Ever since Adleman [1] solved the Hamilton Path problem using a combinatorial molecular method, many other hard computational problems have been investigated with the proposed DNA computer [3] [25] [9] [12] [19] [22] [24] [27] [29] [30]. However, these computation methods all work toward one destination through a couple of steps based on the initial conditions. If there is a single change on these given conditions, all the procedures need to be gone through no matter how complicate these procedures are and how simple the change is. The new method we are proposing here in the paper will take care of this problem
A molecular solution of Hamiltonian Path Problem (HPP) is introduced. In this method, longer paths a...
AbstractAdleman used biological manipulations with DNA strings to solve some instances of the Direct...
The use of DNA molecules to solve hard computational problems has been demonstrated in recent studie...
This Major Qualifying Project evaluates the feasibility of using DNA to solve NP-Complete problems. ...
In this paper, we first summarize the research that has been completed in the field of DNA computing...
A common feature of DNA computing involves the use of molecular biology techniques to extract molecu...
This paper proposes new models for DNA computation based on a simple principle called equality chec...
DNA computation investigates the potential of DNA as a massively parallel computing device. Research...
DNA computing appeared in the literature in 1994 when Leonard Adleman suggested to solve an NP-compl...
This paper introduces a new model of computation that employs the tools of molecular biology whose i...
DNA computation investigates the potential of DNA as a massively parallel computing device. Research...
DNA computation is a novel and exciting recent development at the interface of computer science and ...
Since Leonard Adleman successfully proposed and demonstrated the possibilities of DNA computation in...
Deoxyribonucleic Acid or DNA computing has emerged as an interdisciplinary field that draws together...
Generally, the computer systems are made up of silicon-based computer technologies. In DNA computing...
A molecular solution of Hamiltonian Path Problem (HPP) is introduced. In this method, longer paths a...
AbstractAdleman used biological manipulations with DNA strings to solve some instances of the Direct...
The use of DNA molecules to solve hard computational problems has been demonstrated in recent studie...
This Major Qualifying Project evaluates the feasibility of using DNA to solve NP-Complete problems. ...
In this paper, we first summarize the research that has been completed in the field of DNA computing...
A common feature of DNA computing involves the use of molecular biology techniques to extract molecu...
This paper proposes new models for DNA computation based on a simple principle called equality chec...
DNA computation investigates the potential of DNA as a massively parallel computing device. Research...
DNA computing appeared in the literature in 1994 when Leonard Adleman suggested to solve an NP-compl...
This paper introduces a new model of computation that employs the tools of molecular biology whose i...
DNA computation investigates the potential of DNA as a massively parallel computing device. Research...
DNA computation is a novel and exciting recent development at the interface of computer science and ...
Since Leonard Adleman successfully proposed and demonstrated the possibilities of DNA computation in...
Deoxyribonucleic Acid or DNA computing has emerged as an interdisciplinary field that draws together...
Generally, the computer systems are made up of silicon-based computer technologies. In DNA computing...
A molecular solution of Hamiltonian Path Problem (HPP) is introduced. In this method, longer paths a...
AbstractAdleman used biological manipulations with DNA strings to solve some instances of the Direct...
The use of DNA molecules to solve hard computational problems has been demonstrated in recent studie...