Tokyo Alliance: Design/Method
From 2006.igem.org
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The State Transition Diagram shown right describes SYANAC's behavior based on this rule. | The State Transition Diagram shown right describes SYANAC's behavior based on this rule. | ||
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+ | =====State Transition Diagram Demonstration===== | ||
+ | <gallery> | ||
+ | Image:igem_tokyo_std_25.jpg | ||
+ | Image:igem_tokyo_std_26.jpg | ||
+ | Image:igem_tokyo_std_27.jpg | ||
+ | Image:igem_tokyo_std_28.jpg | ||
+ | Image:igem_tokyo_std_29.jpg | ||
+ | </gallery> | ||
====Logic Gates==== | ====Logic Gates==== |
Revision as of 18:35, 29 October 2006
Contents |
Systematic design concept/method
Abstraction Phase
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.
State Transition Diagram Demonstration
Logic Gates
Here we show you the logic gates of each sq# according to the state transition.
Block Diagram (System/Device)
- System
- Device
Construction Phase
Up/Mid/Downstream
working model
- AND Gate (Repressor+Repressor)
- 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)
- Up/Downstream Parts Insertion
- Next parts can be inserted with the same procedure. (Up/Downstream Insertion Parts)