Bologna

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(Difference between revisions)
('''Team UNIBO Cesena Campus IGEM2007''')
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Hi everybody! We are the Bologna University Team; this is our first time in iGEM and we are very excited about it!
Hi everybody! We are the Bologna University Team; this is our first time in iGEM and we are very excited about it!
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Our Team Roster is composed by Instructors Silvio Cavalcanti, Francesca Ceroni and Sara Montagna, Student Members Francesco Pasqualini, Guido Costa and Alice Pasini and Advisors Emanuele Giordano and Marco Tartagni.
 
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Our Team Roster is composed by Instructors Silvio Cavalcanti, Francesca Ceroni and Sara Montagna, Student Members Francesco Pasqualini, Guido Costa and Alice Pasini and Advisors Emanuele Giordano and Marco Tartagni.
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The Team's project consists of a Genetic [[Schmitt Trigger]], a comparator circuit with an incorporated positive feedback. The main feature of this kind of circuit is the so called hysteresis, which is obtained through a dual threshold action: being T_H and T_L the two thresholds, if input is higher than T_H, output is at an high level; in case of input being lower than T_L, output results low. Instead, when input is between T_H and T_L, output retains its value.
Page still under construction.....
Page still under construction.....

Revision as of 15:27, 9 July 2007

Team UNIBO Cesena Campus IGEM2007

                                        Bollo UNIBO.png


Hi everybody! We are the Bologna University Team; this is our first time in iGEM and we are very excited about it!

Our Team Roster is composed by Instructors Silvio Cavalcanti, Francesca Ceroni and Sara Montagna, Student Members Francesco Pasqualini, Guido Costa and Alice Pasini and Advisors Emanuele Giordano and Marco Tartagni.

The Team's project consists of a Genetic Schmitt Trigger, a comparator circuit with an incorporated positive feedback. The main feature of this kind of circuit is the so called hysteresis, which is obtained through a dual threshold action: being T_H and T_L the two thresholds, if input is higher than T_H, output is at an high level; in case of input being lower than T_L, output results low. Instead, when input is between T_H and T_L, output retains its value.


Page still under construction.....