Deepro Bonnerjee
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View article: Configurable Full Subtractor and Adder by Lego-like Mixing and Matching of Engineered Bacteria in an Artificial Neural Network Type Architecture
Configurable Full Subtractor and Adder by Lego-like Mixing and Matching of Engineered Bacteria in an Artificial Neural Network Type Architecture Open
One of the long-term goals of synthetic bioengineering is to create configurable and programmable biological systems by just mixing and matching "LEGO"-like bio-modules. Here, we introduce a configurable and modular multi-cellular system w…
View article: Lego-like Mixing and Matching of Engineered Bacteria Configure Full Subtractor and Adder Through an Artificial Neural Network Type Architecture
Lego-like Mixing and Matching of Engineered Bacteria Configure Full Subtractor and Adder Through an Artificial Neural Network Type Architecture Open
One of the long-term goals of synthetic bioengineering is to create configurable and programmable biological systems by just mixing and matching "LEGO"-like bio-modules. Here, we introduce a configurable and modular multi-cellular system w…
View article: A Synthetic Genetic Reversible Feynman Gate in a Single <i>E.coli</i> Cell and its Application in Bacterial to Mammalian Cell Information Transfer
A Synthetic Genetic Reversible Feynman Gate in a Single <i>E.coli</i> Cell and its Application in Bacterial to Mammalian Cell Information Transfer Open
Reversible computing is a nonconventional form of computing where the inputs and outputs are mapped in a unique one-to-one fashion. Reversible logic gates in single living cells have not been demonstrated. Here, we created a synthetic gene…
View article: A single layer artificial neural network type architecture with molecular engineered bacteria for complex conventional and reversible computing
A single layer artificial neural network type architecture with molecular engineered bacteria for complex conventional and reversible computing Open
Here, we adapted the basic concept of artificial neural networks (ANN) and experimentally demonstrate a broadly applicable single layer ANN type architecture with molecular engineered bacteria to perform complex irreversible computing like…
View article: Engineered Bacteria Computationally Solve Chemically Generated 2X2 Maze Problems
Engineered Bacteria Computationally Solve Chemically Generated 2X2 Maze Problems Open
Maze generating and solving are challenging problems in mathematics and computing. Here we generated simple 2X2 maze problems applying four chemicals and created a set of engineered bacteria, which in a mixed population worked as a computa…
View article: A single layer artificial neural network type architecture with molecular engineered bacteria for reversible and irreversible computing
A single layer artificial neural network type architecture with molecular engineered bacteria for reversible and irreversible computing Open
We created artificial neural network type architecture with engineered bacteria to perform reversible and irreversible computation. This may work as new computing system for performing complex cellular computation.