function with 5 minimum with Fitness Sharing Algorithm 5) Even-parity with 5-5-1 Neural Network with Hillclimbing algorithm 6) TSP with 1 + 5, 6 or 7 cities created at random in (0,0)-(10,10) => comapr GA with all possibl travel. 7) IPD with 20 gamers: show me the best vs random/tit-for-tat/always-good/never-good besides fitness-generation 8) Needle in a haystack by hillclimbing: 40 chalanges with 50% "?" 25 % "1" and 25% "0" of 8,12,16,20 bit chromosomes. ----- * => 10/09; # => 11/20 (often went out, though) =================================================================================================================== [B] II-8 No.2 Sep Oct Nov Dec total average Thursday 13:20-16:10 11 25 09 23 06 20 04 18 20 points points ------------------------------------------------------------------------------------------------------------------- Braginskii Alexandr (-) | 3 2.5 I 4.5 2 2.5 5.1 3.5 23.1/6=3.85 => ok Denisenko Viktoriya 4.5 | 2.5 2.5 4 5 2.5 4.4 2.9 23.8/6=3.96 => 28.3/7= 4.04 => OK Drozd Nikita (-) | 3 2.5 was 4.5 2 2.5 5.1 3.5 23.1/6=3.85 => ok Zaykova Ilona 4.5 | 5 5 4 - 3.5 4.6 3.5 25.6/6=4.26 => OK Zanevich Ekaterina 5 | 5.1 5.1 in 4 5 - 4.5 3.5 27.2/6=4.53 => OK Kaseniyk Sergei o | - - - - - o ---- => xx Kontsevoi Mihail (-) | 5 5 a 4.8 5 4 4 27.8/6=4.63 => OK Ledak Ekaterina 5.1 | 5 5 4.9 5 4.2 4 28.1/6=4.68 => OK Maksimyk Sergei - | 5.1 5.1 conf 4.9 5 4.2 4.6 28.9/6=4.81 => OK Nazarov Alexandr - | - - - - - - ---- => xx Nefediev Alexandr 4.5 | 5 5 3 - 2.5 4.6 3.5 23.6/6=3.93 => 28.1/7 = 4.01 => OK Pronko Andrei 4.5 | 5 5 4.9 5 4.2 4.5 25.6/6=4.26 => OK ------------------------------------------------------------------------------------------------------------------- 1) All-one problem: decide number of genes and number of chromosome in one population so that we use full screen 2) Minimize y=20+(x1^2-cos(2pi*x1)+(x2^2+cos(2pi*x2))+...+(x20^2+cos(2pi*x2) If you have time, draw the 3-D graph of z=2+{x^2-cos(6.28*x)}+{(y^2)-cos(6.28*y)} => when n=2 above without scroll. Also show fitness at the end of each chromosome. Starting ration (i) 25% vs 75%, (ii) 5% vs 95% 3) Minimization of 2-D function y=20+x^2-cos(2*pi*x) with & without mutation => if still time try 3-D version 4) Lucky dog: 20 dogs & 4 sausages under Fitness Sharing GA 5) Dimension reduction of 4-D iris dataset to 2-D using Sammon mapping 6) IPD with 20 gamers: show me the best vs random/tit-for-tat/always-good/never-good besides fitness-generation ================================================================================================================= 15:38-16:01