Tokyo Alliance: Design/Method

From 2006.igem.org

(Difference between revisions)
Jump to: navigation, search
Line 48: Line 48:
*System
*System
:[[Image:Tokyo_dev_sq_1.jpg|250px|System diagram: sq#1]] [[Image:Tokyo_dev_sq_3.jpg|250px|System diagram: sq#3]] [[Image:Tokyo_dev_sq_6.jpg|250px|System diagram: sq#6]]
:[[Image:Tokyo_dev_sq_1.jpg|250px|System diagram: sq#1]] [[Image:Tokyo_dev_sq_3.jpg|250px|System diagram: sq#3]] [[Image:Tokyo_dev_sq_6.jpg|250px|System diagram: sq#6]]
 +
 +
 +
 +
*Device
 +
:[[Image:Tokyo_dev_yes.jpg|250px|YES Gate]] [[Image:Tokyo_dev_and2.jpg|250px|AND Gate (2 inputs)]]
 +
 +
:[[Image:Tokyo_dev_and3_1.jpg|250px|AND Gate (3 inputs) <1>]]  [[Image:Tokyo_dev_and3_2.jpg|250px|AND Gate (3 inputs) <2>]]
 +
Line 57: Line 65:
====working model====
====working model====
-
*AND-AND gate (Repressor+Repressor)
+
*AND Gate (Repressor+Repressor)
:[[Image:tokyo_workingmodel_1.jpg|500px|AND-AND gate (Repressor+Repressor)]]
:[[Image:tokyo_workingmodel_1.jpg|500px|AND-AND gate (Repressor+Repressor)]]
-
*AND-AND gate (Activator+Repressor)
+
*AND Gate (Activator+Repressor)
:[[Image:tokyo_workingmodel_2.jpg|500px|AND-AND gate (Activator+Repressor)]]
:[[Image:tokyo_workingmodel_2.jpg|500px|AND-AND gate (Activator+Repressor)]]

Revision as of 14:39, 20 October 2006

Tokyo logomini.jpg
Top : Introduction : Significance : Design/Method : Results/Conclusion : About Tokyo Alliance

Sorry, under construction...

Contents

Systematic design concept/method

Abstraction Phase

State Transition Diagram

State Transition Diagram
  • Combination of Noughts-and-Crosses
    • 362,880(=9!)[patterns] (sum up all patterns)
    • 255,168 (As a game)
    • 26,830 (Eliminating symmetrical pairs)


We added the following rules to reduce the number of transition functions and inputs.

1st 
SYANAC goes to the center of the board. (sq#5)
2nd
Human goes to the specific corner(sq#1) or the edge(sq#4) of the board.
3rd
SYANAC must choose sq#3


Therefore, SYANAC's conbination patterns and inputs are as follows:


  • SYANAC
    • 25 combination patterns(Eliminating symmetrical pairs)
    • 7 types of inputs


The State Transition Diagram shown right describes SYANAC's behavior based on this rule.

Logic Gates

Here we show you the logic gates of each sq# according to the state transition.

Logic Gates


Block Diagram (System/Device)

  • System
System diagram: sq#1 System diagram: sq#3 System diagram: sq#6


  • Device
YES Gate AND Gate (2 inputs)
AND Gate (3 inputs) <1> AND Gate (3 inputs) <2>


Construction Phase

Up/Mid/Downstream

Up/Mid/Downstream

working model

  • AND Gate (Repressor+Repressor)
AND-AND gate (Repressor+Repressor)
  • AND Gate (Activator+Repressor)
AND-AND gate (Activator+Repressor)

DNA Construction Procedure

  • Midstream Parts Insertion
[http://131.112.128.86/downloads/tokyo_mid_insertion.mov Midstream Parts Insertion Procedure (.mov)] (Requires QuickTime)
Personal tools
Past/present/future years