A new parallel DNA algorithm to solve the task scheduling problem based on inspired computational model

Zhaocai Wang; Zuwen Ji; Xiaoming Wang; Tunhua Wu; Wei Huang

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A new parallel DNA algorithm to solve the task scheduling problem based on inspired computational model

机译：一种新的并行DNA算法，解决基于灵感计算模型的任务调度问题

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Abstract

As a promising approach to solve the computationally intractable problem, the method based on DNA computing is an emerging research area including mathematics, computer science and molecular biology. The task scheduling problem, as a well-known NP-complete problem, arrangesnjobs tomindividuals and finds the minimum execution time of last finished individual. In this paper, we use a biologically inspired computational model and describe a new parallel algorithm to solve the task scheduling problem by basic DNA molecular operations. In turn, we skillfully design flexible length DNA strands to represent elements of the allocation matrix, take appropriate biological experiment operations and get solutions of the task scheduling problem in proper length range with less thanO(n2) time complexity.

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抽象

作为解决计算难以解决的问题的有希望的方法，基于DNA计算的方法是一个新兴的研究区域，包括数学，计算机科学和分子生物学。任务调度问题是一个众所周知的NP完整问题，安排 n 作业到 m 个人并找到最小的执行时间最后一个完成的个人。在本文中，我们使用生物学启发的计算模型，并描述了一种通过基本DNA分子操作来解决任务调度问题的新并行算法。反过来，我们巧妙地设计灵活的长度DNA股线来代表分配矩阵的元素，采取适当的生物实验操作，并在适当的长度范围内获得任务调度问题的解决方案，小于 o （ n 2 ）时间复杂度。 ]]>

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来源
《BioSystems》 |2017年第2017期|共7页
作者
Zhaocai Wang; Zuwen Ji; Xiaoming Wang; Tunhua Wu; Wei Huang;
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作者单位

State Key Laboratory of Simulation and Regulation of River Basin Water Cycle China Institute of Water Resources and Hydropower Research;

State Key Laboratory of Simulation and Regulation of River Basin Water Cycle China Institute of Water Resources and Hydropower Research;

College of Information Shanghai Ocean University Shanghai;

First Affiliated Hospital Wenzhou Medical University;

College of Mathematics and Information Science Guiyang University;

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原文格式 PDF
正文语种 eng
中图分类生物科学;
关键词
Parallel DNA computing; The task scheduling problem; Adleman-Lipton model; NP-complete problem;

机译：并行DNA计算;任务调度问题;Adleman-Lipton模型;NP完整的问题;

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专利

1. A new parallel DNA algorithm to solve the task scheduling problem based on inspired computational model [J] . Zhaocai Wang, Zuwen Ji, Xiaoming Wang, BioSystems . 2017,第期

机译：一种新的并行DNA算法，解决基于灵感计算模型的任务调度问题
2. Fast parallel molecular algorithms for DNA-based computation: solving the elliptic curve discrete logarithm problem over GF2. [J] . Journal of biomedicine & biotechnology . 2008,第Null期

机译：用于基于DNA的计算的快速并行分子算法：解决GF2上的椭圆曲线离散对数问题。
3. Fast parallel molecular algorithms for DNA-based computation: solving the elliptic curve discrete logarithm problem over GF2. [J] . Li K, Zou S, Xv J Journal of biomedicine & biotechnology . 2008,第0期

机译：用于基于DNA的计算的快速并行分子算法：解决GF2上的椭圆曲线离散对数问题。
4. Fast Parallel Molecular Algorithms for DNA-Based Computation: Solving the Elliptic Curve Discrete Logarithm Problem over GF(2{sup}n) [C] . Kenli Li, Shuting Zou, Jin Xu Frontiers in the Convergence of Bioscience and Information Technologies . 2007

机译：基于DNA的计算的快速平行分子算法：解决GF（2 {SUP} N）的椭圆曲线离散对数问题
5. Parallel algorithms to solve the resource-constrained project scheduling problem (Spanish text). [D] . Crespo Abril, Fortunato. 2002

机译：解决资源受限的项目计划问题的并行算法（西班牙语）。
6. Fast Parallel Molecular Algorithms for DNA-Based Computation: Solving the Elliptic Curve Discrete Logarithm Problem over GF(2n) [O] . Kenli Li, Shuting Zou, Jin Xv 2008

机译：基于DNA的快速并行分子算法：求解GF（2n）上的椭圆曲线离散对数问题
7. Fast Parallel Molecular Algorithms for DNA-Based Computation: Solving the Elliptic Curve Discrete Logarithm Problem over GF(2n) [O] . Li, Kenli, Zou, Shuting, Xv, Jin 2008

机译：基于DNA的快速并行分子算法：求解GF（2n）上的椭圆曲线离散对数问题

A new parallel DNA algorithm to solve the task scheduling problem based on inspired computational model

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